Determinants of increased muscle insulin sensitivity of exercise-trained versus sedentary normal weight and overweight individuals

Dominik Pesta; Evrim Anadol-Schmitz; Theresia Sarabhai; Yvo op den Kamp; Sofiya Gancheva; Nina Trinks; Oana-Patricia Zaharia; Lucia Mastrototaro; Kun Lyu; Ivo Habets; Yvonne M. H. op den Kamp-bruls; Bedair Dewidar; Juergen Weiss; Vera Schrauwen-Hinderling; Dongyan Zhang; Rafael Calais Gaspar; Klaus Strassburger; Yuliya Kupriyanova; Hadi Al-Hasani; Julia Szendroedi; Patrick Schrauwen; Esther Phielix; Gerald I. Shulman; Michael Roden

doi:10.1126/sciadv.adr8849

Determinants of increased muscle insulin sensitivity of exercise-trained versus sedentary normal weight and overweight individuals

Dominik Pesta, Evrim Anadol-Schmitz, Theresia Sarabhai, Yvo op den Kamp, Sofiya Gancheva, Nina Trinks, Oana-Patricia Zaharia, Lucia Mastrototaro, Kun Lyu, Ivo Habets, Yvonne M. H. op den Kamp-bruls, Bedair Dewidar, Juergen Weiss, Vera Schrauwen-Hinderling, Dongyan Zhang, Rafael Calais Gaspar, Klaus Strassburger, Yuliya Kupriyanova, Hadi Al-Hasani, Julia SzendroediPatrick Schrauwen, Esther Phielix, Gerald I. Shulman, Michael Roden^*

^*Corresponding author for this work

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

Abstract

The athlete's paradox states that intramyocellular triglyceride accumulation associates with insulin resistance in sedentary but not in endurance-trained humans. Underlying mechanisms and the role of muscle lipid distribution and composition on glucose metabolism remain unclear. We compared highly trained athletes (ATHL) with sedentary normal weight (LEAN) and overweight-to-obese (OVWE) male and female individuals. This observational study found that ATHL show higher insulin sensitivity, muscle mitochondrial content, and capacity, but lower activation of novel protein kinase C (nPKC) isoforms, despite higher diacylglycerol concentrations. Notably, sedentary but insulin sensitive OVWE feature lower plasma membrane-to-mitochondria sn-1,2-diacylglycerol ratios. In ATHL, calpain-2, which cleaves nPKC, negatively associates with PKCε activation and positively with insulin sensitivity along with higher GLUT4 and hexokinase II content. These findings contribute to explaining the athletes' paradox by demonstrating lower nPKC activation, increased calpain, and mitochondrial partitioning of bioactive diacylglycerols, the latter further identifying an obesity subtype with increased insulin sensitivity (NCT03314714).

Original language	English
Article number	eadr8849
Number of pages	17
Journal	Science advances
Volume	11
Issue number	1
DOIs	https://doi.org/10.1126/sciadv.adr8849
Publication status	Published - 3 Jan 2025

Keywords

PROTEIN-KINASE-C
TYPE-2 DIABETES PATIENTS
SKELETAL-MUSCLE
LIPID-CONTENT
FIBER-TYPE
MITOCHONDRIAL DYSFUNCTION
INTRAMYOCELLULAR LIPIDS
INDIRECT CALORIMETRY
SUBSTRATE OXIDATION
GLYCOGEN-SYNTHASE

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Pesta, D., Anadol-Schmitz, E., Sarabhai, T., op den Kamp, Y., Gancheva, S., Trinks, N., Zaharia, O.-P., Mastrototaro, L., Lyu, K., Habets, I., op den Kamp-bruls, Y. M. H., Dewidar, B., Weiss, J., Schrauwen-Hinderling, V., Zhang, D., Gaspar, R. C., Strassburger, K., Kupriyanova, Y., Al-Hasani, H., ... Roden, M. (2025). Determinants of increased muscle insulin sensitivity of exercise-trained versus sedentary normal weight and overweight individuals. Science advances, 11(1), Article eadr8849. https://doi.org/10.1126/sciadv.adr8849

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title = "Determinants of increased muscle insulin sensitivity of exercise-trained versus sedentary normal weight and overweight individuals",

abstract = "The athlete's paradox states that intramyocellular triglyceride accumulation associates with insulin resistance in sedentary but not in endurance-trained humans. Underlying mechanisms and the role of muscle lipid distribution and composition on glucose metabolism remain unclear. We compared highly trained athletes (ATHL) with sedentary normal weight (LEAN) and overweight-to-obese (OVWE) male and female individuals. This observational study found that ATHL show higher insulin sensitivity, muscle mitochondrial content, and capacity, but lower activation of novel protein kinase C (nPKC) isoforms, despite higher diacylglycerol concentrations. Notably, sedentary but insulin sensitive OVWE feature lower plasma membrane-to-mitochondria sn-1,2-diacylglycerol ratios. In ATHL, calpain-2, which cleaves nPKC, negatively associates with PKCε activation and positively with insulin sensitivity along with higher GLUT4 and hexokinase II content. These findings contribute to explaining the athletes' paradox by demonstrating lower nPKC activation, increased calpain, and mitochondrial partitioning of bioactive diacylglycerols, the latter further identifying an obesity subtype with increased insulin sensitivity (NCT03314714).",

keywords = "PROTEIN-KINASE-C, TYPE-2 DIABETES PATIENTS, SKELETAL-MUSCLE, LIPID-CONTENT, FIBER-TYPE, MITOCHONDRIAL DYSFUNCTION, INTRAMYOCELLULAR LIPIDS, INDIRECT CALORIMETRY, SUBSTRATE OXIDATION, GLYCOGEN-SYNTHASE",

author = "Dominik Pesta and Evrim Anadol-Schmitz and Theresia Sarabhai and {op den Kamp}, Yvo and Sofiya Gancheva and Nina Trinks and Oana-Patricia Zaharia and Lucia Mastrototaro and Kun Lyu and Ivo Habets and {op den Kamp-bruls}, {Yvonne M. H.} and Bedair Dewidar and Juergen Weiss and Vera Schrauwen-Hinderling and Dongyan Zhang and Gaspar, {Rafael Calais} and Klaus Strassburger and Yuliya Kupriyanova and Hadi Al-Hasani and Julia Szendroedi and Patrick Schrauwen and Esther Phielix and Shulman, {Gerald I.} and Michael Roden",

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doi = "10.1126/sciadv.adr8849",

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Pesta, D, Anadol-Schmitz, E, Sarabhai, T, op den Kamp, Y, Gancheva, S, Trinks, N, Zaharia, O-P, Mastrototaro, L, Lyu, K, Habets, I , op den Kamp-bruls, YMH, Dewidar, B, Weiss, J, Schrauwen-Hinderling, V, Zhang, D, Gaspar, RC, Strassburger, K, Kupriyanova, Y, Al-Hasani, H, Szendroedi, J, Schrauwen, P, Phielix, E, Shulman, GI & Roden, M 2025, 'Determinants of increased muscle insulin sensitivity of exercise-trained versus sedentary normal weight and overweight individuals', Science advances, vol. 11, no. 1, eadr8849. https://doi.org/10.1126/sciadv.adr8849

TY - JOUR

T1 - Determinants of increased muscle insulin sensitivity of exercise-trained versus sedentary normal weight and overweight individuals

AU - Pesta, Dominik

AU - Anadol-Schmitz, Evrim

AU - Sarabhai, Theresia

AU - op den Kamp, Yvo

AU - Gancheva, Sofiya

AU - Trinks, Nina

AU - Zaharia, Oana-Patricia

AU - Mastrototaro, Lucia

AU - Lyu, Kun

AU - Habets, Ivo

AU - op den Kamp-bruls, Yvonne M. H.

AU - Dewidar, Bedair

AU - Weiss, Juergen

AU - Schrauwen-Hinderling, Vera

AU - Zhang, Dongyan

AU - Gaspar, Rafael Calais

AU - Strassburger, Klaus

AU - Kupriyanova, Yuliya

AU - Al-Hasani, Hadi

AU - Szendroedi, Julia

AU - Schrauwen, Patrick

AU - Phielix, Esther

AU - Shulman, Gerald I.

AU - Roden, Michael

PY - 2025/1/3

Y1 - 2025/1/3

N2 - The athlete's paradox states that intramyocellular triglyceride accumulation associates with insulin resistance in sedentary but not in endurance-trained humans. Underlying mechanisms and the role of muscle lipid distribution and composition on glucose metabolism remain unclear. We compared highly trained athletes (ATHL) with sedentary normal weight (LEAN) and overweight-to-obese (OVWE) male and female individuals. This observational study found that ATHL show higher insulin sensitivity, muscle mitochondrial content, and capacity, but lower activation of novel protein kinase C (nPKC) isoforms, despite higher diacylglycerol concentrations. Notably, sedentary but insulin sensitive OVWE feature lower plasma membrane-to-mitochondria sn-1,2-diacylglycerol ratios. In ATHL, calpain-2, which cleaves nPKC, negatively associates with PKCε activation and positively with insulin sensitivity along with higher GLUT4 and hexokinase II content. These findings contribute to explaining the athletes' paradox by demonstrating lower nPKC activation, increased calpain, and mitochondrial partitioning of bioactive diacylglycerols, the latter further identifying an obesity subtype with increased insulin sensitivity (NCT03314714).

AB - The athlete's paradox states that intramyocellular triglyceride accumulation associates with insulin resistance in sedentary but not in endurance-trained humans. Underlying mechanisms and the role of muscle lipid distribution and composition on glucose metabolism remain unclear. We compared highly trained athletes (ATHL) with sedentary normal weight (LEAN) and overweight-to-obese (OVWE) male and female individuals. This observational study found that ATHL show higher insulin sensitivity, muscle mitochondrial content, and capacity, but lower activation of novel protein kinase C (nPKC) isoforms, despite higher diacylglycerol concentrations. Notably, sedentary but insulin sensitive OVWE feature lower plasma membrane-to-mitochondria sn-1,2-diacylglycerol ratios. In ATHL, calpain-2, which cleaves nPKC, negatively associates with PKCε activation and positively with insulin sensitivity along with higher GLUT4 and hexokinase II content. These findings contribute to explaining the athletes' paradox by demonstrating lower nPKC activation, increased calpain, and mitochondrial partitioning of bioactive diacylglycerols, the latter further identifying an obesity subtype with increased insulin sensitivity (NCT03314714).

KW - PROTEIN-KINASE-C

KW - TYPE-2 DIABETES PATIENTS

KW - SKELETAL-MUSCLE

KW - LIPID-CONTENT

KW - FIBER-TYPE

KW - MITOCHONDRIAL DYSFUNCTION

KW - INTRAMYOCELLULAR LIPIDS

KW - INDIRECT CALORIMETRY

KW - SUBSTRATE OXIDATION

KW - GLYCOGEN-SYNTHASE

U2 - 10.1126/sciadv.adr8849

DO - 10.1126/sciadv.adr8849

M3 - Article

SN - 2375-2548

VL - 11

JO - Science advances

JF - Science advances

IS - 1

M1 - eadr8849

ER -

Determinants of increased muscle insulin sensitivity of exercise-trained versus sedentary normal weight and overweight individuals

Abstract

Keywords

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