Peroxynitrite formed by mitochondrial NO synthase promotes mitochondrial Ca2+ release.

Mitochondria contribute to the maintenance of the intracellular Ca2+ homeostasis by taking up and releasing the cation via separate and specific pathways. The molecular details of the release pathway are elusive but its stimulation by the cross-linking of some vicinal thiols and consequently NAD+ hydrolysis are known. Thiol cross-linking and NAD+ hydrolysis can be achieved by addition of peroxynitrite (ONOO-), the product of the reaction between superoxide (O2-) and nitric oxide (nitrogen monoxide, NO*) to mitochondria. Mitochondria contain an NO synthase (mtNOS), which is stimulated by Ca2+, and are a copious source of O2-. We show here that intramitochondrially formed ONOO- stimulates the specific, NAD+-linked Ca2+ release from mitochondria. Our findings that upon Ca2+ uptake mtNOS is stimulated, that ONOO- is formed, and that Ca2+ is subsequently released from intact mitochondria suggest the existence of a feedback loop, which prevents overloading of mitochondria with Ca2+.