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Full-Text Articles in Medicine and Health Sciences
Enhanced Cgmp-Dependent Signaling In Astrocytes: Novel Therapeutic Target In Alzheimer's Disease, Nyema M. Woart
Enhanced Cgmp-Dependent Signaling In Astrocytes: Novel Therapeutic Target In Alzheimer's Disease, Nyema M. Woart
PCOM Biomedical Studies Student Scholarship
Over five million Americans suffer from Alzheimer’s Disease (AD), with an expected 34% increase in the incidence in this disease over the next decade. Unfortunately, there is no cure for AD. Recent studies have indicated that drugs which increase the levels of cyclic guanosine-3’5’-monophosphate (cGMP) may help preserve learning and memory in AD and enhance cognition in the aging brain; however, the mechanism(s) of how cGMP exerts this beneficial effect is unknown. The present findings now suggest that elevation of cGMP in astrocytes depresses inhibitory potassium currents in these cells to stimulate their protective influence on neuronal activity. Cellular currents …
Mdivi-1, A Mitochondrial Division Inhibitor, Exerts Cardioprotective Effects In Myocardial Ischemia/Reperfusion (Mi/R) When Given At Reperfusion, Devon P. Stutzman
Mdivi-1, A Mitochondrial Division Inhibitor, Exerts Cardioprotective Effects In Myocardial Ischemia/Reperfusion (Mi/R) When Given At Reperfusion, Devon P. Stutzman
PCOM Biomedical Studies Student Scholarship
Acute myocardial infarction (MI) remains a leading cause of morbidity and mortality worldwide. Accompanying MI is myocardial ischemia/reperfusion (MI/R) injury, which results in cardiac contractile dysfunction and additional myocardial cell death. MI/R injury is initiated in part by mitochondrial-derived reactive oxygen species due to mitochondrial membrane potential collapse and uncoupling of the electron transport chain, which may be due to mitochondrial fission in MI/R. Mitochondrial fission is in turn associated with shortening/fragmentation of mitochondria, decreased ATP production, and is thought to promote cardiac contractile dysfunction and post-reperfused cardiomyocyte loss, leading to increased infarct size. Therefore, inhibiting mitochondrial fission may be …