Abstract

In diseases associated with neuronal degeneration, such as Alzheimer's or cerebral ischemia, the cytosolic Ca2+ concentration ([Ca2+]cyt) is pathologically elevated. It is still unclear, however, under which conditions Ca2+ induces either apoptotic or necrotic neuronal cell death. Studying respiration and morphology of rat brain mitochondria, we found that extramitochondrial [Ca2+] above 1 M causes reversible release of cytochrome c, a key trigger of apoptosis. This event was NO-independent but required Ca2+ influx into the mitochondrial matrix. The mitochondrial permeability transition pore (PTP), widely thought to underlie cytochrome c release, was not involved. In contrast to noncerebral tissue, only relatively high [Ca2+] (is approximately equal to 200 M) opened PTP and ruptured mitochondria. Our findings might reflect a fundamental mechanism to protect postmitotic neuronal tissue against necrotic devastation and inflammation.