Effect of short-term free fatty acids elevation on mitochondrial function in skeletal muscle of healthy individuals

Alberto O. Chavez; Subhash Kamath; Rucha Jani; Lokendra K. Sharma; Adriana Monroy; Muhammad A. Abdul-Ghani; Victoria E. Centonze; Padma Sathyanarayana; Dawn K. Coletta; Cristopher P. Jenkinson; Yidong Bai; Franco Folli; Ralph A. DeFronzo; Devjit Tripathy

doi:10.1210/jc.2009-1387

Effect of short-term free fatty acids elevation on mitochondrial function in skeletal muscle of healthy individuals

Alberto O. Chavez, Subhash Kamath, Rucha Jani, Lokendra K. Sharma, Adriana Monroy, Muhammad A. Abdul-Ghani, Victoria E. Centonze, Padma Sathyanarayana, Dawn K. Coletta, Cristopher P. Jenkinson, Yidong Bai, Franco Folli, Ralph A. DeFronzo, Devjit Tripathy

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

Context: Mitochondrial dysfunction has been proposed as an underlying mechanism in the pathogenesis of insulin resistance and type 2 diabetes mellitus. Objective: To determine whether mitochondrial dysfunction plays a role in the free fatty acid (FFA)-induced impairment in insulin action in skeletal muscle of healthy subjects. Design: Eleven lean normal glucose tolerant individuals received 8 h lipid and saline infusion on separate days with a euglycemic insulin clamp during the last 2 h. Vastus lateralis muscle biopsies were performed at baseline and after 6 h lipid or saline infusion. Inner mitochondrial membrane potential (ψ_m) and mitochondrial mass were determined ex vivo by confocal microscopy. Results: Compared with saline infusion, lipid infusion reduced whole-body glucose uptake by 22% (P<0.05). ψ_m decreased by 33%(P<0.005) after lipid infusion and the decrement in ψ_m correlated with change in plasma FFA after lipid infusion (r = 0.753; P < 0.005). Mitochondrial content and morphology did not change after lipid infusion. No significant changes in genes expression, citrate synthase activity, and total ATP content were observed after either lipid or saline infusion. Conclusions: Short-term physiological increase in plasma FFA concentration in lean normal glucose tolerant subjects induces insulin resistance and impairs mitochondrial membrane potential but has no significant effects on mitochondrial content, gene expression, ATP content, or citrate synthase activity.

Original language	English (US)
Pages (from-to)	422-429
Number of pages	8
Journal	Journal of Clinical Endocrinology and Metabolism
Volume	95
Issue number	1
DOIs	https://doi.org/10.1210/jc.2009-1387
State	Published - Jan 2010
Externally published	Yes

ASJC Scopus subject areas

Endocrinology, Diabetes and Metabolism
Biochemistry
Endocrinology
Clinical Biochemistry
Biochemistry, medical

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10.1210/jc.2009-1387

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Chavez, A. O., Kamath, S., Jani, R., Sharma, L. K., Monroy, A., Abdul-Ghani, M. A., Centonze, V. E., Sathyanarayana, P., Coletta, D. K., Jenkinson, C. P., Bai, Y., Folli, F., DeFronzo, R. A., & Tripathy, D. (2010). Effect of short-term free fatty acids elevation on mitochondrial function in skeletal muscle of healthy individuals. Journal of Clinical Endocrinology and Metabolism, 95(1), 422-429. https://doi.org/10.1210/jc.2009-1387

Chavez, AO, Kamath, S, Jani, R, Sharma, LK, Monroy, A, Abdul-Ghani, MA, Centonze, VE, Sathyanarayana, P, Coletta, DK, Jenkinson, CP, Bai, Y, Folli, F, DeFronzo, RA & Tripathy, D 2010, 'Effect of short-term free fatty acids elevation on mitochondrial function in skeletal muscle of healthy individuals', Journal of Clinical Endocrinology and Metabolism, vol. 95, no. 1, pp. 422-429. https://doi.org/10.1210/jc.2009-1387

@article{808ec294781e46ef8b5c73306d7ccef8,

title = "Effect of short-term free fatty acids elevation on mitochondrial function in skeletal muscle of healthy individuals",

abstract = "Context: Mitochondrial dysfunction has been proposed as an underlying mechanism in the pathogenesis of insulin resistance and type 2 diabetes mellitus. Objective: To determine whether mitochondrial dysfunction plays a role in the free fatty acid (FFA)-induced impairment in insulin action in skeletal muscle of healthy subjects. Design: Eleven lean normal glucose tolerant individuals received 8 h lipid and saline infusion on separate days with a euglycemic insulin clamp during the last 2 h. Vastus lateralis muscle biopsies were performed at baseline and after 6 h lipid or saline infusion. Inner mitochondrial membrane potential (ψm) and mitochondrial mass were determined ex vivo by confocal microscopy. Results: Compared with saline infusion, lipid infusion reduced whole-body glucose uptake by 22% (P<0.05). ψm decreased by 33%(P<0.005) after lipid infusion and the decrement in ψm correlated with change in plasma FFA after lipid infusion (r = 0.753; P < 0.005). Mitochondrial content and morphology did not change after lipid infusion. No significant changes in genes expression, citrate synthase activity, and total ATP content were observed after either lipid or saline infusion. Conclusions: Short-term physiological increase in plasma FFA concentration in lean normal glucose tolerant subjects induces insulin resistance and impairs mitochondrial membrane potential but has no significant effects on mitochondrial content, gene expression, ATP content, or citrate synthase activity.",

author = "Chavez, {Alberto O.} and Subhash Kamath and Rucha Jani and Sharma, {Lokendra K.} and Adriana Monroy and Abdul-Ghani, {Muhammad A.} and Centonze, {Victoria E.} and Padma Sathyanarayana and Coletta, {Dawn K.} and Jenkinson, {Cristopher P.} and Yidong Bai and Franco Folli and DeFronzo, {Ralph A.} and Devjit Tripathy",

note = "Funding Information: This study was funded in part by a GCRC CREF grant (D.T.) and National Institutes of Health Grant DK-24092 (R.A.D.) . Images were generated in the Core Optical Imaging Facility, which is supported by University of Texas Health Science Center at San Antonio , NIH-NCI P30 CA54174 (San Antonio Cancer Institute), NIH-NIA P30 AG013319 (Nathan Shock Center), and (NIH-NIA P01AG19316) . A.O.C. was supported by a Mentor-Based Postdoctoral Fellowship from the American Diabetes Association awarded to R.A.D. ",

year = "2010",

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doi = "10.1210/jc.2009-1387",

language = "English (US)",

volume = "95",

pages = "422--429",

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T1 - Effect of short-term free fatty acids elevation on mitochondrial function in skeletal muscle of healthy individuals

AU - Chavez, Alberto O.

AU - Kamath, Subhash

AU - Jani, Rucha

AU - Sharma, Lokendra K.

AU - Monroy, Adriana

AU - Abdul-Ghani, Muhammad A.

AU - Centonze, Victoria E.

AU - Sathyanarayana, Padma

AU - Coletta, Dawn K.

AU - Jenkinson, Cristopher P.

AU - Bai, Yidong

AU - Folli, Franco

AU - DeFronzo, Ralph A.

AU - Tripathy, Devjit

N1 - Funding Information: This study was funded in part by a GCRC CREF grant (D.T.) and National Institutes of Health Grant DK-24092 (R.A.D.) . Images were generated in the Core Optical Imaging Facility, which is supported by University of Texas Health Science Center at San Antonio , NIH-NCI P30 CA54174 (San Antonio Cancer Institute), NIH-NIA P30 AG013319 (Nathan Shock Center), and (NIH-NIA P01AG19316) . A.O.C. was supported by a Mentor-Based Postdoctoral Fellowship from the American Diabetes Association awarded to R.A.D.

PY - 2010/1

Y1 - 2010/1

N2 - Context: Mitochondrial dysfunction has been proposed as an underlying mechanism in the pathogenesis of insulin resistance and type 2 diabetes mellitus. Objective: To determine whether mitochondrial dysfunction plays a role in the free fatty acid (FFA)-induced impairment in insulin action in skeletal muscle of healthy subjects. Design: Eleven lean normal glucose tolerant individuals received 8 h lipid and saline infusion on separate days with a euglycemic insulin clamp during the last 2 h. Vastus lateralis muscle biopsies were performed at baseline and after 6 h lipid or saline infusion. Inner mitochondrial membrane potential (ψm) and mitochondrial mass were determined ex vivo by confocal microscopy. Results: Compared with saline infusion, lipid infusion reduced whole-body glucose uptake by 22% (P<0.05). ψm decreased by 33%(P<0.005) after lipid infusion and the decrement in ψm correlated with change in plasma FFA after lipid infusion (r = 0.753; P < 0.005). Mitochondrial content and morphology did not change after lipid infusion. No significant changes in genes expression, citrate synthase activity, and total ATP content were observed after either lipid or saline infusion. Conclusions: Short-term physiological increase in plasma FFA concentration in lean normal glucose tolerant subjects induces insulin resistance and impairs mitochondrial membrane potential but has no significant effects on mitochondrial content, gene expression, ATP content, or citrate synthase activity.

AB - Context: Mitochondrial dysfunction has been proposed as an underlying mechanism in the pathogenesis of insulin resistance and type 2 diabetes mellitus. Objective: To determine whether mitochondrial dysfunction plays a role in the free fatty acid (FFA)-induced impairment in insulin action in skeletal muscle of healthy subjects. Design: Eleven lean normal glucose tolerant individuals received 8 h lipid and saline infusion on separate days with a euglycemic insulin clamp during the last 2 h. Vastus lateralis muscle biopsies were performed at baseline and after 6 h lipid or saline infusion. Inner mitochondrial membrane potential (ψm) and mitochondrial mass were determined ex vivo by confocal microscopy. Results: Compared with saline infusion, lipid infusion reduced whole-body glucose uptake by 22% (P<0.05). ψm decreased by 33%(P<0.005) after lipid infusion and the decrement in ψm correlated with change in plasma FFA after lipid infusion (r = 0.753; P < 0.005). Mitochondrial content and morphology did not change after lipid infusion. No significant changes in genes expression, citrate synthase activity, and total ATP content were observed after either lipid or saline infusion. Conclusions: Short-term physiological increase in plasma FFA concentration in lean normal glucose tolerant subjects induces insulin resistance and impairs mitochondrial membrane potential but has no significant effects on mitochondrial content, gene expression, ATP content, or citrate synthase activity.

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Effect of short-term free fatty acids elevation on mitochondrial function in skeletal muscle of healthy individuals

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