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Priestley, Jessica R. C.; Kautenburg, Katie E.; Casati, Marc C.; Endres, Bradley T.; Geurts, Aron M.; Lombard, Julian H.

The NRF2 knockout rat: a new animal model to study endothelial dysfunction, oxidant stress, and microvascular rarefaction

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  • Medientyp: E-Artikel
  • Titel: The NRF2 knockout rat: a new animal model to study endothelial dysfunction, oxidant stress, and microvascular rarefaction
  • Beteiligte: Priestley, Jessica R. C.; Kautenburg, Katie E.; Casati, Marc C.; Endres, Bradley T.; Geurts, Aron M.; Lombard, Julian H.
  • Erschienen: American Physiological Society, 2016
  • Erschienen in: American Journal of Physiology-Heart and Circulatory Physiology, 310 (2016) 4, Seite H478-H487
  • Sprache: Englisch
  • DOI: 10.1152/ajpheart.00586.2015
  • ISSN: 0363-6135; 1522-1539
  • Entstehung:
  • Anmerkungen:
  • Beschreibung: Nuclear factor (erythroid-derived 2)-like-2 (NRF2) is a master antioxidant and cell protective transcription factor that upregulates antioxidant defenses. In this study we developed a strain of Nrf2 null mutant rats to evaluate the role of reduced NRF2-regulated antioxidant defenses in contributing to endothelial dysfunction and impaired angiogenic responses during salt-induced ANG II suppression. Nrf2−/− mutant rats were developed using transcription activator-like effector nuclease technology in the Sprague-Dawley genetic background, and exhibited a 41-bp deletion that included the start codon for Nrf2 and an absence of immunohistochemically detectable NRF2 protein. Expression of mRNA for the NRF2-regulated indicator enzymes heme oxygenase-1, catalase, superoxide dismutase 1, superoxide dismutase 2, and glutathione reductase was significantly lower in livers of Nrf2−/− mutant rats fed high salt (HS; 4% NaCl) for 2 wk compared with wild-type controls. Endothelium-dependent dilation to acetylcholine was similar in isolated middle cerebral arteries (MCA) of Nrf2−/− mutant rats and wild-type littermates fed low-salt (0.4% NaCl) diet, and was eliminated by short-term (3 days) HS diet in both strains. Low-dose ANG II infusion (100 ng/kg sc) reversed salt-induced endothelial dysfunction in MCA and prevented microvessel rarefaction in wild-type rats fed HS diet, but not in Nrf2−/− mutant rats. The results of this study indicate that suppression of NRF2 antioxidant defenses plays an essential role in the development of salt-induced oxidant stress, endothelial dysfunction, and microvessel rarefaction in normotensive rats and emphasize the potential therapeutic benefits of directly upregulating NRF2-mediated antioxidant defenses to ameliorate vascular oxidant stress in humans.
  • Zugangsstatus: Freier Zugang