Free intracellular calcium in aging and Alzheimer's disease

Autor: Henrike Hartmann, H. Forstl, Anne Eckert, K. Velbinger, Walter E. Müller
Rok vydání: 1996
Předmět:
Zdroj: Annals of the New York Academy of Sciences. 786
ISSN: 0077-8923
Popis: Brain cells of aged mice exhibit distinct alterations of [Ca2+]i regulation resulting in lower levels of [Ca2+]i after stimulation. These alterations are probably more related to disturbances of mechanisms regulating transmembraneous Ca2+ fluxes than to mechanisms of intracellular Ca2+ release and storage. Comparable although not identical disturbances of [Ca2+]i regulation are present in mouse, rat, and human lymphocytes. Accordingly, one is tempted to speculate that in the human brain similar alterations of [Ca2+]i regulation might be present in aging as found in the aged mouse and rat brain. Since the downregulation of [Ca2+]i levels in aged brain cells seems to be accompanied by an enhanced intracellular sensitivity for changes of [Ca2+]i, both divergent alterations might compensate each other under normal conditions. However, it seems quite conceivable that the ability of the Ca2+ signal transduction pathway to adopt to periods of over-or understimulation (e.g., hypoxia, stress) might be disturbed in the aging brain. One of those conditions of additional alterations of [Ca2+]i regulation might be AD. Although we did not see AD-specific changes of [Ca2+]i regulation per se, the effect of beta A4 on cellular [Ca2+]i regulation was significantly and specifically disturbed in AD. It is not unlikely that a small, but long lasting (years or even decades) alterations of cellular [Ca2+]i regulation by beta A4, which is a product of normal brain metabolism, might finally contribute to the severe neuronal damage seen during the disease.
Databáze: OpenAIRE
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