Abstract
Nitric Oxide (NO) exerts a variety of biological actions under both physiological and pathological conditions. NO is synthesized by three distinct NO synthase (NOS) isoforms, encoded by three distinct NOS genes, including neuronal (nNOS), inducible (iNOS), and endothelial NOS (eNOS), all of which are expressed in the human vascular system. Although the roles of the NOSs in arteriosclerotic vascular diseases have been described in pharmacological studies with selective and non-selective NOS inhibitors, the selectivity and specificity of the NOS inhibitors continue to be an issue of debate. To solve this issue, genetically altered animals have been established. All types of NOS gene-deficient animals have been developed, including singly, doubly, and triply NOS-deficient mice and various types of NOS Gene-Transgenic (TG) animals have also been generated, including conditional and non-conditional TG mice bearing site-specific overexpression of each NOS gene. The roles of individual NOS isoforms as well as the entire NOSs system in arteriosclerotic vascular diseases have been extensively investigated in those mice, providing pivotal insights into an understanding of the pathophysiological significance of the NOSs in human arteriosclerotic vascular diseases. The present review, which is based on studies with the murine NOS genetic models, summarizes the latest knowledge about the NOSs and arteriosclerotic vascular diseases.
Highlights
Nitric oxide (NO) exerts a variety of biological actions, and plays an important role in maintaining vascular homeostasis [1-7]
It was initially indicated that nNOS and endothelial NOS (eNOS) are constitutively expressed mainly in the nervous system and the vascular endothelium, respectively, synthesizing a small amount of NO in a calcium-dependent manner under both basal conditions and upon stimulation, and that iNOS is induced only when stimulated by microbial endotoxins or certain proinflammatory cytokines, producing a greater amount of NO in a calcium-independent manner [6,7]
We summarize the current knowledge of the NO synthase (NOS) and arteriosclerotic vascular diseases, based on research outcomes obtained from the murine NOS genetic models
Summary
Nitric oxide (NO) exerts a variety of biological actions, and plays an important role in maintaining vascular homeostasis [1-7]. Adventitial inflammatory nNOS cells (mostly neutrophils) vascular NOS activity and that fatty streak formation is paradoxically reduced in eNOS-KO mice [47,48]. Deletion of the iNOS gene in mice exacerbated pathological vascular remodeling in a carotid artery ligation model and in a cardiac transplant model; it ameliorated neointimal formation in a carotid cuff placement model and lipid-rich
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