Author:
Andresen Jon J.,Faraci Frank M.,Heistad Donald D.
Abstract
MnSOD is the only mammalian isoform of SOD that is necessary for life. MnSOD−/−mice die soon after birth, and MnSOD+/−mice are more susceptible to oxidative stress than wild-type (WT) mice. In this study, we examined vasomotor function responses in aortas of MnSOD+/−mice under normal conditions and during oxidative stress. Under normal conditions, contractions to serotonin (5-HT) and prostaglandin F2α(PGF2α), relaxation to ACh, and superoxide levels were similar in aortas of WT and MnSOD+/−mice. The mitochondrial inhibitor antimycin A reduced contraction to PGF2αand impaired relaxation to ACh to a similar extent in aortas of WT and MnSOD+/−mice. The Cu/ZnSOD and extracellular SOD inhibitor diethyldithiocarbamate (DDC) paradoxically enhanced contraction to 5-HT and superoxide more in aortas of WT mice than in MnSOD+/−mice. DDC impaired relaxation to ACh and reduced total SOD activity similarly in aortas of both genotypes. Tiron, a scavenger of superoxide, normalized contraction to 5-HT, relaxation to ACh, and superoxide levels in DDC-treated aortas of WT and MnSOD+/−mice. Hypoxia, which reportedly increases superoxide, reduced contractions to 5-HT and PGF2αsimilarly in aortas of WT and MnSOD+/−mice. The vasomotor response to acute hypoxia was similar in both genotypes. In summary, under normal conditions and during acute oxidative stress, vasomotor function is similar in WT and MnSOD+/−mice. We speculate that decreased mitochondrial superoxide production may preserve nitric oxide bioavailability during oxidative stress.
Publisher
American Physiological Society
Subject
Physiology (medical),Cardiology and Cardiovascular Medicine,Physiology
Cited by
29 articles.
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