Author(s): Nazarewicz RR, Dikalova AE, Bikineyeva A, Dikalov SI
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Abstract Superoxide (O2(·-)) production by the NADPH oxidases is implicated in the pathogenesis of many cardiovascular diseases, including hypertension. We have previously shown that activation of NADPH oxidases increases mitochondrial O2(·-) which is inhibited by the ATP-sensitive K(+) channel (mitoKATP) inhibitor 5-hydroxydecanoic acid and that scavenging of mitochondrial or cytoplasmic O2(·-) inhibits hypertension. We hypothesized that mitoKATP-mediated mitochondrial O2(·-) potentiates cytoplasmic O2(·-) by stimulation of NADPH oxidases. In this work we studied Nox isoforms as a potential target of mitochondrial O2(·-). We tested contribution of reverse electron transfer (RET) from complex II to complex I in mitochondrial O2(·-) production and NADPH oxidase activation in human aortic endothelial cells. Activation of mitoKATP with low dose of diazoxide (100 nM) decreased mitochondrial membrane potential (tetramethylrhodamine methyl ester probe) and increased production of mitochondrial and cytoplasmic O2(·-) measured by site-specific probes and mitoSOX. Inhibition of RET with complex II inhibitor (malonate) or complex I inhibitor (rotenone) attenuated the production of mitochondrial and cytoplasmic O2(·-). Supplementation with a mitochondria-targeted SOD mimetic (mitoTEMPO) or a mitochondria-targeted glutathione peroxidase mimetic (mitoEbselen) inhibited production of mitochondrial and cytoplasmic O2(·-). Inhibition of Nox2 (gp91ds) or Nox2 depletion with small interfering RNA but not Nox1, Nox4, or Nox5 abolished diazoxide-induced O2(·-) production in the cytoplasm. Treatment of angiotensin II-infused mice with RET inhibitor dihydroethidium (malate) significantly reduced blood pressure. Our study suggests that mitoKATP-mediated mitochondrial O2(·-) stimulates cytoplasmic Nox2, contributing to the development of endothelial oxidative stress and hypertension.
This article was published in Am J Physiol Heart Circ Physiol
and referenced in Journal of Vascular Medicine & Surgery