Aldosterone impairs vascular reactivity by decreasing glucose-6-phosphate dehydrogenase activity
Nature Medicine, ISSN: 1078-8956, Vol: 13, Issue: 2, Page: 189-197
2007
- 300Citations
- 103Captures
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Example: if you select the 1-year option for an article published in 2019 and a metric category shows 90%, that means that the article or review is performing better than 90% of the other articles/reviews published in that journal in 2019. If you select the 3-year option for the same article published in 2019 and the metric category shows 90%, that means that the article or review is performing better than 90% of the other articles/reviews published in that journal in 2019, 2018 and 2017.
Citation Benchmarking is provided by Scopus and SciVal and is different from the metrics context provided by PlumX Metrics.
Metrics Details
- Citations300
- Citation Indexes300
- 300
- CrossRef267
- Captures103
- Readers103
- 103
Article Description
Hyperaldosteronism is associated with impaired vascular reactivity; however, the mechanisms by which aldosterone promotes endothelial dysfunction remain unknown. Glucose-6-phosphate dehydrogenase (G6PD) modulates vascular function by limiting oxidant stress to preserve bioavailable nitric oxide (NO*). Here we show that aldosterone (10-;10 mol/l) decreased endothelial G6PD expression and activity in vitro, resulting in increased oxidant stress and decreased NO* levels - similar to what is observed in G6PD-deficient endothelial cells. Aldosterone decreased G6PD expression by increasing expression of the cyclic AMP-response element modulator (CREM) to inhibit cyclic AMP-response element binding protein (CREB)-mediated G6PD transcription. In vivo, infusion of aldosterone decreased vascular G6PD expression and impaired vascular reactivity. These effects were abrogated by spironolactone or vascular gene transfer of G6pd. These findings demonstrate that aldosterone induces a G6PD-deficient phenotype to impair endothelial function; aldosterone antagonism or gene transfer of G6pd improves vascular reactivity by restoring G6PD activity. © 2007 Nature Publishing Group.
Bibliographic Details
Springer Science and Business Media LLC
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