Treatment of Alcoholism by Inhibition of the Neuropeptide Y Receptor

Aversive or anticraving medications are currently used to supplement behavioral treatment of alcohol dependence. However, there is a need for developing more effective medications than those available. Neuropeptide Y (NPY) is a neurotransmitter known for increasing appetite and possibly having a role in alcohol preference and dependence. This is likely to be mediated by activation of the post-synaptic NPY-Y1 receptor, but developing molecules suitable for human therapeutics that activate that receptor represents a major challenge.

Genes For Niemann-Pick Type C Disease

Niemann-Pick disease is a class of inherited lipid storage diseases. Niemann-Pick Type C disease is an autosomal recessive neurovisceral lipid storage disorder which leads to systemic and neurological abnormalities including ataxia, seizures, and loss of speech. Patients with the disease typically die as children. The biochemical hallmark of Niemann-Pick Type C cells is the abnormal accumulation of unesterified cholesterol in lysosomes, which results in the delayed homeostatic regulation of both uptake and esterification of low density lipoprotein (LDL) cholesterol.

SIRT2 Inhibitors as Novel Therapeutics for Myocardial Infarction and Ischemic Stroke and to Prevent Necrosis

Sirtuin 2 (SIRT2) inhibitors to reduce necrosis and, thereby, as novel therapeutics to treat ischemic stroke and myocardial infarction. Accumulating evidence indicates that programmed necrosis plays a critical role in cell death during ischemia-reperfusion. NIH investigators have shown that the NAD-dependent deacetylase SIRT2 binds constitutively to receptor-interacting protein 3 (RIP3) and that deletion or knockdown of SIRT2 prevents formation of the RIP1-RIP3 complex in mice.

Therapeutic, Bifunctional Janus Microparticles with Spatially Segregated Surface Proteins and Methods of Production

CDC researchers have developed a fabrication process to create bifunctional microparticles displaying two distinct proteins that are spatially segregated onto a single hemispheric surface. At present, there is no described way of producing biological microparticles with two distinct types of separated proteins. Bifunctional Janus particles generated by the CDC approach possess biologically relevant, native conformation proteins attached to a biologically unreactive and safe substrate.

2,2'-Bipyridyl, a Ferrous Chelator, Prevents Vasospasm in a Primate Model of Subarachnoid Hemorrhage

Subarachnoid hemorrhage (SAH) occurs in 28,000 people per year in North America. Symptomatic vasospasm occurs in the majority of individuals suffering SAH and is the most common cause of morbidity and mortality in patients reaching neurological care. Specifically, vasospasm causes cerebral ischemia or stroke, and the prevention of vasospasm could prevent stroke and death as well as allow physicians more freedom in scheduling surgery when the operative risks are lower.

Cell Expansion System For Use In Neural Transplantation

Cell transplantation therapy typically involves transplanting primary cells or immortalized cells into patients. The promising but still inconsistent data stemming from those clinical trials using primary cells in Parkinson's disease are believed to be due to an insufficient number, function and uniformity of the transplanted cells. In an effort to overcome these problems an improved method for isolating, growing and differentiating precursor cells into dopaminergic neurons has been developed.

Method to Detect and Quantify In Vivo Mitophagy

This technology includes a transgenic reporter mouse that expresses a fluorescent protein called mt-Keima, to be used to detect and quantify in vivo mitophagy. This fluorescent protein was originally described by a group in Japan and shown to be able to measure both the general process of autophagy and mitophagy. We extended these results by creating a living animal so that we could get a measurement for in vivo mitophagy. Our results demonstrate that our mt-Keima mouse allows for a straightforward and practical way to quantify mitophagy in vivo.

Cell Lines of Dopaminergic Neurons Derived from Human Induced Pluripotent Stem Cell (iPSC) lines for Multiple Neurological Therapeutic and Diagnostic Uses

This technology includes three cell lines of dopaminergic neurons derived from human induced pluripotent stem cell (iPSC) line BC1, human iPSG line X1 and human embryonic stem cell (hESC) line H14 to be utilized in neurology research. These cell lines will be used for to study the biology of brain development and may also be used to test different characterization and differentiation assays. The dopaminergic neurons and/or their derivatives may also be used as controls in studies to screen for small molecules to change cell fate and/or to alleviate the phenotypes of various diseases.

Neuronal Differentiation of Neural Stem Cells with StemPro Embryonic Stem Cell Serum Free Medium for Research and Therapeutic Development

This technology involves an innovative method for differentiating neural stem cells (NSCs) into neurons, primarily for use in basic science research and in developing therapies for brain and spinal cord disorders. Existing methods for generating neurons from NSCs typically result in high efficiency but low survival rates, especially when neurons are dissociated and regrown. This new method utilizes Life Technologies StemPro embryonic stem cell serum-free medium, which significantly enhances differentiation efficiency into neurons with minimal cell death.

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