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chanon chiarnpattanodom

Stem cell therapy could repair some heart damage - Yahoo! News - 2 views

news.yahoo.com/HQDc2VjdGlvbnMEdGVzdAM-;_ylv=3

shared by chanon chiarnpattanodom on 02 Apr 12 - No Cached
  • Patients with advanced heart disease who received an experimental stem cell therapy
  • Study authors described the trial as the largest to date to examine stem cell therapy as a route to repairing the heart in patients with chronic ischemic heart disease and left ventricular dysfunction.
  • injections of their own stem cells, taken from their bone marrow, into damaged areas of their hearts.
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  • The patients -- 82 of whom were men -- all had chronic heart disease, along with either heart failure or angina or both, and their left ventricles were pumping at less than 45 percent of capacity.
  • None of the participant
  • eligible for revascularization surgery
  • heart disease was so advanced
  • Those who received the stem cell therapy saw a small but significant boost in the heart's ability to pump blood, measuring the increase from the heart's main pumping chamber at 2.7 percent more than placebo patients.
  • However, other factors showed no improvement
  • heart's maximum oxygen consumption did not change
  • defects in the heart were not healed by the treatment
  • This is the kind of information we need in order to move forward with the clinical use of stem cell therapy," said lead investigator Emerson Perin
  • "With this mapping procedure, we have a roadmap to the heart muscle," said Perin
  • Heart disease is the leading killer in the United States, claiming nearly 600,000 lives per year, according to the US Centers for Disease Control and Prevention.
  • chanon chiarnpattanodom on 02 Apr 12
     
    A recent experiment was done on elderly patients who had heart diseases, those that had progressed too far for coronary surgery. Patients were injected with their own stem cells in the bone marrow into areas in the heart. The pumping capacity did improve a little, but overall the oxygen use and the defects did not change. This is a stepping stone towards using stem cells to treat people in difficult situations where a normal surgery would not.
orasa sukmark

Shot of Young Stem Cells Makes Rapidly Aging Mice Live Much Longer and Healthier - Gate... - 1 views

www.gate2biotech.com/-2130

shot stem cells aging much mice longer gate biotech com DNA genetics disease gene RNA brain human epigenetics research Genes

shared by orasa sukmark on 16 Apr 12 - No Cached
  • animals that got the stem/progenitor cells improved their health and lived two to three times longer than expected,
  • "Our experiments showed that mice that have progeria, a disorder of premature aging, were healthier and lived longer after an injection of stem cells from young, healthy animals," Dr. Niedernhofer said. "That tells us that stem cell dysfunction is a cause of the changes we see with aging."
  • "Typically the progeria mice die at around 21 to 28 days of age, but the treated animals lived far longer -- some even lived beyond 66 days. They also were in better general health."
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  • we injected stem/progenitor cells from young, healthy mice into the abdomens of 17-day-old progeria mice,
  • As the progeria mice age, they lose muscle mass in their hind limbs, hunch over, tremble, and move slowly and awkwardly. Affected mice that got a shot of stem cells just before showing the first signs of aging were more like normal mice, and they grew almost as large.
  • orasa sukmark on 16 Apr 12
     
    the experiment from the University of Pittsburgh shows that the mice can be stronger live longer after they were injected with stem cells from young healthy animals.
nidthamsirisup

Engineered stem cells seek out and kill HIV in living mice - 0 views

www.sciencedaily.com/...120412182253.htm

disease HIV

shared by nidthamsirisup on 15 Apr 12 - No Cached
  • human stem cells can be genetically engineered into HIV-fighting cells
  • surrogate model
  • CD8 cytotoxic T lymphocytes -- the "killer" T cells that help fight infection -- from an HIV-infected individual and identified the molecule known as the T cell receptor, which guides the T cell in recognizing and killing HIV-infected cells.
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  • cloned the receptor and used this to genetically engineer human blood stem cells.
  • mature T cells that can attack HIV in tissues where the virus resides and replicates.
  • CD4 cells are white blood cells that are an important component of the immune system, helping to fight off infections.
  • CD4 "helper" T cells
  • HIV in the blood decreased.
  • increased
  • engineering stem cells to form immune cells that target HIV is effective in suppressing the virus in living tissues in an animal model
    • wasin kusakabe
      wasin kusakabe on 15 Apr 12
       
      Using mice as lab rats, researchers are able to produce a large amount of T cells that can fight off HIV more effectively.
  • Expanding on previous research providing proof-of-principle that human stem cells can be genetically engineered into HIV-fighting cells
  • The engineered stem cells developed into a large population of mature, multi-functional HIV-specific CD8 cells that could specifically target cells containing HIV proteins. The researchers also discovered that HIV-specific T cell receptors have to be matched to an individual in much the same way an organ is matched to a transplant patient.
  • In this current study, the researchers similarly engineered human blood stem cells and found that they can form mature T cells that can attack HIV in tissues where the virus resides and replicates. They did so by using a surrogate model, the humanized mouse, in which HIV infection closely resembles the disease and its progression in humans.
  • increased, while levels of HIV in the blood decreased. CD4 cells are white blood cells that are an important component of the immune system, helping to fight off infections. These results indicated that the engineered cells were capable of developing and migrating to the organs to fight infection there.
  • wasin kusakabe on 15 Apr 12
     
    Stem cells that are engineered to produce T cells that can help fight off HIV.
nidthamsirisup

Stem Cell Treatment Spurs Cartilage Growth - Science News - 0 views

www.sciencenews.org/...eatment_spurs_cartilage_growth

proteins DNA disease gene

shared by nidthamsirisup on 15 Apr 12 - No Cached
  • A small molecule dubbed kartogenin encourages stem cells to take on the characteristics of cells that make cartilage, a new study shows
  • And treatment with kartogenin allowed many mice with arthritis-like cartilage damage in a knee to regain the ability to use the joint without pain.
  • Kartogenin steers the stem cells to wake up and take on cartilage-making duties. This is an essential step in the cartilage repair that falls behind in people with osteoarthritis, the most common kind of arthritis, which develops from injury or long-term joint use.
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  • The molecule turned on genes that make cartilage components called aggrecan and type II collagen. Tests of mice with cartilage damage similar to osteoarthritis showed that kartogenin injections lowered levels of a protein called cartilage oligomeric matrix protein. People with osteoarthritis have an excess of the protein, which is considered a marker of disease severity.
  • kartogenin inhibits a protein called filamin A in the mesenchymal stem cells
Kaoko Miyazaki

lincRNA: A recently discovered RNA organizes stem cell differentiation - 0 views

scitechstory.com/...izes-stem-cell-differentiation

RNA lincRNA

shared by Kaoko Miyazaki on 11 Apr 12 - No Cached
  • Kaoko Miyazaki on 11 Apr 12
     
    Organizing how proteins assemble in embryonic cells and taking control over/deciding whether a stem cells stays pluripotent or not are only two of the main functions of the recently discovered lincRNAs. These new discoveries of lincRNAs and ongoing experiments only help researches such as Mitchell Guttman from the Broad Institute widen up the study of genetics and the human genome to a new field.
Nitchakan Chaiprukmalakan

Missing Lincs - Science News - 6 views

www.sciencenews.org/...Missing_Lincs

shared by Nitchakan Chaiprukmalakan on 25 Mar 12 - No Cached
    • Nitchakan Chaiprukmalakan
      Nitchakan Chaiprukmalakan on 01 Apr 12
       
      Scientists are finding more information about the importance of the non coding RNAs, lincRNAs.
  • Only now have scientists begun identifying the previously invisible contractors who make sure that materials get where they are supposed to be and in the right order to build a human being or any other creature. Some of these little-known workers belong to a class of molecules called long intergenic noncoding RNAs.
  • And the lincRNAs originate in what scientists used to view as barren wastelands between protein-coding genes. But new research is showing that these formerly underappreciated workers have important roles in projects both large and microscopic.
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  • In the last few years, scientists have learned that lincRNAs, as well as other RNAs that are long and noncoding but not intergenic, perform a variety of jobs. Some serve as guides showing proteins where to go, while others tether proteins to different types of RNA, or to DNA. Some work as decoys, distracting regulatory molecules from their usual assignments. Some may even have multiple roles, all the while chattering away to other RNA within cells. (It is not idle gossip; RNA communication within cells may ward off diseases such as cancer.) And as the ultimate multitaskers, lincRNAs keep proper cellular development ticking along and help define what makes mice mice and people people.
  • That archive contains about 3 billion genetic letters, far more than the genomes of less complex organisms such as roundworms and fruit flies.
  • In 2005, the research revealed that even though genes that code for proteins make up only 1.5 percent of the mouse genome, more than 63 percent of the genome’s DNA is copied into RNA. In humans the number is even higher, with up to 93 percent of the genome made into RNA, even though protein-coding genes make up less than 2 percent of the genome.
  • At first, many scientists didn’t know what to make of the excess RNA. Some thought it was overexuberance on the part of the DNA-copying machinery. But gradually researchers began to realize that many of those extra RNAs had important jobs to do.
  • Some, though, appear to act like general contractors — not hammering in the nails and pouring the foundations of cells themselves, but dictating how the job should be done.
  • One of the most famous long noncoding RNAs, known as XIST, is also one of the most hands-on. XIST is in charge of shutting down one of the X chromosomes in every single cell of women and girls
  • XIST doesn’t have a long commute to work; it coats whichever X chromosome makes it, preventing other genes on the chromosome from being activated
  • One of the most well-studied linc­RNAs, named HOTAIR, wasn’t lucky enough to get a job close to home. It is copied from DNA on chromosome 12 but has to travel to chromosome 2 to shut down several genes in a group known as the HOXD cluster, genes important for proper development of an organism
  • Not only does HOTAIR help direct development, but it is also important throughout life to help cells pinpoint their location in the body.
  • Whether promoting health or mis­directing cells, lincRNAs don’t necessarily act alone.
  • A lincRNA known as HOTTIP also works with a crew of histone modifiers, but instead of shuttering genes, HOTTIP’s crews hang grand-opening signs to attract gene-activating machinery
  • In the recipe for humans, lincRNAs are in the thick of things from the very beginning. At least 26 different lincRNAs need to be on to keep an embryonic stem cell a stem cell
  • Just how lincRNAs choose which genes to turn on and off isn’t yet known. But Pier Paolo Pandolfi, a geneticist at Beth Israel Deaconess and Harvard Medical School, suspects that the lincRNAs are whispering to each other and to other RNAs, keeping tabs on all a cell’s goings-on. Pandolfi laid out his hypothesis for how this chatter might help control protein production and other processes in the Aug. 5 Cell.
  • The Columbia team and Pandolfi’s team independently found that tweaking levels of a few messenger RNAs that distract microRNAs from PTEN messenger RNA can lead to prostate cancer or a type of brain tumor called glioblastoma. Just messing with levels of a messenger RNA from another gene known as ZEB2 throws off PTEN protein levels and can lead to melanoma in mice, Pandolfi’s group reported in another paper in the Oct. 14 Cell.
  • Losing one noncoding RNA may be disastrous for a cell, but for want of noncoding RNAs whole species may never have evolved, argues Queensland’s Mattick. He and others say the real function of lincRNAs is to give evolution a sort of molecular clay from which to mold new designs.
  • Humans have several lincRNAs that are found in no other species. Many of those RNAs are made in the brain, leading scientists to speculate that the molecules may be at least partially responsible for that important organ’s evolution.
  • Paige Prescott on 25 Mar 12
     
    Is RNA the most important molecule in the cell? There is a lot of evidence leading to new understandings of RNA and it's role in many different mechanisms within a cell.
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