Vascular caveolin deficiency supports the angiogenic effects of nitrite, a major end product of nitric oxide metabolism in tumors

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Abstract

The biological status of nitrite recently evolved from an inactive end product of nitric oxide (NO) metabolism to a major intravascular and tissue storage of NO. Several enzymes and proteins may indeed work as nitrite reductases. The endothelial NO synthase (eNOS) is proposed to be one of them, particularly when oxygen is lacking. Here, we examined whether the lack of caveolin, a scaffold protein known to limit eNOS activity under basal conditions and to be down-regulated in tumor vessels, could favor the reconversion of nitrite into NO and thereby promote angiogenesis. We found that nitrite-rich serum from caveolin-deficient mice and exogenous nitrite exert proangiogenic effects on aortic explants cultured in a three-dimensional collagen matrix. We identified a higher intrinsic capacity of caveolin-deficient vessels and endothelial cells to convert nitrite into bioactive NO. These effects did occur under moderate hypoxia and were abolished on exposure to a NO scavenger. Evidence for eNOS acting as a nitrite reductase derived from the failure to reproduce the proangiogenic effects of nitrite on eNOS-deficient aorta rings and endothelial cells. Finally, in a mouse tumor model, we documented the higher nitrite content in hypoxic tumors and identified inducible NO synthase as the major source of nitrite. Altogether, these data identify the lack of caveolin observed in the tumor vasculature as a favorable ground for nitrite-driven formation of endothelial tubes in the hypoxic tumor microenvironment. This work also strengthens the therapeutic value of the modulation of caveolin expression to interfere with tumor angiogenesis. Copyright © 2009 American Association for Cancer Research.

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Frérart, F., Lobysheva, I., Gallez, B., Dessy, C., & Feron, O. (2009). Vascular caveolin deficiency supports the angiogenic effects of nitrite, a major end product of nitric oxide metabolism in tumors. Molecular Cancer Research, 7(7), 1056–1063. https://doi.org/10.1158/1541-7786.MCR-08-0388

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