“In the brains of adult vertebrates, including humans, neu


“In the brains of adult vertebrates, including humans, neurogenesis occurs in restricted niches where it maintains cellular turnover and cognitive plasticity. In virtually all species, however, aging is associated with a significant decline in adult neurogenesis. Moreover, an acceleration of neurogenic defects is observed in models of Alzheimer’s disease and other neurodegenerative diseases, suggesting an involvement in aging- and disease-associated cognitive deficits. To gain insights into when, how and why adult neurogenesis decreases

in the aging brain, we critically reviewed the scientific literature on aging of the rodent find more subventricular zone, the neurogenic niche of the adult forebrain. Our analysis revealed that deficits in the neurogenic pathway are largely established by middle age, but that there remains

striking ambiguity in the underlying mechanisms, especially at the level of stem and progenitor cells. We identify and discuss several challenging issues that have contributed to these key gaps in our current knowledge. In Selleck JAK inhibitor the future, addressing these issues should help untangle the interactions between neurogenesis, aging and aging-associated diseases. “
“Epilepsy is a common neurological disease. Understanding the mechanisms of epileptogenesis at the cellular and molecular levels may provide novel targets Ergoloid for preventing this disorder. Brain-derived neurotrophic factor (BDNF) and its receptor tropomyosin-related kinase type B (TrkB) are believed to be critical for epileptogenesis. Previous studies have revealed possible changes in the expression of full-length TrkB receptors (TrkB.FL) and truncated TrkB receptors (TrkB.T) in neurodegenerative disorders. In this study, we investigated alterations in TrkB receptor expression and TrkB signalling activity in a rat hippocampal neuronal model of spontaneous recurrent epileptiform discharges (SREDs) and the effects on the epileptiform discharges. To induce

epileptiform discharges, we established a model with Mg2+-free treatment. We found a dramatic upregulation of TrkB.T and a decrease in TrkB.FL in the SREDs model. Calpain contributed to the downregulation of TrkB.FL. The upregulation of TrkB.T required transcription and translation activity. Furthermore, BDNF induced the activation of TrkB.FL signalling. However, TrkB.FL signalling was inhibited in the SREDs model. Although calpain inhibitors prevented a decrease in TrkB.FL, they did not restrain the downregulation of TrkB.FL signalling activity in the model. However, a SREDs model with a translation inhibitor prevented the increase in TrkB.T and re-activated TrkB.FL signalling activity. Finally, we used electrophysiology to observe that a downregulation of TrkB.

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