Forkhead Box O-1 Modulation Improves Endothelial Insulin Resistance in Human Obesity

OBJECTIVE—Increased visceral adiposity has been closely linked to insulin resistance, endothelial dysfunction, and cardiometabolic disease in obesity, but pathophysiological mechanisms are poorly understood. We sought to investigate mechanisms of vascular insulin resistance by characterizing depot-s...

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Published in	Arteriosclerosis, thrombosis, and vascular biology Vol. 35; no. 6; pp. 1498 - 1506
Main Authors	Karki, Shakun, Farb, Melissa G., Ngo, Doan T.M., Myers, Samantha, Puri, Vishwajeet, Hamburg, Naomi M., Carmine, Brian, Hess, Donald T., Gokce, Noyan
Format	Journal Article
Language	English
Published	United States American Heart Association, Inc 01.06.2015
Subjects	Adult Delayed-Action Preparations Endothelial Cells - metabolism Endothelium, Vascular - physiopathology Enzyme Activation - drug effects Female Forkhead Box Protein O1 Forkhead Transcription Factors - antagonists & inhibitors Forkhead Transcription Factors - metabolism Humans Insulin - pharmacology Insulin Resistance - physiology Male Middle Aged Nitric Oxide Synthase Type III - metabolism Obesity - physiopathology Phosphorylation Quinolones - pharmacology nitric oxide synthase type III FOXO1 protein, human insulin obesity
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Abstract	OBJECTIVE—Increased visceral adiposity has been closely linked to insulin resistance, endothelial dysfunction, and cardiometabolic disease in obesity, but pathophysiological mechanisms are poorly understood. We sought to investigate mechanisms of vascular insulin resistance by characterizing depot-specific insulin responses and gain evidence that altered functionality of transcription factor forkhead box O-1 (FOXO-1) may play an important role in obesity-related endothelial dysfunction. APPROACH AND RESULTS—We intraoperatively collected paired subcutaneous and visceral adipose tissue samples from 56 severely obese (body mass index, 43±7 kg/m) and 14 nonobese subjects during planned surgical operations, and characterized depot-specific insulin-mediated responses using Western blot and quantitative immunofluorescence techniques. Insulin signaling via phosphorylation of FOXO-1 and consequent endothelial nitric oxide synthase stimulation was selectively impaired in the visceral compared with subcutaneous adipose tissue and endothelial cells of obese subjects. In contrast, tissue actions of insulin were preserved in nonobese individuals. Pharmacological antagonism with AS1842856 and biological silencing using small interfering RNA–mediated FOXO-1 knockdown reversed insulin resistance and restored endothelial nitric oxide synthase activation in the obese. CONCLUSIONS—We observed profound endothelial insulin resistance in the visceral adipose tissue of obese humans which improved with FOXO-1 inhibition. FOXO-1 modulation may represent a novel therapeutic target to diminish vascular insulin resistance. In addition, characterization of endothelial insulin resistance in the adipose microenvironment may provide clues to mechanisms of systemic disease in human obesity.
AbstractList	Increased visceral adiposity has been closely linked to insulin resistance, endothelial dysfunction, and cardiometabolic disease in obesity, but pathophysiological mechanisms are poorly understood. We sought to investigate mechanisms of vascular insulin resistance by characterizing depot-specific insulin responses and gain evidence that altered functionality of transcription factor forkhead box O-1 (FOXO-1) may play an important role in obesity-related endothelial dysfunction. We intraoperatively collected paired subcutaneous and visceral adipose tissue samples from 56 severely obese (body mass index, 43 ± 7 kg/m(2)) and 14 nonobese subjects during planned surgical operations, and characterized depot-specific insulin-mediated responses using Western blot and quantitative immunofluorescence techniques. Insulin signaling via phosphorylation of FOXO-1 and consequent endothelial nitric oxide synthase stimulation was selectively impaired in the visceral compared with subcutaneous adipose tissue and endothelial cells of obese subjects. In contrast, tissue actions of insulin were preserved in nonobese individuals. Pharmacological antagonism with AS1842856 and biological silencing using small interfering RNA-mediated FOXO-1 knockdown reversed insulin resistance and restored endothelial nitric oxide synthase activation in the obese. We observed profound endothelial insulin resistance in the visceral adipose tissue of obese humans which improved with FOXO-1 inhibition. FOXO-1 modulation may represent a novel therapeutic target to diminish vascular insulin resistance. In addition, characterization of endothelial insulin resistance in the adipose microenvironment may provide clues to mechanisms of systemic disease in human obesity. OBJECTIVE—Increased visceral adiposity has been closely linked to insulin resistance, endothelial dysfunction, and cardiometabolic disease in obesity, but pathophysiological mechanisms are poorly understood. We sought to investigate mechanisms of vascular insulin resistance by characterizing depot-specific insulin responses and gain evidence that altered functionality of transcription factor forkhead box O-1 (FOXO-1) may play an important role in obesity-related endothelial dysfunction. APPROACH AND RESULTS—We intraoperatively collected paired subcutaneous and visceral adipose tissue samples from 56 severely obese (body mass index, 43±7 kg/m) and 14 nonobese subjects during planned surgical operations, and characterized depot-specific insulin-mediated responses using Western blot and quantitative immunofluorescence techniques. Insulin signaling via phosphorylation of FOXO-1 and consequent endothelial nitric oxide synthase stimulation was selectively impaired in the visceral compared with subcutaneous adipose tissue and endothelial cells of obese subjects. In contrast, tissue actions of insulin were preserved in nonobese individuals. Pharmacological antagonism with AS1842856 and biological silencing using small interfering RNA–mediated FOXO-1 knockdown reversed insulin resistance and restored endothelial nitric oxide synthase activation in the obese. CONCLUSIONS—We observed profound endothelial insulin resistance in the visceral adipose tissue of obese humans which improved with FOXO-1 inhibition. FOXO-1 modulation may represent a novel therapeutic target to diminish vascular insulin resistance. In addition, characterization of endothelial insulin resistance in the adipose microenvironment may provide clues to mechanisms of systemic disease in human obesity.
Author	Ngo, Doan T.M. Karki, Shakun Carmine, Brian Gokce, Noyan Farb, Melissa G. Hamburg, Naomi M. Hess, Donald T. Myers, Samantha Puri, Vishwajeet
AuthorAffiliation	From the Evans Department of Medicine and Whitaker Cardiovascular Institute (S.K., M.G.F., D.T.M.N., S.M., V.P., N.M.H., N.G.) and Department of General Surgery (B.C., D.T.H.), Boston University School of Medicine, MA
AuthorAffiliation_xml	– name: From the Evans Department of Medicine and Whitaker Cardiovascular Institute (S.K., M.G.F., D.T.M.N., S.M., V.P., N.M.H., N.G.) and Department of General Surgery (B.C., D.T.H.), Boston University School of Medicine, MA – name: 2 Department of General Surgery, Boston University School of Medicine, Boston, MA – name: 1 Evans Department of Medicine and Whitaker Cardiovascular Institute, Boston University School of Medicine, Boston, MA
Author_xml	– sequence: 1 givenname: Shakun surname: Karki fullname: Karki, Shakun organization: From the Evans Department of Medicine and Whitaker Cardiovascular Institute (S.K., M.G.F., D.T.M.N., S.M., V.P., N.M.H., N.G.) and Department of General Surgery (B.C., D.T.H.), Boston University School of Medicine, MA – sequence: 2 givenname: Melissa surname: Farb middlename: G. fullname: Farb, Melissa G. – sequence: 3 givenname: Doan surname: Ngo middlename: T.M. fullname: Ngo, Doan T.M. – sequence: 4 givenname: Samantha surname: Myers fullname: Myers, Samantha – sequence: 5 givenname: Vishwajeet surname: Puri fullname: Puri, Vishwajeet – sequence: 6 givenname: Naomi surname: Hamburg middlename: M. fullname: Hamburg, Naomi M. – sequence: 7 givenname: Brian surname: Carmine fullname: Carmine, Brian – sequence: 8 givenname: Donald surname: Hess middlename: T. fullname: Hess, Donald T. – sequence: 9 givenname: Noyan surname: Gokce fullname: Gokce, Noyan
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Snippet	OBJECTIVE—Increased visceral adiposity has been closely linked to insulin resistance, endothelial dysfunction, and cardiometabolic disease in obesity, but... Increased visceral adiposity has been closely linked to insulin resistance, endothelial dysfunction, and cardiometabolic disease in obesity, but...
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SubjectTerms	Adult Delayed-Action Preparations Endothelial Cells - metabolism Endothelium, Vascular - physiopathology Enzyme Activation - drug effects Female Forkhead Box Protein O1 Forkhead Transcription Factors - antagonists & inhibitors Forkhead Transcription Factors - metabolism Humans Insulin - pharmacology Insulin Resistance - physiology Male Middle Aged Nitric Oxide Synthase Type III - metabolism Obesity - physiopathology Phosphorylation Quinolones - pharmacology
Title	Forkhead Box O-1 Modulation Improves Endothelial Insulin Resistance in Human Obesity
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