Abstract-We previously reported enhanced expression of the p67 phox and gp91 phox components of NAD(P)H oxidase in angiotensin (Ang) II-induced hypertension, suggesting de novo assembly in response to Ang II. To examine the direct involvement of NAD(P)H oxidases in Ang II-induced O 2 Ϫ production, we designed a chimeric peptide that inhibits p47 phox association with gp91 phox in NAD(P)H oxidase (gp91ds-tat). This was achieved by linking a 9-amino acid peptide (aa) derived from HIV-coat protein (tat) to a 9-aa sequence of gp91 phox (known to interact with p47 phox ). As a control, we constructed a chimera containing tat and a scrambled gp91 sequence (scramb-tat). We found that gp91ds-tat decreased O 2 Ϫ levels in aortic rings treated with Ang II (10 pmol/L) but had no effect on either the O 2 Ϫ -generating enzyme xanthine oxidase or potassium superoxide-generated O 2 Ϫ . We infused vehicle, Ang II (0.75 mg · kg, or Ang IIϩscramb-tat intraperitoneally in C57Bl/6 mice and measured systolic blood pressure (SBP) on days 0, 3, 5, and 7 of infusion. SBP increased by day 3 in mice given Ang II and Ang IIϩscramb-tat but was significantly lower with Ang IIϩgp91-tat. On day 7, SBP was still significantly inhibited in mice given Ang IIϩgp91ds-tat, whereas Ang II-induced O 2 Ϫ production was inhibited throughout the aorta as detected by dihydroethidium staining, consistent with the ability of this inhibitor to block the various vascular NAD(P)H oxidase isoforms. These data support the hypothesis that inhibition of the interaction of p47 phox and gp91 phox (or its homologues) can block O 2 Ϫ production and attenuate blood pressure elevation in mice.
Although NAD(P)H oxidase-derived superoxide (O(2)(-)) is increased during the development of angiotensin II (ANG II)-dependent hypertension, vascular regulation at the protein level has not been reported. We have shown that four major components of NAD(P)H oxidase are located primarily in the vascular adventitia as a primary source of vascular O(2)(-). Here we compare vascular levels of O(2)(-) and NAD(P)H oxidase in normotensive and ANG II-infused hypertensive mice and show that, after 7 days of ANG II infusion (750 microg. kg(-1). day(-1) ip) in C57B1/6 mice, systolic blood pressure was increased compared with that after sham infusion, concomitant with increased O(2)(-) in the thoracic aorta as measured using lucigenin (25 microM)-enhanced chemiluminescence. Both p67(phox) and gp91(phox) were detectable by Western blotting in aortic homogenates, and we observed increased protein levels of NAD(P)H oxidase subunits. These ANG II-induced increases were normalized by simultaneous treatment with the AT(1) receptor antagonist losartan. Moreover, the primary location of these subunits was the adventitia as detected immunohistochemically. Our results suggest that ANG II-induced increases in O(2)(-) are due to increased adventitial NAD(P)H oxidase activity, brought about by the heightened expression and interaction of its components.
Abstract-The vascular adventitia is emerging as an important modulator of vessel remodeling. Adventitial myofibroblasts migrate to the neointima after balloon angioplasty, contributing to restenosis. We postulated that angiotensin II (Ang II) enhances adventitial myofibroblast migration in vitro via reduced nicotinamide-adenine dinucleotide phosphate oxidasederived H 2 O 2 and that Nox4-based oxidase promotes migration. Ang II increased myofibroblast migration in a concentrationdependent manner, with a peak increase of 1023Ϯ83%. Rat adventitial myofibroblasts were cotransfected with human Nox4 and human p22-phox plasmids or an empty vector. PCR showed an 8-fold increase in human Nox4 and human p22-phox plasmid expression. Using RT-PCR with primers specifically designed for rat reduced nicotinamide-adenine dinucleotide phosphate oxidases, endogenous Nox levels were determined. Ang II decreased endogenous Nox4 and Nox1 mRNA to 41% and 27% of control, respectively, but had no effect on Nox2. Cotransfection with human Nox4 and human p22-phox plasmids combined with Ang II reduced endogenous Nox4 mRNA levels (37Ϯ5% of control; PϽ0.05), whereas it had no significant effect on Nox1 or Nox2.
Strategies aimed at specifically inhibiting NAD(P)H oxidase have proven effective in attenuating cardiovascular oxidative stress. The development of new inhibitors targeting novel oxidase homologues appears to hold significant promise for clarifying the physiologic role of these homologues as well as for the development of new antioxidant therapies.
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