Fatty acid-inducible ANGPTL4 governs lipid metabolic response to exercise

M. Catoire; S. Alex; N. Paraskevopulos; F. Mattijssen; I. Evers - van Gogh; G. Schaart; J. Jeppesen; A. Kneppers; M. Mensink; P.J. Voshol; G. Olivecrona; N.S. Tan; M.K. Hesselink; J.F. Berbee; P.C. Rensen; E. Kalkhoven; P. Schrauwen; S. Kersten

doi:10.1073/pnas.1400889111

Fatty acid-inducible ANGPTL4 governs lipid metabolic response to exercise

M. Catoire, S. Alex, N. Paraskevopulos, F. Mattijssen, I. Evers - van Gogh, G. Schaart, J. Jeppesen, A. Kneppers, M. Mensink, P.J. Voshol, G. Olivecrona, N.S. Tan, M.K. Hesselink, J.F. Berbee, P.C. Rensen, E. Kalkhoven, P. Schrauwen, S. Kersten^*

^*Corresponding author for this work

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

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Abstract

Physical activity increases energy metabolism in exercising muscle. Whether acute exercise elicits metabolic changes in nonexercising muscles remains unclear. We show that one of the few genes that is more highly induced in nonexercising muscle than in exercising human muscle during acute exercise encodes angiopoietin-like 4 (ANGPTL4), an inhibitor of lipoprotein lipase-mediated plasma triglyceride clearance. Using a combination of human, animal, and in vitro data, we show that induction of ANGPTL4 in nonexercising muscle is mediated by elevated plasma free fatty acids via peroxisome proliferator-activated receptor-delta, presumably leading to reduced local uptake of plasma triglyceride-derived fatty acids and their sparing for use by exercising muscle. In contrast, the induction of ANGPTL4 in exercising muscle likely is counteracted via AMP-activated protein kinase (AMPK)-mediated down-regulation, promoting the use of plasma triglycerides as fuel for active muscles. Our data suggest that nonexercising muscle and the local regulation of ANGPTL4 via AMPK and free fatty acids have key roles in governing lipid homeostasis during exercise.

Original language	English
Pages (from-to)	E1043-E1052
Number of pages	10
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	111
Issue number	11
DOIs	https://doi.org/10.1073/pnas.1400889111
Publication status	Published - 18 Mar 2014

Keywords

HUMAN SKELETAL-MUSCLE
ANGIOPOIETIN-LIKE PROTEIN-4
LIPOPROTEIN-LIPASE
ADIPOSE-TISSUE
INSULIN-RESISTANCE
POSTPRANDIAL TRIACYLGLYCEROL
ENDURANCE EXERCISE
IN-VIVO
EXPRESSION
RECEPTOR

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10.1073/pnas.1400889111

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Cite this

Catoire, M., Alex, S., Paraskevopulos, N., Mattijssen, F., Evers - van Gogh, I., Schaart, G., Jeppesen, J., Kneppers, A., Mensink, M., Voshol, P. J., Olivecrona, G., Tan, N. S., Hesselink, M. K., Berbee, J. F., Rensen, P. C., Kalkhoven, E., Schrauwen, P., & Kersten, S. (2014). Fatty acid-inducible ANGPTL4 governs lipid metabolic response to exercise. Proceedings of the National Academy of Sciences of the United States of America, 111(11), E1043-E1052. https://doi.org/10.1073/pnas.1400889111

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title = "Fatty acid-inducible ANGPTL4 governs lipid metabolic response to exercise",

abstract = "Physical activity increases energy metabolism in exercising muscle. Whether acute exercise elicits metabolic changes in nonexercising muscles remains unclear. We show that one of the few genes that is more highly induced in nonexercising muscle than in exercising human muscle during acute exercise encodes angiopoietin-like 4 (ANGPTL4), an inhibitor of lipoprotein lipase-mediated plasma triglyceride clearance. Using a combination of human, animal, and in vitro data, we show that induction of ANGPTL4 in nonexercising muscle is mediated by elevated plasma free fatty acids via peroxisome proliferator-activated receptor-delta, presumably leading to reduced local uptake of plasma triglyceride-derived fatty acids and their sparing for use by exercising muscle. In contrast, the induction of ANGPTL4 in exercising muscle likely is counteracted via AMP-activated protein kinase (AMPK)-mediated down-regulation, promoting the use of plasma triglycerides as fuel for active muscles. Our data suggest that nonexercising muscle and the local regulation of ANGPTL4 via AMPK and free fatty acids have key roles in governing lipid homeostasis during exercise.",

keywords = "HUMAN SKELETAL-MUSCLE, ANGIOPOIETIN-LIKE PROTEIN-4, LIPOPROTEIN-LIPASE, ADIPOSE-TISSUE, INSULIN-RESISTANCE, POSTPRANDIAL TRIACYLGLYCEROL, ENDURANCE EXERCISE, IN-VIVO, EXPRESSION, RECEPTOR",

author = "M. Catoire and S. Alex and N. Paraskevopulos and F. Mattijssen and {Evers - van Gogh}, I. and G. Schaart and J. Jeppesen and A. Kneppers and M. Mensink and P.J. Voshol and G. Olivecrona and N.S. Tan and M.K. Hesselink and J.F. Berbee and P.C. Rensen and E. Kalkhoven and P. Schrauwen and S. Kersten",

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doi = "10.1073/pnas.1400889111",

language = "English",

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Catoire, M, Alex, S, Paraskevopulos, N, Mattijssen, F, Evers - van Gogh, I, Schaart, G, Jeppesen, J, Kneppers, A, Mensink, M, Voshol, PJ, Olivecrona, G, Tan, NS, Hesselink, MK, Berbee, JF, Rensen, PC, Kalkhoven, E, Schrauwen, P & Kersten, S 2014, 'Fatty acid-inducible ANGPTL4 governs lipid metabolic response to exercise', Proceedings of the National Academy of Sciences of the United States of America, vol. 111, no. 11, pp. E1043-E1052. https://doi.org/10.1073/pnas.1400889111

TY - JOUR

T1 - Fatty acid-inducible ANGPTL4 governs lipid metabolic response to exercise

AU - Catoire, M.

AU - Alex, S.

AU - Paraskevopulos, N.

AU - Mattijssen, F.

AU - Evers - van Gogh, I.

AU - Schaart, G.

AU - Jeppesen, J.

AU - Kneppers, A.

AU - Mensink, M.

AU - Voshol, P.J.

AU - Olivecrona, G.

AU - Tan, N.S.

AU - Hesselink, M.K.

AU - Berbee, J.F.

AU - Rensen, P.C.

AU - Kalkhoven, E.

AU - Schrauwen, P.

AU - Kersten, S.

PY - 2014/3/18

Y1 - 2014/3/18

N2 - Physical activity increases energy metabolism in exercising muscle. Whether acute exercise elicits metabolic changes in nonexercising muscles remains unclear. We show that one of the few genes that is more highly induced in nonexercising muscle than in exercising human muscle during acute exercise encodes angiopoietin-like 4 (ANGPTL4), an inhibitor of lipoprotein lipase-mediated plasma triglyceride clearance. Using a combination of human, animal, and in vitro data, we show that induction of ANGPTL4 in nonexercising muscle is mediated by elevated plasma free fatty acids via peroxisome proliferator-activated receptor-delta, presumably leading to reduced local uptake of plasma triglyceride-derived fatty acids and their sparing for use by exercising muscle. In contrast, the induction of ANGPTL4 in exercising muscle likely is counteracted via AMP-activated protein kinase (AMPK)-mediated down-regulation, promoting the use of plasma triglycerides as fuel for active muscles. Our data suggest that nonexercising muscle and the local regulation of ANGPTL4 via AMPK and free fatty acids have key roles in governing lipid homeostasis during exercise.

AB - Physical activity increases energy metabolism in exercising muscle. Whether acute exercise elicits metabolic changes in nonexercising muscles remains unclear. We show that one of the few genes that is more highly induced in nonexercising muscle than in exercising human muscle during acute exercise encodes angiopoietin-like 4 (ANGPTL4), an inhibitor of lipoprotein lipase-mediated plasma triglyceride clearance. Using a combination of human, animal, and in vitro data, we show that induction of ANGPTL4 in nonexercising muscle is mediated by elevated plasma free fatty acids via peroxisome proliferator-activated receptor-delta, presumably leading to reduced local uptake of plasma triglyceride-derived fatty acids and their sparing for use by exercising muscle. In contrast, the induction of ANGPTL4 in exercising muscle likely is counteracted via AMP-activated protein kinase (AMPK)-mediated down-regulation, promoting the use of plasma triglycerides as fuel for active muscles. Our data suggest that nonexercising muscle and the local regulation of ANGPTL4 via AMPK and free fatty acids have key roles in governing lipid homeostasis during exercise.

KW - HUMAN SKELETAL-MUSCLE

KW - ANGIOPOIETIN-LIKE PROTEIN-4

KW - LIPOPROTEIN-LIPASE

KW - ADIPOSE-TISSUE

KW - INSULIN-RESISTANCE

KW - POSTPRANDIAL TRIACYLGLYCEROL

KW - ENDURANCE EXERCISE

KW - IN-VIVO

KW - EXPRESSION

KW - RECEPTOR

U2 - 10.1073/pnas.1400889111

DO - 10.1073/pnas.1400889111

M3 - Article

C2 - 24591600

SN - 0027-8424

VL - 111

SP - E1043-E1052

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 11

ER -