AI Article Synopsis
- Continuous treatment with organic nitrates, like nitroglycerine, leads to tolerance and dysfunction in blood vessel cells, linked to PKC signal pathways and NADPH oxidase activation.
- Chronic exposure to nitroglycerine reduces the protective qualities of propofol against TNF-α toxicity in endothelial cells, as demonstrated by increased oxidative stress markers.
- Using a specific PKC-β2 inhibitor (CGP53353) effectively counteracts the harmful effects of TNF-α and nitroglycerine, whereas propofol's protective effects are diminished when combined with nitroglycerine.
Article Abstract
Continuous treatment with organic nitrates causes nitrate tolerance and endothelial dysfunction, which is involved with protein kinase C (PKC) signal pathway and NADPH oxidase activation. We determined whether chronic administration with nitroglycerine compromises the protective effects of propofol against tumor necrosis factor (TNF-) induced toxicity in endothelial cells by PKC- β2 dependent NADPH oxidase activation. Primary cultured human umbilical vein endothelial cells were either treated or untreated with TNF- α (40 ng/mL) alone or in the presence of the specific PKC- β2 inhibitor CGP53353 (1 μM)), nitroglycerine (10 μM), propofol (100 μM), propofol plus nitroglycerin, or CGP53353 plus nitroglycerine, respectively, for 24 hours. TNF-α increased the levels of superoxide, Nox (nitrate and nitrite), malondialdehyde, and nitrotyrosine production, accompanied by increased protein expression of p-PKC-β2, gP91phox, and endothelial cell apoptosis, whereas all these changes were further enhanced by nitroglycerine. CGP53353 and propofol, respectively, reduced TNF-α induced oxidative stress and cell toxicity. CGP53353 completely prevented TNF- α induced oxidative stress and cell toxicity in the presence or absence of nitroglycerine, while the protective effects of propofol were neutralized by nitroglycerine. It is concluded that nitroglycerine comprises the protective effects of propofol against TNF-α stimulation in endothelial cells, primarily through PKC-β2 dependent NADPH oxidase activation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3874952 | PMC |
| http://dx.doi.org/10.1155/2013/678484 | DOI Listing |
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