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eNOS


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  • Partial eNOS deficiency causes spontaneous thrombotic cerebral infarction, amyloid angiopathy and cognitive impairment. 26104027

    Cerebral infarction due to thrombosis leads to the most common type of stroke and a likely cause of age-related cognitive decline and dementia. Endothelial nitric oxide synthase (eNOS) generates NO, which plays a crucial role in maintaining vascular function and exerting an antithrombotic action. Reduced eNOS expression and eNOS polymorphisms have been associated with stroke and Alzheimer's disease (AD), the most common type of dementia associated with neurovascular dysfunction. However, direct proof of such association is lacking. Since there are no reports of complete eNOS deficiency in humans, we used heterozygous eNOS(+/-) mice to mimic partial deficiency of eNOS, and determine its impact on cerebrovascular pathology and perfusion of cerebral vessels.Combining cerebral angiography with immunohistochemistry, we found thrombotic cerebral infarctions in eNOS(+/-) mice as early as 3-6 months of age but not in eNOS(+/+) mice at any age. Remarkably, vascular occlusions in eNOS(+/-) mice were found almost exclusively in three areas: temporoparietal and retrosplenial granular cortexes, and hippocampus this distribution precisely matching the hypoperfused areas identified in preclinical AD patients. Moreover, progressive cerebral amyloid angiopaphy (CAA), blood brain barrier (BBB) breakdown, and cognitive impairment were also detected in aged eNOS(+/-) mice.These data provide for the first time the evidence that partial eNOS deficiency results in spontaneous thrombotic cerebral infarctions that increase with age, leading to progressive CAA and cognitive impairments. We thus conclude that eNOS(+/-) mouse may represent an ideal model of ischemic stroke to address early and progressive damage in spontaneously-evolving chronic cerebral ischemia and thus, study vascular mechanisms contributing to vascular dementia and AD.
    Dokumententyp:
    Referenz
    Produkbestellnummer:
    07-1401
    Produktbezeichnung:
    Anti-GLUT-1 Antibody, CT
  • eNOS overexpression exacerbates vascular closure in the obliterative phase of OIR and increases angiogenic drive in the subsequent proliferative stage. 22930723

    In ischemic retinopathies, the misdirection of reparative angiogenesis away from the hypoxic retina leads to pathologic neovascularization. Thus, therapeutic strategies that reverse this trend would be extremely beneficial. Nitric oxide (NO) produced by endothelial nitric oxide synthase (eNOS) is an important mediator of vascular endothelial growth factor (VEGF) function facilitating vascular growth and maturation. However, in addition to NO, eNOS can also produce superoxide (O(2)(-)), exacerbating pathology. Here, our aim was to investigate the effect of eNOS overexpression on vascular closure and subsequent recovery of the ischemic retina.Mice overexpressing eNOS-GFP were subjected to oxygen-induced retinopathy (OIR) and changes in retinal vascularization quantified. Background angiogenic drive was assessed during vascular development and in aortic rings. NOS activity was measured by Griess assay or conversion of radiolabeled arginine to citrulline, nitrotyrosine (NT), and superoxide by immunolabeling and dihydroethidium fluorescence and VEGF by ELISA.In response to hyperoxia, enhanced eNOS expression led to increased NOS-derived superoxide and dysfunctional NO production, NT accumulation, and exacerbated vessel closure associated with tetrahydrobiopterin (BH₄) insufficiency. Despite worse vaso-obliteration, eNOS overexpression resulted in elevated hypoxia-induced angiogenic drive, independent of VEGF production. This correlated with increased vascular branching similar to that observed in isolated aortas and during development. Enhanced recovery was also associated with neovascular tuft formation, which showed defective NO production and increased eNOS-derived superoxide and NT levels.In hyperoxia, reduced BH₄ bioavailability causes overexpressed eNOS to become dysfunctional, exacerbating vaso-obliteration. In the proliferative phase, however, eNOS has important prorepair functions enhancing angiogenic growth potential and recovery in ischemia.
    Dokumententyp:
    Referenz
    Produkbestellnummer:
    06-284
    Produktbezeichnung:
    Anti-Nitrotyrosine Antibody
  • Quercetin inhibits eNOS, microtubule polymerization, and mitotic progression in bovine aortic endothelial cells. 16614401

    Quercetin (QRN), one of the most abundant flavonoids in the human diet, is a known antioxidant and inhibitor of cancer cell cycle progression. Here, we provide the first evidence that QRN inhibits angiogenesis via a mechanism involving both suppression of endothelial nitric oxide synthase (eNOS) and early M-phase cell cycle arrest. Bovine aortic endothelial (BAE) cells were exposed to doses of up to 100 micromol/L QRN and assayed for eNOS activity and phosphorylation status. Phosphorylation of eNOS at Ser 617 (bovine sequence) is thought to occur in response to Akt stimulation and to be required for eNOS activity. Together with basal eNOS activity, eNOS phosphorylation at Ser 617 and Akt Ser 473 phosphorylation were dose dependently and concomitantly suppressed by QRN within 30 min. Furthermore, although the significant (P 0.05) inhibitory effect of a single 100 micromol/L QRN dose on eNOS activity was overcome within approximately 24 h, chronic QRN exposures (24-48 h) led to early M-phase arrest and disruption of mitotic microtubule polymerization. In vivo, QRN administered i.p. to female Balb/C mice bearing both syngeneic mammary tumors and Matrigel implants suppressed angiogenesis as measured by endothelial cell immunohistochemistry and hemoglobin concentration. Taken together, these findings suggest a dual mechanism by which QRN suppresses endothelial cell proliferation, both acutely via inhibition of eNOS Ser 617 phosphorylation, and chronically via perturbation of mitotic microtubule polymerization. This novel mechanism of QRN in endothelial cells may in part explain its inhibitory action on angiogenesis and further discern a potential role of QRN as a chemopreventive agent.
    Dokumententyp:
    Referenz
    Produkbestellnummer:
    AB7356
    Produktbezeichnung:
    Anti-von Willebrand Factor Antibody