TY - JOUR
T1 - Mitochondrial biogenesis by NO yields functionally active mitochondria in mammals
AU - Nisoli, Enzo
AU - Falcone, Sestina
AU - Tonello, Cristina
AU - Cozzi, Valeria
AU - Palomba, Letizia
AU - Fiorani, Mara
AU - Pisconti, Addolorata
AU - Brunelli, Silvia
AU - Cardile, Annalisa
AU - Francolini, Maura
AU - Cantoni, Orazio
AU - Carruba, Michele O.
AU - Moncada, Salvador
AU - Clementi, Emilio
PY - 2004/11/23
Y1 - 2004/11/23
N2 - We recently found that long-term exposure to nitric oxide (NO) triggers mitochondrial biogenesis in mammalian cells and tissues by activation of guanylate cyclase and generation of cGMP. Here, we report that the NO/cGMP-dependent mitochondrial biogenesis is associated with enhanced coupled respiration and content of ATP in U937, L6, and PC12 cells. The observed increase in ATP content depended entirely on oxidative phosphorylation, because ATP formation by glycolysis was unchanged. Brain, kidney, liver, heart, and gastrocnemius muscle from endothelial NO synthase null mutant mice displayed markedly reduced mitochondrial content associated with significantly lower oxygen consumption and ATP content. In these tissues, ultrastructural analyses revealed significantly smaller mitochondria. Furthermore, a significant reduction in the number of mitochondria was observed in the subsarcolemmal region of the gastrocnemius muscle. We conclude that NO/cGMP stimulates mitochondrial biogenesis, both in vitro and in vivo, and that this stimulation is associated with increased mitochondrial function, resulting in enhanced formation of ATP.
AB - We recently found that long-term exposure to nitric oxide (NO) triggers mitochondrial biogenesis in mammalian cells and tissues by activation of guanylate cyclase and generation of cGMP. Here, we report that the NO/cGMP-dependent mitochondrial biogenesis is associated with enhanced coupled respiration and content of ATP in U937, L6, and PC12 cells. The observed increase in ATP content depended entirely on oxidative phosphorylation, because ATP formation by glycolysis was unchanged. Brain, kidney, liver, heart, and gastrocnemius muscle from endothelial NO synthase null mutant mice displayed markedly reduced mitochondrial content associated with significantly lower oxygen consumption and ATP content. In these tissues, ultrastructural analyses revealed significantly smaller mitochondria. Furthermore, a significant reduction in the number of mitochondria was observed in the subsarcolemmal region of the gastrocnemius muscle. We conclude that NO/cGMP stimulates mitochondrial biogenesis, both in vitro and in vivo, and that this stimulation is associated with increased mitochondrial function, resulting in enhanced formation of ATP.
KW - ATP
KW - cGMP
KW - Oxygen consumption
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U2 - 10.1073/pnas.0405432101
DO - 10.1073/pnas.0405432101
M3 - Article
C2 - 15545607
AN - SCOPUS:9344220484
SN - 0027-8424
VL - 101
SP - 16507
EP - 16512
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 47
ER -