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W2398940831 abstract "Hydrogen sulfide (H2S), as a reducing agent and an antioxidant molecule, exerts protective effects against hyperglycemic stress in the vascular endothelium. The mitochondrial enzyme 3-mercaptopyruvate sulfurtransferase (3-MST) is an important biological source of H2S. We have recently demonstrated that 3-MST activity is inhibited by oxidative stress in vitro and speculated that this may have an adverse effect on cellular homeostasis. In the current study, given the importance of H2S as a vasorelaxant, angiogenesis stimulator and cellular bioenergetic mediator, we first determined whether the 3-MST/H2S system plays a physiological regulatory role in endothelial cells. Next, we tested whether a dysfunction of this pathway develops during the development of hyperglycemia and diabetes-associated vascular complications. Intraperitoneal (IP) 3-MP (1 mg/kg) raised plasma H2S levels in rats. 3-MP (10 µmol/L to 1 mmol/L) promoted angiogenesis in vitro in bEnd3 microvascular endothelial cells and in vivo in a Matrigel assay in mice (0.3–1 mg/kg). In vitro studies with bEnd3 cell homogenates demonstrated that the 3-MP-induced increases in H2S production depended on enzymatic activity, although at higher concentrations (1–3 mmol/L) there was also evidence for an additional nonenzymatic H2S production by 3-MP. In vivo, 3-MP facilitated wound healing in rats, induced the relaxation of dermal microvessels and increased mitochondrial bioenergetic function. In vitro hyperglycemia or in vivo streptozotocin diabetes impaired angiogenesis, attenuated mitochondrial function and delayed wound healing; all of these responses were associated with an impairment of the proangiogenic and bioenergetic effects of 3-MP. The antioxidants DL-α-lipoic acid (LA) in vivo, or dihydrolipoic acid (DHLA) in vitro restored the ability of 3-MP to stimulate angiogenesis, cellular bioenergetics and wound healing in hyperglycemia and diabetes. We conclude that diabetes leads to an impairment of the 3-MST/H2S pathway, and speculate that this may contribute to the pathogenesis of hyperglycemic endothelial cell dysfunction. We also suggest that therapy with H2S donors, or treatment with the combination of 3-MP and lipoic acid may be beneficial in improving angiogenesis and bioenergetics in hyperglycemia." @default.
W2398940831 created "2016-06-24" @default.
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W2398940831 date "2015-01-01" @default.
W2398940831 modified "2023-10-18" @default.
W2398940831 title "Regulation of Vascular Tone, Angiogenesis and Cellular Bioenergetics by the 3-Mercaptopyruvate Sulfurtransferase/H2S Pathway: Functional Impairment by Hyperglycemia and Restoration by dl-α-Lipoic Acid" @default.
W2398940831 cites W1516260708 @default.
W2398940831 cites W1525365017 @default.
W2398940831 cites W1601356608 @default.
W2398940831 cites W1608443253 @default.
W2398940831 cites W1655368476 @default.
W2398940831 cites W1697161640 @default.
W2398940831 cites W1843437530 @default.
W2398940831 cites W1964595211 @default.
W2398940831 cites W1964722626 @default.
W2398940831 cites W1965318110 @default.
W2398940831 cites W1967183316 @default.
W2398940831 cites W1971483431 @default.
W2398940831 cites W1974939683 @default.
W2398940831 cites W1975072795 @default.
W2398940831 cites W1975751186 @default.
W2398940831 cites W1989352421 @default.
W2398940831 cites W1995153669 @default.
W2398940831 cites W1999619247 @default.
W2398940831 cites W2000707489 @default.
W2398940831 cites W2003963049 @default.
W2398940831 cites W2004712996 @default.
W2398940831 cites W2012081068 @default.
W2398940831 cites W2014733514 @default.
W2398940831 cites W2016463547 @default.
W2398940831 cites W2023187726 @default.
W2398940831 cites W2026465800 @default.
W2398940831 cites W2028606217 @default.
W2398940831 cites W2031227342 @default.
W2398940831 cites W2034446363 @default.
W2398940831 cites W2035143128 @default.
W2398940831 cites W2036250217 @default.
W2398940831 cites W2038600558 @default.
W2398940831 cites W2041867306 @default.
W2398940831 cites W2043033553 @default.
W2398940831 cites W2043239658 @default.
W2398940831 cites W2048256814 @default.
W2398940831 cites W2048678284 @default.
W2398940831 cites W2055240012 @default.
W2398940831 cites W2059122010 @default.
W2398940831 cites W2063207603 @default.
W2398940831 cites W2067570659 @default.
W2398940831 cites W2070024125 @default.
W2398940831 cites W2073876100 @default.
W2398940831 cites W2076991119 @default.
W2398940831 cites W2081447694 @default.
W2398940831 cites W2084982869 @default.
W2398940831 cites W2088894435 @default.
W2398940831 cites W2088942407 @default.
W2398940831 cites W2089389631 @default.
W2398940831 cites W2091836652 @default.
W2398940831 cites W2105731956 @default.
W2398940831 cites W2106962270 @default.
W2398940831 cites W2116488609 @default.
W2398940831 cites W2120464741 @default.
W2398940831 cites W2120722543 @default.
W2398940831 cites W2126852984 @default.
W2398940831 cites W2131577505 @default.
W2398940831 cites W2139451085 @default.
W2398940831 cites W2140856020 @default.
W2398940831 cites W2147495838 @default.
W2398940831 cites W2157605308 @default.
W2398940831 cites W2158366323 @default.
W2398940831 cites W2163042571 @default.
W2398940831 cites W2166444429 @default.
W2398940831 cites W22732521 @default.
W2398940831 cites W2316825335 @default.
W2398940831 cites W2415360840 @default.
W2398940831 cites W3150419763 @default.
W2398940831 doi "https://doi.org/10.2119/molmed.2015.00035" @default.
W2398940831 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4461574" @default.
W2398940831 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25715337" @default.
W2398940831 hasPublicationYear "2015" @default.
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