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The purpose of this Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is to encourage applications that will develop and validate novel tools to facilitate the detailed analysis of complex circuits and provide insights into cellular interactions that underlie brain function. The new tools and technologies should inform and/or exploit cell-type and/or circuit-level specificity. Plans for validating the utility of the tool/technology will be an essential feature of a successful application. The development of new genetic and non-genetic tools for delivering genes, proteins and chemicals to cells of interest or approaches that are expected to target specific cell types and/or circuits in the nervous system with greater precision and sensitivity than currently established methods are encouraged. Tools that can be used in a number of species/model organisms rather than those restricted to a single species are highly desired. Applications that provide approaches that break through existing technical barriers to substantially improve current capabilities are highly encouraged.

The purpose of this Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative is to encourage applications that will develop and validate novel tools to facilitate the detailed analysis of complex circuits and provide insights into cellular interactions that underlie brain function. The new tools and technologies should inform and/or exploit cell-type and/or circuit-level specificity. Plans for validating the utility of the tool/technology will be an essential feature of a successful application. The development of new genetic and non-genetic tools for delivering genes, proteins and chemicals to cells of interest or approaches that are expected to target specific cell types and/or circuits in the nervous system with greater precision and sensitivity than currently established methods are encouraged. Tools that can be used in a number of species/model organisms rather than those restricted to a single species are highly desired. Applications that provide approaches that break through existing technical barriers to substantially improve current capabilities are highly encouraged.   

The Alzheimer's Drug Discovery Foundation has issued a Request for Proposals for its Preclinical Drug Discovery program. Through the program, grants of up to $600,000 over two years will be awarded to promising preclinical drug discovery programs relevant to Alzheimer's disease, related dementias, and cognitive aging. Preclinical research funding priorities include high throughput screening, medicinal chemistry hit-to-lead development and optimization, in vitro and in vivo efficacy studies, ADME, toxicology, pharma-cokinetics and pharma-co-dynamics, and in vivo proof-of-concept with lead compounds and biologics. Program areas of particular interest include new chemical compounds for Alzheimer's disease, preclinical proof-of-concept, and re-purposing. With regards to potential drug targets, ADDF is interested in novel targets that include but are not limited to neuro-inflammation, protein degradation/autophagy, growth factor signaling, synaptic function/morphology, calcium regulation, energy utilization/mitochondria function, insulin sensitivity, epigenetics, ApoE function and cholesterol metabolism, vascular injury and the blood-brain barrier interface, cognitive enhancers, myelin changes, ischemia and oxidative stress, and tau-related toxicities. To be eligible, applicants must be academic investigators seeking to create and support innovative translational programs in academic medical centers and universities; biotechnology companies with programs dedicated to Alzheimer's disease translational development; and new biotechnology company spinouts or existing biotechnology companies that demonstrate a clear need for nonprofit funding. Funding is provided through program-related investments (PRIs) that require a return on investment based on scientific and/or business milestones.

The goal of this Funding Opportunity Announcement (FOA) is to provide funding support for the pre-clinical and early stage clinical (Phase I) development of novel small-molecule and biologic therapeutic agents that prevent Alzheimer's disease (AD), slow its progression or treat its cognitive and behavioral symptoms. Participants in this program will receive funding for therapy development activities such as medicinal chemistry, pharmacokinetics (PK), Absorption, Distribution, Metabolism, Excretion, Toxicology (ADMET), efficacy in animal models, formulation development, chemical synthesis under Good Manufacturing Practices (GMP), Investigational New Drug (IND) enabling studies and initial Phase I clinical testing. This program does not support research on basic mechanisms of disease, mechanisms of drug action, development of biomarkers, devices, non-pharmacological interventions (e.g., exercise, diet, cognitive training), repurposed drugs and combinations therapies, or discovery activities such as high throughput screening and hit optimization.

This Funding Opportunity Announcement (FOA) invites U24 Cooperative Agreement applications aiming to establish several mis-folded protein polymorphisms resource networks in the area of Alzheimer's disease and Alzheimer's disease-related dementias (AD/ADRD). The central goal of these resource networks is to standardize and distribute seed, oligomers, and fibrils to other investigators in order to clarify and improve the reproducibility of experiments in AD/ADRD. For the past several years, many studies have developed assays and reagents to understand the biophysical properties of various tau and Aß structural variants such as oligomers, protofibrils, and fibrils. As a result, many imaging, chemical, and immunological tools have been developed to detect different types of Aß and tau polymorphs. Establishing standards, understanding the pathological roles of these protein polymorphs, and using newly developed analytic tools to address the direct correlation between patient-to-patient variations in Aß and tau polymorphs are the long-term goals of the resource networks supported by this FOA.

The purpose of this funding opportunity announcement (FOA) is to encourage interdisciplinary research aimed at promoting health, preventing and limiting symptoms and disease, and reducing health disparities across the lifespan for those living or spending time in non-traditional settings (i.e. playgrounds and nursing homes). These settings result in exposure to environmental pollutants and toxins that result in health risks, symptoms, and other health conditions/diseases; including lower respiratory disease, chronic obstructive pulmonary disease, cardiovascular disease, and complex environmental exposures that may be exacerbated by non-chemical stressors encountered in community settings, physiological function of organs and systems of the fetus/child/adolescence, and lower respiratory disease. Risk identification and symptom management include prevention and behavior changes and actions to maintain health and prevent disease with an emphasis on the individual, family, and community which will advance nursing science. For purposes of this FOA, non-traditional settings include, but are not limited to, places such as community centers; pre-school and non-traditional school environments (e.g., churches, daycare, home-based schools, dormitories, alternative schools, and playgrounds); child and older adult foster care facilities; older adult day care facilities; half-way homes; and assisted living and long-term care facilities.

The Blueprint Neurotherapeutics Network (BPN) invites applications from neuroscience investigators seeking support to advance their small molecule drug discovery and development projects into the clinic. Participants in the BPN are responsible for conducting all studies that involve disease- or target-specific assays, models, and other research tools and receive funding for all activities to be conducted in their own laboratories. In addition, applicants will collaborate with NIH-funded consultants and can augment their project with NIH contract research organizations (CROs) that specialize in medicinal chemistry, pharmacokinetics, toxicology, formulations development, chemical synthesis including under Good Manufacturing Practices (GMP), and Phase I clinical testing. Projects can enter either at the Discovery stage, to optimize promising hit compounds through medicinal chemistry, or at the Development stage, to advance a development candidate through Investigational New Drug (IND)-enabling toxicology studies and phase I clinical testing. Projects that enter at the Discovery stage and meet their milestones may continue on through Development. BPN awardee Institutions retain their assignment of IP rights and gain assignment of IP rights from the BPN contractors (and thereby control the patent prosecution and licensing negotiations) for drug candidates developed in this program.

The Blueprint Neurotherapeutics Network (BPN) encourages applications from small businesses seeking support to advance their small molecule drug discovery and development projects into the clinic. Participants in the BPN are responsible for conducting all studies that involve disease- or target-specific assays, models, and other research tools and receive funding for all activities to be conducted in their own laboratories. In addition, applicants will collaborate with NIH-funded consultants and can augment their project with NIH contract research organizations (CROs) that specialize in medicinal chemistry, pharmacokinetics, toxicology, formulations development, chemical synthesis including under Good Manufacturing Practices (GMP), and Phase I clinical testing. Projects can enter either at the Discovery stage, to optimize promising hit compounds through medicinal chemistry, or at the Development stage, to advance a development candidate through Investigational New Drug (IND)-enabling toxicology studies and phase I clinical testing. Projects that enter at the Discovery stage and meet their milestones may continue on through Development. BPN awardee institutions retain their assignment of IP rights and gain assignment of IP rights from the BPN contractors (and thereby control the patent prosecution and licensing negotiations) for drug candidates developed in this program.

The purpose of the NIH Mentored Research Scientist Development Award (K01) is to provide support and "protected time" (three to five years) for an intensive, supervised career development experience in the biomedical, behavioral, or clinical sciences leading to research independence. Although all of the participating NIH Institutes and Centers (ICs) use this support mechanism to support career development experiences that lead to research independence, some ICs use the K01 award for individuals who propose to train in a new field or for individuals who have had a hiatus in their research career because of illness or pressing family circumstances. Other ICs offer separate K01 FOAs intended to increase research workforce diversity.