Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals

Sustained increases in glucose flux via the aldose reductase (AR) pathway have been linked to diabetic vascular complications. Previous studies revealed that glucose flux via AR mediates endothelial dysfunction and leads to lesional hemorrhage in diabetic human AR (hAR) expressing mice in an apoE(−/...

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Autores principales: Vedantham, Srinivasan, Thiagarajan, Devi, Ananthakrishnan, Radha, Wang, Lingjie, Rosario, Rosa, Zou, Yu Shan, Goldberg, Ira, Yan, Shi Fang, Schmidt, Ann Marie, Ramasamy, Ravichandran
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Diabetes Association 2014
Materias:
Complications
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3900544/
https://www.ncbi.nlm.nih.gov/pubmed/24186862
http://dx.doi.org/10.2337/db13-0032
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author Vedantham, Srinivasan
Thiagarajan, Devi
Ananthakrishnan, Radha
Wang, Lingjie
Rosario, Rosa
Zou, Yu Shan
Goldberg, Ira
Yan, Shi Fang
Schmidt, Ann Marie
Ramasamy, Ravichandran
author_facet Vedantham, Srinivasan
Thiagarajan, Devi
Ananthakrishnan, Radha
Wang, Lingjie
Rosario, Rosa
Zou, Yu Shan
Goldberg, Ira
Yan, Shi Fang
Schmidt, Ann Marie
Ramasamy, Ravichandran
author_sort Vedantham, Srinivasan
collection PubMed
description Sustained increases in glucose flux via the aldose reductase (AR) pathway have been linked to diabetic vascular complications. Previous studies revealed that glucose flux via AR mediates endothelial dysfunction and leads to lesional hemorrhage in diabetic human AR (hAR) expressing mice in an apoE(−/−) background. Our studies revealed sustained activation of Egr-1 with subsequent induction of its downstream target genes tissue factor (TF) and vascular cell adhesion molecule-1 (VCAM-1) in diabetic apoE(−/−)hAR mice aortas and in high glucose–treated primary murine aortic endothelial cells expressing hAR. Furthermore, we observed that flux via AR impaired NAD(+) homeostasis and reduced activity of NAD(+)-dependent deacetylase Sirt-1 leading to acetylation and prolonged expression of Egr-1 in hyperglycemic conditions. In conclusion, our data demonstrate a novel mechanism by which glucose flux via AR triggers activation, acetylation, and prolonged expression of Egr-1 leading to proinflammatory and prothrombotic responses in diabetic atherosclerosis.
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spelling pubmed-39005442015-02-01 Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals Vedantham, Srinivasan Thiagarajan, Devi Ananthakrishnan, Radha Wang, Lingjie Rosario, Rosa Zou, Yu Shan Goldberg, Ira Yan, Shi Fang Schmidt, Ann Marie Ramasamy, Ravichandran Diabetes Complications Sustained increases in glucose flux via the aldose reductase (AR) pathway have been linked to diabetic vascular complications. Previous studies revealed that glucose flux via AR mediates endothelial dysfunction and leads to lesional hemorrhage in diabetic human AR (hAR) expressing mice in an apoE(−/−) background. Our studies revealed sustained activation of Egr-1 with subsequent induction of its downstream target genes tissue factor (TF) and vascular cell adhesion molecule-1 (VCAM-1) in diabetic apoE(−/−)hAR mice aortas and in high glucose–treated primary murine aortic endothelial cells expressing hAR. Furthermore, we observed that flux via AR impaired NAD(+) homeostasis and reduced activity of NAD(+)-dependent deacetylase Sirt-1 leading to acetylation and prolonged expression of Egr-1 in hyperglycemic conditions. In conclusion, our data demonstrate a novel mechanism by which glucose flux via AR triggers activation, acetylation, and prolonged expression of Egr-1 leading to proinflammatory and prothrombotic responses in diabetic atherosclerosis. American Diabetes Association 2014-02 2014-01-16 /pmc/articles/PMC3900544/ /pubmed/24186862 http://dx.doi.org/10.2337/db13-0032 Text en © 2014 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered. See http://creativecommons.org/licenses/by-nc-nd/3.0/ for details.
spellingShingle Complications
Vedantham, Srinivasan
Thiagarajan, Devi
Ananthakrishnan, Radha
Wang, Lingjie
Rosario, Rosa
Zou, Yu Shan
Goldberg, Ira
Yan, Shi Fang
Schmidt, Ann Marie
Ramasamy, Ravichandran
Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals
title Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals
title_full Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals
title_fullStr Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals
title_full_unstemmed Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals
title_short Aldose Reductase Drives Hyperacetylation of Egr-1 in Hyperglycemia and Consequent Upregulation of Proinflammatory and Prothrombotic Signals
title_sort aldose reductase drives hyperacetylation of egr-1 in hyperglycemia and consequent upregulation of proinflammatory and prothrombotic signals
topic Complications
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3900544/
https://www.ncbi.nlm.nih.gov/pubmed/24186862
http://dx.doi.org/10.2337/db13-0032
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