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Ferguson, R.D., Gallagher, E.J., Cohen, D., Tobin-Hess, A., Alikhani, N., Novosyadlyy, R., Haddad, N., Yakar, S. and LeRoith, D. (2013) Hyperinsulinemia Promotes Metastasis to the Lung in a Mouse Model of Her2-Mediated Breast Cancer. Endocrine-Related Cancer, 20, 391-401. http://dx.doi.org/10.1530/ERC-12-0333

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• TITLE: Hyperglycemia Induced Changes in Vascular AKT3 May Inhibit Pressure-Induced Apoptosis in the Rat Inferior Venae Cavae

  AUTHORS: Kevin M. Rice, Ravi Kumar Arvapalli, Eric R. Blough

  KEYWORDS: Diabetes, Zucker Rat, Inferior Venae Cavae, AKT3

  JOURNAL NAME: Open Journal of Endocrine and Metabolic Diseases, Vol.5 No.4, April 23, 2015

  ABSTRACT: Background: Vein graft failure after bypass surgery is greatly increase in patients with diabetes mellitus. The cellular mechanisms underlying the cause of this failure are largely unexplored. Protein kinase B/AKT is a mechanically sensitive regulator of cellular growth and apoptosis. Herein we examine whether diabetes affects the regulation of AKT in response to increased venous loading. Methods: Inferior venae cavae (IVC) from the non-diabetic lean (LNZ) and the diabetic obesesyndrome X Zucker(OSXZ) rats were isolated and incubated ex vivo under basal or pressurized conditions (120 mmHg). Protein expression, basal activation and the ability of increased pressure to activate AKT3 and apoptosis-related signaling were evaluated by immunoblot analysis. Results: Compared to that seen in the non-diabetic lean animals, increased venous pressure in the OSXZ rats was not characterized by increases in APAF-1 concentration, XIAP proteolysis, AIF cleavage, or Bad phosphorylation. This evidence of decreased apoptotic signaling was associated with increased basal p-AKT3 levels (+136% ± 13% P