BACKGROUND: NAD(P)H oxidases are important sources of superoxide in the vasculature, the activity of which is associated with risk factors for human atherosclerosis. This study was designed to investigate the localization of superoxide production and the expression of the Nox family of NAD(P)H oxidase proteins (gp91phox, Nox1, and Nox4) in nonatherosclerotic and atherosclerotic human coronary arteries. METHODS AND RESULTS: In coronary artery segments from explanted human hearts, we examined intracellular superoxide production with dihydroethidium. In nonatherosclerotic coronary arteries, superoxide was present homogenously throughout the intima, media, and adventitia. In atherosclerotic arteries, there was an additional intense area of superoxide in the plaque shoulder, which is rich in macrophages and alpha-actin-positive cells. p22phox colocalized with gp91phox mainly in macrophages, whereas Nox4 was found only in nonphagocytic vascular cells. Expression of gp91phox and p22phox mRNA was associated with the severity of atherosclerosis. gp91phox correlated with the plaque macrophage content, whereas Nox4 correlated with the content of alpha-actin-positive cells. Nox1 expression was low both in human coronary arteries and isolated vascular cells. CONCLUSIONS: Several Nox proteins, including gp91phox and Nox4, may contribute to increased intracellular oxidative stress in human coronary atherosclerosis in a cell-specific manner and thus may be involved in the genesis and progression of human coronary atherosclerotic disease.
BACKGROUND:NAD(P)H oxidases are important sources of superoxide in the vasculature, the activity of which is associated with risk factors for humanatherosclerosis. This study was designed to investigate the localization of superoxide production and the expression of the Nox family of NAD(P)H oxidase proteins (gp91phox, Nox1, and Nox4) in nonatherosclerotic and atherosclerotichuman coronary arteries. METHODS AND RESULTS: In coronary artery segments from explanted human hearts, we examined intracellular superoxide production with dihydroethidium. In nonatherosclerotic coronary arteries, superoxide was present homogenously throughout the intima, media, and adventitia. In atherosclerotic arteries, there was an additional intense area of superoxide in the plaque shoulder, which is rich in macrophages and alpha-actin-positive cells. p22phox colocalized with gp91phox mainly in macrophages, whereas Nox4 was found only in nonphagocytic vascular cells. Expression of gp91phox and p22phox mRNA was associated with the severity of atherosclerosis. gp91phox correlated with the plaque macrophage content, whereas Nox4 correlated with the content of alpha-actin-positive cells. Nox1 expression was low both in human coronary arteries and isolated vascular cells. CONCLUSIONS: Several Nox proteins, including gp91phox and Nox4, may contribute to increased intracellular oxidative stress in humancoronary atherosclerosis in a cell-specific manner and thus may be involved in the genesis and progression of humancoronary atherosclerotic disease.
Authors: Hossein Bayat; Katrin Schröder; David R Pimentel; Ralf P Brandes; Tony J Verbeuren; Richard A Cohen; Bingbing Jiang Journal: Free Radic Biol Med Date: 2012-03-09 Impact factor: 7.376
Authors: Roberto Biondi; Giuseppe Ambrosio; Francesco De Pascali; Isabella Tritto; Enrico Capodicasa; Lawrence J Druhan; Craig Hemann; Jay L Zweier Journal: Arch Biochem Biophys Date: 2012-01-20 Impact factor: 4.013
Authors: Juliana Hwang; Michael H Ing; Adler Salazar; Bernard Lassègue; Kathy Griendling; Mohamad Navab; Alex Sevanian; Tzung K Hsiai Journal: Circ Res Date: 2003-10-30 Impact factor: 17.367