The intra-testicular level of testosterone in GF mice was found to be significantly lower than in SPF and CBUT mice
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PLOS ONE: The Gut Microbiota and Developmental Programming of the Testis in Mice - 0 views
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This study establishes a novel role for the commensal gut microbiota in the regulation of testicular development and function
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Absence of the normal microbiota influences the formation and the integrity of the BTB as well as the intra-testicular levels of testosterone and serum levels of LH and FSH.
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Nutritional, socioeconomic, lifestyle and environmental factors (among others) are involved in the regulation of normal spermatogenesis.
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he gut microbiota is one such potential source of environmental factors/products that has developed an intimate symbiotic relationship with host's physiology.
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Manipulation of the gut microbiotia through dietary modification, pre- and probiotics can therefore be beneficial for the host's reproductive health.
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In the current study, colonizing GF mice with CBUT resulted in an increased sperm production, suggesting that bacterial products, e.g. of fermentation, directly or indirectly, can affect the testis.
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A recent study demonstrated that dietary supplementation of the probiotics Lactobacillus reuteri increased and restored testosterone levels in aging mice
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This suggests that butyrate most likely regulates testosterone production at the testicular level by stimulation of gene expression in Leydig cells and with little or no effect at the pituitary- hypothalamic levels.
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Coleus Forskolii Manufacturers -commonly known as Indian Coleus - 0 views
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Star Hi Herbs Pvt Ltd. With 10 years dynamic experience have developed Coleus Forskolii Manufacturers inconsistent quality products as per gmp and cgmp Guidelines. Our company is a product-development and marketing company. We are manufacturers of standardized herbal extracts of natural products, neutraceuticals, phytochemicals, oleoresins cosmetics etc.
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We Purchase Your Infusion Pumps | Willow Medical | dazzleyellowpages - 0 views
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Mitochondrial Fission Induces Glycolytic Reprogramming in Cancer-Associated Myofibrobla... - 0 views
www.ncbi.nlm.nih.gov/...PMC3478457
warburg effect Cancer cancer associated fibroblasts CAFs reverse warburg effect lactate aerobic glycolysis mitochondria oxidative stress ROS H2O2
shared by Nathan Goodyear on 11 Nov 14
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L-lactate functions as an onco-metabolite, stimulating mitochondrial biogenesis and OXPHOS in adjacent cancer cells, directly providing energy for tumor growth
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Oxidative stress in stromal fibroblasts then induces their metabolic conversion into cancer-associated fibroblasts. Such oxidative stress drives the onset of autophagy, mitophagy, and aerobic glycolysis in fibroblasts, resulting in the local production of high-energy mitochondrial fuels (such as L-lactate, ketone bodies, and glutamine). These recycled nutrients are then transferred to cancer cells, where they are efficiently burned via oxidative mitochondrial metabolism (OXPHOS)
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stromal L-lactate serves as a high-energy mitochondrial “fuel” for cancer cells. We have termed this new model of cancer metabolism “Two-Compartment Tumor Metabolism”, where two opposing metabolic compartments co-exist, side-by-side, with stromal glycolysis fueling OXPHOS in cancer cells
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Reverse Warburg Effect”, is that catabolic fibroblasts should promote tumor growth, without any increases in angiogenesis
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when cancer cells use L-lactate as a mitochondrial fuel source, this metabolic phenotype is a predictor of lethal cancer metabolism
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mitochondrial dysregulation is likely the “root cause” of several human disease(s), and especially epithelial cancers
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Both in vitro and in vivo studies have now provided convincing evidence that “activated” stromal fibroblasts, a.k.a., myofibroblasts, may play a critical role in initiating tumor recurrence, via paracrine interactions with adjacent tumor epithelial cells
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A new hypothesis is that cancer is not a cell autonomous disease, but rather a disease of the tumor microenvironment
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cancer cells behave as metabolic parasites, by inducing oxidative stress in adjacent normal fibroblasts
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recent experimental evidence indicates that cancer-associated fibroblasts have a catabolic phenotype, and undergo autophagy and mitophagy, resulting in the onset of glycolytic metabolism, driving L-lactate production, and its release into the tumor microenvironment
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oncogenic mutations in cancer cells lead to ROS production and the “secretion” of hydrogen peroxide species
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A good discussion of what is proposed the Reverse Warburg effect. A process by which the local environment dictates tumor progression. The cancer cells release ROS primarily in the form of H2O2 and this leads to Cancer Associated Fibroblasts (CAFs) in the stroma. The altered stromal environment increases ROS further and promotes ocogenic metabolites through the classic Warburg effect. This high lactate production from the CAFs then is used by the cancer cells via classic oxidative phosphorylation. Complex, beautiful and still an the understanding is a work in progress. This study/article points to the importance of oxidative stress in some cancer development through CAFs.
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Types of Heavy Duty Wheelchair and Its Features - 0 views
www.articlesbase.com/...-and-its-features-7243370.html
Karma 8020 X Heavy Duty Wheelchair Karma 8520 Heavy Duty Wheelchair Heavy Duty Wheelchair Features types of Heavy Duty Wheelchair Heavy Duty Wheelchair for handicapped Bariatric Wheelchair
shared by wheelchairindia9 on 14 Apr 15
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Heavy Duty Wheelchair specialy design for disabled and handicapped persons. They two types of Heavy Duty Wheelchair for handicapped and disability product like- Karma 8020 X Heavy Duty Wheelchair Karma 8520 Heavy Duty Wheelchair Karma 8020 X Heavy Duty Wheelchair Karma 8020 or Karma KM-8020 Heavy Duty Wheelchair specialy design for disabled and handicapped persons. Some features are mentioned below- Features It comes with detachable swing away footrests. The wheel chair has flip-back armrests. It comes with centre of gravity adjustment. The wheel chair has wide profile casters. Seat Size 20'' inch & 22'' inch Total Weight 17 K.G. Karma 8020 X Heavy Duty Wheelchair Item Code and Price Item Code: WCI-52 MRP: Rs 45162 Our Price: Rs 32900 Net Price: Rs 32242( Apply Coupon Code 'MSW2365' Get 2% Discount ) Karma 8520 Heavy Duty Wheelchair Karma 8520 or Karma KM-8520 Heavy Duty Wheelchair specialy design for disabled and handicapped persons. Some features are mentioned below- Features It comes with detachable swing away footrests. The wheel chair has flip-back armrests. It comes with centre of gravity adjustment. The wheel chair has wide profile casters. Seat Size 20'' inch & 22'' inch Total Weight 17 K.G. Karma 8520 Heavy Duty Wheelchair Item Code and Price Item Code: WCI-29 MRP: Rs 32085 Our Price: Rs 24063 Net Price: Rs 23582( Apply Coupon Code 'MSW2365' Get 2% Discount ) Heavy Duty Wheelchair Online Purchases: This Website is only a venue where Users may meet and interact with us for their sale and purchase transactions. The commercial / contractual terms include without limitation price, shipping costs, date, period, mode of delivery, warranties related to products and services including after sales services related to product(s) and services, etc., over which we have complete control and same may be the subject to change. The agreement between you and wheelchairindia.com is subject to the following terms and cond
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Types of Heavy Duty Wheelchair and Its Features - 0 views
www.apsense.com/...eelchair-and-its-features.html
Karma 8020 X Heavy Duty Wheelchair Karma 8520 Heavy Duty Wheelchair Heavy Duty Wheelchair Features types of Heavy Duty Wheelchair Heavy Duty Wheelchair for handicapped Bariatric Wheelchair
shared by wheelchairindia9 on 15 Apr 15
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Heavy Duty Wheelchair specialy design for disabled and handicapped persons. They two types of Heavy Duty Wheelchair for handicapped and disability product like- Karma 8020 X Heavy Duty Wheelchair Karma 8520 Heavy Duty Wheelchair Karma 8020 X Heavy Duty Wheelchair Karma 8020 or Karma KM-8020 Heavy Duty Wheelchair specialy design for disabled and handicapped persons. Some features are mentioned below- Features It comes with detachable swing away footrests. The wheel chair has flip-back armrests. It comes with centre of gravity adjustment. The wheel chair has wide profile casters. Seat Size 20'' inch & 22'' inch Total Weight 17 K.G. Karma 8020 X Heavy Duty Wheelchair Item Code and Price Item Code: WCI-52 MRP: Rs 45162 Our Price: Rs 32900 Net Price: Rs 32242( Apply Coupon Code 'MSW2365' Get 2% Discount ) Karma 8520 Heavy Duty Wheelchair Karma 8520 or Karma KM-8520 Heavy Duty Wheelchair specialy design for disabled and handicapped persons. Some features are mentioned below- Features It comes with detachable swing away footrests. The wheel chair has flip-back armrests. It comes with centre of gravity adjustment. The wheel chair has wide profile casters. Seat Size 20'' inch & 22'' inch Total Weight 17 K.G. Karma 8520 Heavy Duty Wheelchair Item Code and Price Item Code: WCI-29 MRP: Rs 32085 Our Price: Rs 24063 Net Price: Rs 23582( Apply Coupon Code 'MSW2365' Get 2% Discount ) Heavy Duty Wheelchair Online Purchases: This Website is only a venue where Users may meet and interact with us for their sale and purchase transactions. The commercial / contractual terms include without limitation price, shipping costs, date, period, mode of delivery, warranties related to products and services including after sales services related to product(s) and services, etc., over which we have complete control and same may be the subject to change. The agreement between you and wheelchairindia.com is subject to the following terms and cond
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Anemia in cancer - 0 views
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mild (10 g/dl—normal), moderate (8–10 g/dl), severe (6.5–8 g/dl) and life threatening (<6.5 g/dl or unstable patient) anemia
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Cancer itself can directly cause or exacerbate anemia either by suppressing hematopoiesis through bone marrow infiltration or production of cytokines that lead to iron sequestration, or by reduced red blood cell production
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in inflammatory anemia, iron deficiency should be defined by a low transferrin saturation of <20%, ferritin levels of <100 ng/ml and a low reticulocyte hemoglobin concentration of <32 pg
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Other cytokines, such as interleukin-6 (IL-6), IL-1 and interferon-γ, have also been shown to inhibit erythroid precursors in vitro [9], albeit to a lesser extent
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In inflammation, from whatever cause, IL-6 induces the liver to produce hepcidin. Hepcidin decreases iron absorption from the bowel and blocks iron utilization in the bone marrow
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nephrotoxic effects of particular cytotoxic agents such as platinum salts can also lead to the persistence of anemia through reduced Epo production by the kidney
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Currently two options are at the disposal of the clinician for the treatment of anemia in cancer patients: transfusion of packed red blood cells and the use of erythropoiesis-stimulating agents (ESAs)
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Transfusion of 1 unit of packed red blood cells has been estimated to result in an increase in the hemoglobin level of 1 g/dl in a normal-sized adult
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Recent concerns regarding the risk of thromboembolism in patients treated with ESA have been corroborated by the meta-analyses conducted by Tonnelli and Bennett
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Great review of anemia in Cancer: 1) blood loss 2) increased RBC loss 3) decreased RBC production Cancer infiltration of marrow can reduce hematopoiesis. Inflammatory cytokines can reduce hematopoiesis. Inflammatory cytokines can block Fe absorption. Chemo and radiation can cause anemia--particularily platinum based therapies.
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How is the Immune System Suppressed by Cancer - 1 views
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Excellent work by Prof de Groot of Essen, indicated by adding exogenous xanthine oxidase ( XO) in hepatoma cells, hydrogen peroxide was produced to destroy the hepatoma cells
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The other important influence of NO is in its inhibition of the proapoptoic caspases cascade. This in turn protects the cells from intracellular preprogrammed death.
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nitric oxide in immune suppression in relation to oxygen radicals is its inhibitory effect on the binding of leukocytes (PMN) at the endothelial surface
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NO from the tumor cells actually suppresses the iNOS, and in addition it reduces oxygen radicals to stop the formation of peroxynitrite in these cells. But NO is not the only inhibitor of iNOS in cancer.
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Prostaglandin E2, released from tumor cells is also an inhibitor of iNOS, as well as suppressing the immune system
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Th-1 subset of T-cells. These cells are responsible for anti-viral and anti-cancer activities, via their cytokine production including Interleukin-2, (IL-2), and Interleukin-12 which stimulates T-killer cell replication and further activation and release of tumor fighting cytokines.
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Th1 cells stimulate NK and other tumor fighting macrophages via IL-2 and IL-12; In contrast, Th2, which is stimulated in allergies and parasitic infections, produce IL-4 and IL-10. IL-4 and IL-10 inhibit TH-1 activation and the histamine released from mast cell degranulation upregulates T suppressor cells to further immune suppression.
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Th-2 subset of lymphocytes, on the other hand are activated in allergies and parasitic infections to release Interleukin-4 and Interleukin-10
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Mast cells contain histamine which when released increases the T suppressor cells, to lower the immune system and also acts directly on many tumor Histamine receptors to stimulate tumor growth
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Tumor cells release IL-10, and this is thought to be one of the important areas of Th-1 suppression in cancer patients
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IL-10 is also a central regulator of cyclooxygenase-2 expression and prostaglandin production in tumor cells stimulating their angiogenesis and NO production
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nitric oxide in tumor cells even prevents the activation of caspases responsible for apoptosis
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early stages of carcinogenesis, which we call tumor promotion, one needs a strong immune system, and fewer oxygen radicals to prevent mutations but still enough to destroy the tumor cells should they develop
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later stages of cancer development, the oxygen radicals are decreased around the tumors and in the tumor cells themselves, and the entire cancer fighting Th-1 cell replication and movement are suppressed. The results are a decrease in direct toxicity and apoptosis, which is prevented by NO, a suppression of the macrophage and leukocyte toxicity and finally, a suppression of the T-cell induced tumor toxicity
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elevated lactic acid which neutralizes the toxicity and activity of Lymphocyte immune response and mobility
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The lactic acid is also feeding fungi around tumors and that leads to elevated histamine which increases T-suppressor cells. Histamine alone stimulates many tumor cells.
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last but not least, the Lactic acid from tumor cells and acidic diets shifts the lymphocyte activity to reduce its efficacy against cancer cells and pathogens in addition to altering the bacteria of the intestinal tract.
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intestinal tract bacteria in cancer cells release sterols that suppress the immune system and down regulate anticancer activity from lymphocytes.
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In addition to the lactic acid, adenosine is also released from tumors. Through IL-10, adenosine and other molecules secreted by regulatory T cells, the CD8+ cells can be inactivated to an anergic state
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Adenosine is a purine nucleoside found within the interstitial fluid of solid tumors at concentrations that are able to inhibit cell-mediated immune responses to tumor cells
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Adenosine appears to up-regulate the PD1 receptor in T-1 Lymphocytes and inhibits the immune system further
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Mast cells with their release of histamine lower the immune system and also stimulate tumor growth and activate the metalloproteinases involved in angiogenesis and metastases
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Cimetidine, an antihistamine has been actually shown to increase in apoptosis in MDSC via a separate mechanism than the antihistamine effect
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In vitro analyses revealed a striking induction of IL-8 expression in CAFs and LFs by tumor necrosis factor-alpha (TNF-alpha)
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these data raise the possibility that the majority of CAFs in CLM originate from resident LFs. TNF-alpha-induced up-regulation of IL-8 via nuclear factor-kappaB in CAFs is an inflammatory pathway, potentially permissive for cancer invasion that may represent a novel therapeutic target
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Metabolic management of brain cancer - 0 views
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Glutamine is a major metabolic fuel for both brain tumor cells and tumor-associated macrophages (TAMs)
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the malignant phenotype of brain tumor cells that survive radiotherapy is often greater than that of the cells from the original tumor.
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Conventional chemotherapy has faired little better than radiation therapy for the long-term management of malignant brain cancer
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most conventional radiation and brain cancer chemotherapies can enhance glioma energy metabolism and invasive properties, which would contribute to tumor recurrence and reduced patient survival [34].
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We contend that all cancer regardless of tissue or cellular origin is a disease of abnormal energy metabolism
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complex disease phenotypes can be managed through self-organizing networks that display system wide dynamics involving oxidative and non-oxidative (substrate level) phosphorylation
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As long as brain tumors are provided a physiological environment conducive for their energy needs they will survive; when this environment is restricted or abruptly changed they will either grow slower, growth arrest, or perish [8] and [19]
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New information also suggests that ketones are toxic to some human tumor cells and that ketones and ketogenic diets might restrict availability of glutamine to tumor cells [68], [69] and [70].
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The success in dealing with environmental stress and disease is therefore dependent on the integrated action of all cells in the organism
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Tumor cells survive in hypoxic environments not because they have inherited genes making them more fit or adaptable than normal cells, but because they have damaged mitochondria and have thus acquired the ability to derive energy largely through substrate level phosphorylation
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Cancer cells survive and multiply only in physiological environments that provide fuels (mostly glucose and glutamine) subserving their requirement for substrate level phosphorylation
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Integrity of the inner mitochondrial membrane is necessary for ketone body metabolism since β-hydroxybutyrate dehydrogenase, which catalyzes the first step in the metabolism of β-OHB to acetoacetate, interacts with cardiolipin and other phospholipids in the inner membrane
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Any genetic or environmental alteration in the content or composition of cardiolipin will compromise energy production through oxidative phosphorylation
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the Crabtree effect can be reversible, the Warburg effect is largely irreversible because its origin is with permanently damaged mitochondria
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The continued production of lactic acid in the presence of oxygen is the metabolic hallmark of most cancers and is referred to as aerobic glycolysis or the Warburg effect
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We recently described how the retrograde signaling system could induce changes in oncogenes and tumor suppressor genes to facilitate tumor cell survival following mitochondrial damage [48].
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In addition to glycolysis, glutamine can also increase ATP production under hypoxic conditions through substrate level phosphorylation in the TCA cycle after its metabolism to α-ketoglutarate
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mitochondrial lipid abnormalities, which alter electron transport activities, can account in large part for the Warburg effect
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targeting both glucose and glutamine metabolism could be effective for managing most cancers including brain cancer
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The bulk of experimental evidence indicates that mitochondria are dysfunctional in tumors and incapable of generating sufficient ATP through oxidative phosphorylation
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Cardiolipin defects in tumor cells are also associated with reduced activities of several enzymes of the mitochondrial electron transport chain making it unlikely that tumor cells with cardiolipin abnormalities can generate adequate energy through oxidative phosphorylation
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TCA cycle substrate level phosphorylation could therefore become another source of ATP production in tumor cells with impairments in oxidative phosphorylation
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Caloric restriction, which lowers glucose and elevates ketone bodies [63] and [64], improves mitochondrial respiratory function and glutathione redox state in normal cells
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DR naturally inhibits glycolysis and tumor growth by lowering circulating glucose levels, while at the same time, enhancing the health and vitality of normal cells and tissues through ketone body metabolism
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We suggest that apoptosis resistance arises largely from enhanced substrate level phosphorylation of tumor cells and to the genes associated with elevated glycolysis and glutaminolysis, e.g., c-Myc, Hif-1a, etc, which inhibit apoptosis
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Modern medicine has not looked favorably on diet therapies for managing complex diseases especially when well-established procedures for acceptable clinical practice are available, regardless of how ineffective these procedures might be in managing the disease
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More than 60 years of clinical research indicates that such approaches are largely ineffective in extending survival or improving quality of life
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The process is rooted in the well-established scientific principle that tumor cells are largely dependent on substrate level phosphorylation for their survival and growth
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targeting the glycolytically active tumor cells that produce pro-cachexia molecules, restricted diet therapies can potentially reduce tumor cachexia
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Blood glucose ranges between 3.0 and 3.5 mM (55–65 mg/dl) and β-OHB ranges between 4 and 7 mM should be effective for tumor management
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Leptin and Androgens in Male Obesity: Evidence for Leptin Contribution to Reduced Andro... - 1 views
jcem.endojournals.org/...3673.long
low T testosterone low leptin resistance obesity men male hormone hormones
shared by Nathan Goodyear on 28 Aug 12
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Investigations on oxidativ... [Eur Arch Psychiatry Clin Neurosci. 1999] - PubMed - NCBI - 0 views
www.ncbi.nlm.nih.gov/...10654103
AGE advanced glycation end products neurodegenerative disease free radicals Alzheimer's Parkinson's disease antioxidants inflammation
shared by Nathan Goodyear on 13 Jun 12
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This study finds that AGE, advanced glycation end products, play a significant role in free radical generation and neurodegenerative disease. Quote: "... pharmacologoical approaches which break the vicious cycle of oxidative stress and neurodegeneration offer new opportunities for the treatment of AD. These approaches include AGE- inhibitors, antioxidants, and anti-inflammatory substances which prevent radical production." They focus on the pharmacological, how about the natural first?
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GREAT Nutritional Products At Affordable Prices - 0 views
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Joy To Live Has 10 Great Products to choose fromAnd They Are All The Same GREAT Price ( 22 Dollars )To Make It Easy For You To Start Your Home Business Fulvia, - ( Our Teams Favorite Product ) LeJOYva Coffee Aerobia® Oxygen Supplement EliXir Blast® Complete Nutritional Supplement Neutra-Cleanse® Digestive Support Capsule Optimum-Weight Loss® - ( Another Team Favorite ) Ionic Silver® Affinity® - ( Another Team Favorite ) Lissome® Anti-Aging Skin Serum JTL Dental Whitening System
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http://www.hairlosshelp.com/pdf/insulin.pdf - 0 views
www.hairlosshelp.com/...insulin.pdf
insulin SHBG Testosterone male men hormone hormones obese obesity
shared by Nathan Goodyear on 03 Mar 15
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Men with Obesity are found to have lower SHBG and Testosterone levels. This study found that suppression of insulin resulted in an increase in SHBG production from the liver in both obese and normal weight men. Of note, the decrease in insulin resulted in a decrease in male Testosterone in both normal weight and obese men.
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Press-pulse: a novel therapeutic strategy for the metabolic management of cancer | Nutr... - 0 views
nutritionandmetabolism.biomedcentral.com/...s12986-017-0178-2
ketogenic diet ketogenic press-pulse hyperbaric oxygen therapy HBOTnutrition diet cancer HBOT IVC IV vitamin C DCA dichloracetic acid cancer therapy cancer treatment alternative cancer treatment
shared by Nathan Goodyear on 09 Jul 17
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mamdouh_hfz liked it
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A “press” disturbance was considered a chronic environmental stress on all organisms in an ecological community
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“pulse” disturbances were considered acute events that disrupted biological communities to produce high mortality
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Data from the American Cancer Society show that the rate of increase in cancer deaths/year (3.4%) was two-fold greater than the rate of increase in new cases/year (1.7%) from 2013 to 2017
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glucose is first split into two molecules of pyruvate through the Embden–Meyerhof–Parnas glycolytic pathway in the cytosol
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Aerobic fermentation, on the other hand, involves the production of lactic acid under normoxic conditions
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persistent lactic acid production in the presence of adequate oxygen is indicative of abnormal respiration
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The Crabtree effect is an artifact of the in vitro environment and involves the glucose-induced suppression of respiration with a corresponding elevation of lactic acid production even under hyperoxic (pO2 = 120–160 mmHg) conditions associated with cell culture
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the Warburg theory of insufficient aerobic respiration remains as the most credible explanation for the origin of tumor cells [2, 37, 51, 52, 53, 54, 55, 56, 57].
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The main points of Warburg’s theory are; 1) insufficient respiration is the predisposing initiator of tumorigenesis and ultimately cancer, 2) energy through glycolysis gradually compensates for insufficient energy through respiration, 3) cancer cells continue to produce lactic acid in the presence of oxygen, and 4) respiratory insufficiency eventually becomes irreversible
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Efraim Racker coined the term “Warburg effect”, which refers to the aerobic glycolysis that occurs in cancer cells
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Warburg clearly demonstrated that aerobic fermentation (aerobic glycolysis) is an effect, and not the cause, of insufficient respiration
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all tumor cells that have been examined to date contain abnormalities in the content or composition of cardiolipin
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The evidence supporting Warburg’s original theory comes from a broad range of cancers and is now overwhelming
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respiratory insufficiency, arising from any number mitochondrial defects, can contribute to the fermentation metabolism seen in tumor cells.
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data from the nuclear and mitochondrial transfer experiments suggest that oncogene changes are effects, rather than causes, of tumorigenesis
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Normal mitochondria can suppress tumorigenesis, whereas abnormal mitochondria can enhance tumorigenesis
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Glutamine is anapleurotic and can be rapidly metabolized to glutamate and then to α-ketoglutarate for entry into the TCA cycle
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Amino acid fermentation can generate energy through TCA cycle substrate level phosphorylation under hypoxic conditions
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Although Warburg’s hypothesis on the origin of cancer has created confusion and controversy [37, 38, 39, 40], his hypothesis has never been disproved
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Warburg referred to the phenomenon of enhanced glycolysis in cancer cells as “aerobic fermentation” to highlight the abnormal production of lactic acid in the presence of oxygen
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Emerging evidence indicates that macrophages, or their fusion hybridization with neoplastic stem cells, are the origin of metastatic cancer cells
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Radiation therapy can enhance fusion hybridization that could increase risk for invasive and metastatic tumor cells
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Kamphorst et al. in showing that pancreatic ductal adenocarcinoma cells could obtain glutamine under nutrient poor conditions through lysosomal digestion of extracellular proteins
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It will therefore become necessary to also target lysosomal digestion, under reduced glucose and glutamine conditions, to effectively manage those invasive and metastatic cancers that express cannibalism and phagocytosis.
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Previous studies in yeast and mammalian cells show that disruption of aerobic respiration can cause mutations (loss of heterozygosity, chromosome instability, and epigenetic modifications etc.) in the nuclear genome
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The somatic mutations and genomic instability seen in tumor cells thus arise from a protracted reliance on fermentation energy metabolism and a disruption of redox balance through excess oxidative stress.
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According to the mitochondrial metabolic theory of cancer, the large genomic heterogeneity seen in tumor cells arises as a consequence, rather than as a cause, of mitochondrial dysfunction
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A therapeutic strategy targeting the metabolic abnormality common to most tumor cells should therefore be more effective in managing cancer than would a strategy targeting genetic mutations that vary widely between tumors of the same histological grade and even within the same tumor
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Tumor cells are more fit than normal cells to survive in the hypoxic niche of the tumor microenvironment
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Hypoxic adaptation of tumor cells allows for them to avoid apoptosis due to their metabolic reprograming following a gradual loss of respiratory function
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The high rates of tumor cell glycolysis and glutaminolysis will also make them resistant to apoptosis, ROS, and chemotherapy drugs
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Despite having high levels of ROS, glutamate-derived from glutamine contributes to glutathione production that can protect tumor cells from ROS
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It is clear that adaptability to environmental stress is greater in normal cells than in tumor cells, as normal cells can transition from the metabolism of glucose to the metabolism of ketone bodies when glucose becomes limiting
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Mitochondrial respiratory chain defects will prevent tumor cells from using ketone bodies for energy
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glycolysis-dependent tumor cells are less adaptable to metabolic stress than are the normal cells. This vulnerability can be exploited for targeting tumor cell energy metabolism
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In contrast to dietary energy reduction, radiation and toxic drugs can damage the microenvironment and transform normal cells into tumor cells while also creating tumor cells that become highly resistant to drugs and radiation
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Drug-resistant tumor cells arise in large part from the damage to respiration in bystander pre-cancerous cells
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Because energy generated through substrate level phosphorylation is greater in tumor cells than in normal cells, tumor cells are more dependent than normal cells on the availability of fermentable fuels (glucose and glutamine)
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Although some tumor cells might appear to oxidize ketone bodies by the presence of ketolytic enzymes [181], it is not clear if ketone bodies and fats can provide sufficient energy for cell viability in the absence of glucose and glutamine
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A calorie restricted ketogenic diet or dietary energy reduction creates chronic metabolic stress in the body
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The KD can more effectively reduce glucose and elevate blood ketone bodies than can CR alone making the KD potentially more therapeutic against tumors than CR
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Campbell showed that tumor growth in rats is greater under high protein (>20%) than under low protein content (<10%) in the diet
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Calorie restriction, fasting, and restricted KDs are anti-angiogenic, anti-inflammatory, and pro-apoptotic and thus can target and eliminate tumor cells through multiple mechanisms
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Ketogenic diets can also spare muscle protein, enhance immunity, and delay cancer cachexia, which is a major problem in managing metastatic cancer
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The GKI can therefore serve as a biomarker to assess the therapeutic efficacy of various diets in a broad range of cancers.
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It is important to remember that insulin drives glycolysis through stimulation of the pyruvate dehydrogenase complex
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The water-soluble ketone bodies (D-β-hydroxybutyrate and acetoacetate) are produced largely in the liver from adipocyte-derived fatty acids and ketogenic dietary fat. Ketone bodies bypass glycolysis and directly enter the mitochondria for metabolism to acetyl-CoA
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Due to mitochondrial defects, tumor cells cannot exploit the therapeutic benefits of burning ketone bodies as normal cells would
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Therapeutic ketosis with racemic ketone esters can also make it feasible to safely sustain hypoglycemia for inducing metabolic stress on cancer cells
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ketone bodies can inhibit histone deacetylases (HDAC) [229]. HDAC inhibitors play a role in targeting the cancer epigenome
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Therapeutic ketosis reduces circulating inflammatory markers, and ketones directly inhibit the NLRP3 inflammasome, an important pro-inflammatory pathway linked to carcinogenesis and an important target for cancer treatment response
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Chronic psychological stress is known to promote tumorigenesis through elevations of blood glucose, glucocorticoids, catecholamines, and insulin-like growth factor (IGF-1)
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In addition to calorie-restricted ketogenic diets, psychological stress management involving exercise, yoga, music etc. also act as press disturbances that can help reduce fatigue, depression, and anxiety in cancer patients and in animal models
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This physiological state also enhances the efficacy of chemotherapy and radiation therapy, while reducing the side effects
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lower dosages of chemotherapeutic drugs can be used when administered together with calorie restriction or restricted ketogenic diets (KD-R)
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Besides 2-DG, a range of other glycolysis inhibitors might also produce similar therapeutic effects when combined with the KD-R including 3-bromopyruvate, oxaloacetate, and lonidamine
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It is important to recognize, however, that the radiotherapy used in glioma patients can damage the respiration of normal cells and increase availability of glutamine in the microenvironment, which can increase risk of tumor recurrence especially when used together with the steroid drug dexamethasone
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Poff and colleagues demonstrated that hyperbaric oxygen therapy (HBOT) enhanced the ability of the KD to reduce tumor growth and metastasis
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The effects of the KD and HBOT can be enhanced with administration of exogenous ketones, which further suppressed tumor growth and metastasis
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Besides HBOT, intravenous vitamin C and dichloroacetate (DCA) can also be used with the KD to selectively increase oxidative stress in tumor cells
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Recent evidence also shows that ketone supplementation may enhance or preserve overall physical and mental health
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Some tumors use glucose as a prime fuel for growth, whereas other tumors use glutamine as a prime fuel [102, 186, 262, 263, 264]. Glutamine-dependent tumors are generally less detectable than glucose-dependent under FDG-PET imaging, but could be detected under glutamine-based PET imaging
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Many of the current treatments used for cancer management are based on the view that cancer is a genetic disease
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Emerging evidence indicates that cancer is a mitochondrial metabolic disease that depends on availability of fermentable fuels for tumor cell growth and survival
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Glucose and glutamine are the most abundant fermentable fuels present in the circulation and in the tumor microenvironment
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Low-carbohydrate, high fat-ketogenic diets coupled with glycolysis inhibitors will reduce metabolic flux through the glycolytic and pentose phosphate pathways needed for synthesis of ATP, lipids, glutathione, and nucleotides
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Oncotarget | NADH autofluorescence, a new metabolic biomarker for cancer stem cells: Id... - 0 views
www.oncotarget.com/index.php
vitamin C IV vitamin C cancer cancer stem cells milk thistle silymarin ascorbic acid bee propolis CAPE glycolytic inhibitor natural
shared by Nathan Goodyear on 08 Dec 17
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Cancer stem-like cells (CSCs) are thought to be the root cause of chemotherapy-resistance and radio-resistance
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ultimately leading to treatment failure in patients with advanced disease [1-3]. They have been directly implicated mechanistically in tumor recurrence and metastasis, resulting in poor patient survival
- ...26 more annotations...
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Our results indicate that increased mitochondrial oxidative stress and high NADH levels are both key characteristics of the CSC metabolic phenotype
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high levels of NAD(P)H auto-fluorescence are known to be a surrogate marker for mitochondrial “power”, high OXPHOS capacity and increased ATP production
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an intact NAD+ salvage pathway is strictly required for mammosphere formation, supporting our results using NAD(P)H auto-fluorescence, which enriched CSC activity by more than 5-fold.
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Since glycolysis is especially critical for maintaining the TCA cycle, OXPHOS and overall mitochondrial function, we next assessed the effects of known glycolytic inhibitors
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we show that two other natural products that function as effective glycolysis inhibitors, also inhibited mammosphere formation. More specifically, vitamin C (ascorbic acid), which induces oxidative stress and inhibits the activity of GAPDH (a key glycolytic enzyme) [17], also inhibited mammosphere formation, with an IC-50 of 1 mM (Figure 7B). Therefore, vitamin C was ~10 times more potent than 2-DG at targeting CSC propagation
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silibinin (the major active constituent of silymarin, an extract of milk thistle seeds) [18], which specifically functions as an inhibitor of glucose uptake, blocked mammosphere formation, with an IC-50 between 200 and 400 µM
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caffeic acid phenyl ester (CAPE), a key component of honey-bee propolis, has potent anti-cancer properties
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Because of it aromatic ring structure (Figure 8), we speculated that CAPE might function as a potent inhibitor of oxidative mitochondrial metabolism
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CAPE quantitatively inhibits the mitochondrial oxygen consumption rate (OCR) and, in turn, induces the onset of aerobic glycolysis (ECAR)
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CAPE shows a clear selectivity for targeting CSCs and adherent cancer cells, relative to normal fibroblasts.
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CAPE functions as a “natural” mitochondrial OXPHOS inhibitor, that preferentially targets the CSC sub-population. This could explain CAPE’s known anti-cancer properties
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Our data directly shows that a small fraction of the total cell population, characterized by increased PGC1α activity, high mitochondrial ROS/H2O2 and high NADH levels, has the ability to survive and grow under anchorage-independent conditions, driving mammosphere formation
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We highlight the utility of certain natural products, such as Silibinin, Vitamin C and CAPE, that could be used to therapeutically target CSCs. Silibinin is the major active component of silymarin, which is an extract prepared from milk thistle seeds.
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Previous studies have also shown that when non-CSCs and CSCs are both fed mitochondrial fuels (such as L-lactate or ketone bodies), that CSCs quantitatively produce more NADH in response to this stimulus
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The Noble Prize winner, Linus Pauling, was among the first to describe and clinically test the efficacy of Vitamin C, as a relatively non-toxic anti-cancer agent
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Vitamin C has two mechanisms of action. First, it is a potent pro-oxidant, that actively depletes the reduced glutathione pool, leading to cellular oxidative stress and apoptosis in cancer cells. Moreover, it also behaves as an inhibitor of glycolysis, by targeting the activity of GAPDH, a key glycolytic enzyme.
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Here, we show that Vitamin C can also be used to target the CSC population, as it is an inhibitor of energy metabolism that feeds into the mitochondrial TCA cycle and OXPHOS
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Vitamin C may prove to be promising agent for new clinical trials, aimed at testing its ability to reduce CSC activity in cancer patients, as an add-on to more conventional therapies, to prevent tumor recurrence, further disease progression and metastasis
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Interestingly, a breast cancer based clinical study has already shown that the use of Vitamin C, concurrent with or within 6 months of chemotherapy, significantly reduces both tumor recurrence and patient mortality
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CAPE quantitatively reduces mitochondrial oxygen consumption (OCR), while inducing a reactive increase in glycolysis (ECAR). As such, it potently inhibits mammosphere formation with an IC-50 of ~2.5 µM. Similarly, it also significantly inhibits cell migration
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we also demonstrate that 7 different inhibitors of key energetic pathways can be used to effectively block CSC propagation, including three natural products (silibinin, ascorbic acid and CAPE). Future studies will be necessary to test their potential for clinical benefit in cancer patients.
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The future of cancer therapy is cancer stem cells. Study finds that Vitamin C, silymarin, and bee propolis blocks mitochondrial energy pathways in cancer stem cells. Vitamin C is a known glycolytic inhbitor. Vitamin C was found to inhibit glycolysis via GAPDH targeting to inhibit the energy pathways of the mitochondria in CSCs. The authors propse that Vitamin C can be used as add on therapies for conventional therapies to specifically attack the CSCs and their contribution to recrurence, treatment resistance, and metastasis potential all in addition to the ability of vitamin C to reduce the side effects of chemotherapy.
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Ibuprofen alters human testicular physiology to produce a state of compensated hypogona... - 0 views
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We found an 18% decrease (P = 0.056) in the ibuprofen group compared with the placebo group after 14 d (Fig. 1A) and a 23% decrease (P = 0.02) after 44 d (Fig. 1C). Taken together, these in vivo data suggest that ibuprofen induced a state of compensated hypogonadism during the trial, which occurred as early as 14 d and was maintained until the end of the trial at 44 d
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We first investigated testosterone production after 24 and 48 h of ibuprofen exposure to assess its effects on Leydig cell steroidogenesis. Inhibition of testosterone levels was significant and dose-dependent (β = −0.405, P = 0.01 at 24 h and β = −0.664, P < 0.0001 at 48 h) (Fig. 2A) and was augmented over time
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The AMH data show that the hypogonadism affected not only Leydig cells but also Sertoli cells and also occurred as early as 14 d of administration
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Sertoli cell activity showed that AMH levels decreased significantly with ibuprofen administration, by 9% (P = 0.02) after 14 d (Fig. 1B) and by 7% (P = 0.05) after 44 d compared with the placebo group
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Examination of the effect of ibuprofen exposure on both the ∆4 and ∆5 steroid pathways (Fig. 2B) showed that it generally inhibited all steroids from pregnenolone down to testosterone and 17β-estradiol; the production of each steroid measured decreased at doses of 10−5–10−4 M. Under control conditions, production of androstenediol and dehydroepiandrosterone (DHEA) was below the limit of detection except in one experiment with DHEA
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Measuring the mRNA expression of genes involved in steroidogenesis in vitro showed that ibuprofen had a profound inhibitory effect on the expression of these genes (Fig. 3 B–D), consistent with that seen above in our ex vivo organ model. Taken together, these data examining effects on the endocrine cells confirm that ibuprofen-induced changes in the transcriptional machinery were the likely reason for the inhibition of steroidogenesis.
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Suppression of gene expression concerned the initial conversion of cholesterol to the final testosterone synthesis. Hence, expression of genes involved in cholesterol transport to the Leydig cell mitochondria was impaired
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A previous study reported androsterone levels decreased by 63% among men receiving 400 mg of ibuprofen every 6 h for 4 wk
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We next examined the gene expression involved in testicular steroidogenesis ex vivo and found that levels of expression of every gene that we studied except CYP19A1 decreased after exposure for 48 h compared with controls
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the changes in gene expression indicate that the transcriptional machinery behind the endocrine action of Leydig cells was most likely impaired by ibuprofen exposure.
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Together, these data show that ibuprofen also directly impairs Sertoli cell function ex vivo by inhibiting transcription
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ibuprofen use in men led to (i) elevation of LH; (ii) a decreased testosterone/LH ratio and, to a lesser degree, a decreased inhibin B/FSH ratio; and (iii) a reduction in the levels of the Sertoli cell hormone AMH
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The decrease in the free testosterone/LH ratio resulted primarily from the increased LH levels, revealing that testicular responsiveness to gonadotropins likely declined during the ibuprofen exposure. Our data from the ex vivo experiments support this notion, indicating that the observed elevation in LH resulted from ibuprofen’s direct antiandrogenic action
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AMH levels were consistently suppressed by ibuprofen both in vivo and ex vivo, indicating that this hormone is uncoupled from gonadotropins in adult men. The ibuprofen suppression of AMH further demonstrated that the analgesic targeted not only the Leydig cells but also the Sertoli cells, a feature encountered not only in the human adult testis but also in the fetal testis
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ibuprofen displayed broad transcription-repression abilities involving steroidogenesis, peptide hormones, and prostaglandin synthesis
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a chemical compound, through its effects on the signaling compounds, can result in changes in the testis at gene level, resulting in perturbations at higher physiological levels in the adult human
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The analgesics acetaminophen/paracetamol and ibuprofen have previously been shown to inhibit the postexercise response in muscles by repressing transcription
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Previous ex vivo studies on adult testis have indeed pointed to an antiandrogenicity, only on Leydig cells, of phthalates (41), aspirin, indomethacin (42), and bisphenol A (BPA) and its analogs
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ibuprofen’s effects were not restricted to Leydig and Sertoli cells, as data showed that the expression of genes in peritubular cells was also affected
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In the clinical setting, compromised Leydig cell function resulting in increased insensitivity to LH is defined as compensated hypogonadism (4), an entity associated with all-cause mortality
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compensated hypogonadic men present with an increased likelihood of reproductive, cognitive, and physical symptoms
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an inverse relationship was recently reported between endurance exercise training and male sexual libido
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AMH concentrations are lower in seminal plasma from patients with azoospermia than from men with normal sperm levels
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inhibin B is a key clinical marker of reproductive health (32). The function of AMH, also secreted by Sertoli cells, and its regulation through FSH remain unclear in men
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the striking dual effect of ibuprofen observed here on both Leydig and Sertoli cells makes this NSAID the chemical compound, of all the chemical classes considered, with the broadest endocrine-disturbing properties identified so far in men.
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NETosis and Neutrophil Extracellular Traps in COVID-19: Immunothrombosis and Beyond - PMC - 0 views
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Pneumonia is a typical symptom of COVID-19 infection, while acute respiratory distress syndrome (ARDS) and multiple organ failure are common in severe COVID-19 patients
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NETs are important for preventing pathogen invasion, their excessive formation can result in a slew of negative consequences, such as autoimmune inflammation and tissue damage
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SARS-CoV-2 infection has also been linked to increased neutrophil-to-lymphocyte ratios, which is associated with disease severity and clinical prognosis
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NETosis is a special form of programmed cell death in neutrophils, which is characterized by the extrusion of DNA, histones, and antimicrobial proteins in a web-like structure known as neutrophil extracellular traps (NETs)
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increased generation of reactive oxygen species (ROS) is a crucial intracellular process that causes NETosis
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In COVID-19, major NET protein cargos of NETs (i.e., NE, MPO, and histones) are significantly elevated.
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SARS-CoV-2 can also infect host cells through noncanonical receptors such as C-type lectin receptors
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Immunopathological manifestations, including cytokine storms and impaired adaptive immunity, are the primary drivers behind COVID-19, with neutrophil infiltration being suggested as a significant cause
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SARS-CoV-2 and its components (e.g., spike proteins and viral RNA) attach to platelets and increase their activation and aggregation in COVID-19, resulting in vascular injury and thrombosis, both of which are linked to NET formation
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NETosis, leading to aberrant immunity such as cytokine storms, autoimmune disorders, and immunosuppression.
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early bacterial coinfections were more prevalent in COVID-19 patients than those infected with other viruses
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NETosis and NETs may also have a role in the development of post COVID-19 syndromes, including lung fibrosis, neurological disorders, tumor growth, and worsening of concomitant disease
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NETs and other by-products of NETosis have been shown to act as direct inflammation amplifiers. Hyperinflammation
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SARS-CoV-2 drives NETosis and NET formation to allow for the release of free DNA and by-products (e.g., elastases and histones). This may trigger surrounding macrophages and endothelial cells to secrete excessive proinflammatory cytokines and chemokines, which, in turn, enhance NET formation and form a positive feedback of cytokine storms in COVID-19
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NET release enables self-antigen exposure and autoantibody production, thereby increasing the autoinflammatory response
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patients with COVID-19 who have higher anti-NET antibodies are more likely to be detected with positive autoantibodies [e.g., antinuclear antibodies (ANA) and anti-neutrophil cytoplasmic antibodies (ANCA)]
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have weakened adaptive immunity as well as a high level of inflammation
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tumor-associated NETosis and NETs promote an immunosuppressive environment in which anti-tumor immunity is compromised
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can enhance this process by interacting with neutrophils through toll-like receptor 4 (TLR4), platelet factor 4 (PF4), and extracellular vesicle-dependent processes
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Following initial onset of COVID-19, an estimated 50% or more of COVID-19 survivors may develop multi-organ problems (e.g., pulmonary dysfunction and neurologic impairment) or have worsening concomitant chronic illness
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NETs in the bronchoalveolar lavage fluid of severe COVID-19 patients cause EMT in lung epithelial cells
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decreased E-cadherin (an epithelial marker) expression
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Patients with tumors have been shown to be more vulnerable to SARS-CoV-2 infection and subsequent development of severe COVID-19
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patients who have recovered from COVID-19 may have an increased risk of developing cancer or of cancer progression and metastasis
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vitamin C has been tested in phase 2 clinical trials aimed at reducing COVID-19-associated mortality by reducing excessive activation of the inflammatory response
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vitamin C is an antioxidant that significantly attenuates PMA-induced NETosis in healthy neutrophils by scavenging ROS