Novel Role of the IGF-1 Receptor in Endothelial Function and Repair-Reference-Cited by-同舟云学术

Novel Role of the IGF-1 Receptor in Endothelial Function and Repair

Published:2012-08-17 Issue:9 Volume:61 Page:2359-2368
ISSN:0012-1797
Container-title:Diabetes
language:en
Short-container-title:

Author:

Imrie Helen¹,Viswambharan Hema¹,Sukumar Piruthivi¹,Abbas Afroze¹,Cubbon Richard M.¹,Yuldasheva Nadira¹,Gage Matthew¹,Smith Jessica¹,Galloway Stacey¹,Skromna Anna¹,Rashid Sheik Taqweer¹,Futers T. Simon¹,Xuan Shouhong²,Gatenby V. Kate¹,Grant Peter J.¹,Channon Keith M.³,Beech David J.¹,Wheatcroft Stephen B.¹,Kearney Mark T.¹

Affiliation:

1. Division of Cardiovascular and Diabetes Research, Multidisciplinary Cardiovascular Research Centre, University of Leeds, Leeds, U.K.

2. Department of Genetics and Development, Columbia University, New York, New York

3. University of Oxford British Heart Foundation Centre of Research Excellence, Oxford, U.K.

Abstract

We recently demonstrated that reducing IGF-1 receptor (IGF-1R) numbers in the endothelium enhances nitric oxide (NO) bioavailability and endothelial cell insulin sensitivity. In the present report, we aimed to examine the effect of increasing IGF-1R on endothelial cell function and repair. To examine the effect of increasing IGF-1R in the endothelium, we generated mice overexpressing human IGF-1R in the endothelium (human IGF-1R endothelium-overexpressing mice [hIGFREO]) under direction of the Tie2 promoter enhancer. hIGFREO aorta had reduced basal NO bioavailability (percent constriction to NG-monomethyl-l-arginine [mean (SEM) wild type 106% (30%); hIGFREO 48% (10%)]; P < 0.05). Endothelial cells from hIGFREO had reduced insulin-stimulated endothelial NO synthase activation (mean [SEM] wild type 170% [25%], hIGFREO 58% [3%]; P = 0.04) and insulin-stimulated NO release (mean [SEM] wild type 4,500 AU [1,000], hIGFREO 1,500 AU [700]; P < 0.05). hIGFREO mice had enhanced endothelium regeneration after denuding arterial injury (mean [SEM] percent recovered area, wild type 57% [2%], hIGFREO 47% [5%]; P < 0.05) and enhanced endothelial cell migration in vitro. The IGF-1R, although reducing NO bioavailability, enhances in situ endothelium regeneration. Manipulating IGF-1R in the endothelium may be a useful strategy to treat disorders of vascular growth and repair.

Publisher

American Diabetes Association

Subject

Endocrinology, Diabetes and Metabolism,Internal Medicine

Link

https://journals.org/diabetes/diabetes/article-pdf/61/9/2359/559569/2359.pdf

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