TY - JOUR
T1 - Insulin signaling requires glucose to promote lipid anabolism in adipocytes
AU - Krycer, James R.
AU - Quek, Lake Ee
AU - Francis, Deanne
AU - Zadoorian, Armella
AU - Weiss, Fiona C.
AU - Cooke, Kristen C.
AU - Nelson, Marin E.
AU - Diaz-Vegas, Alexis
AU - Humphrey, Sean J.
AU - Scalzo, Richard
AU - Hirayama, Akiyoshi
AU - Ikeda, Satsuki
AU - Shoji, Futaba
AU - Suzuki, Kumi
AU - Huynh, Kevin
AU - Giles, Corey
AU - Varney, Bianca
AU - Nagarajan, Shilpa R.
AU - Hoy, Andrew J.
AU - Soga, Tomoyoshi
AU - Meikle, Peter J.
AU - Cooney, Gregory J.
AU - Fazakerley, Daniel J.
AU - James, David E.
N1 - Funding Information:
Professorial Research Fellowship from the University of Sydney Medical School. D. E. J. and G. J. C. were also supported by National Health and Medical Research Council Project Grant GNT1086850. J. R. K. was supported by National Health and Medical Research Council Early Career Fellowship APP1072440, an Australian Diabetes Society Skip Martin Early-Career Fellowship, a Diabetes Australia Research Program grant, and a Charles Perkins Centre Early-Career Seed Funding Grant. D. F. was funded by a Diabetes Australia Research Program Grant and Charles Perkins Centre Early-Career Seed Funding Grant. A. H. was funded by the Research on Development of New Drugs (GAPFREE) from the Japan Agency for Medical Research and Development (AMED). T. S. was funded by the AMED–CREST from AMED. A. H. and T. S. were supported by funds from the Yamagata prefectural government and the City of Tsuruoka.
Publisher Copyright:
© 2020 American Society for Biochemistry and Molecular Biology Inc.. All rights reserved.
PY - 2020/9/18
Y1 - 2020/9/18
N2 - Adipose tissue is essential for metabolic homeostasis, balancing lipid storage and mobilization based on nutritional status. This is coordinated by insulin, which triggers kinase signaling cascades to modulate numerous metabolic proteins, leading to increased glucose uptake and anabolic processes like lipogenesis. Given recent evidence that glucose is dispensable for adipocyte respiration, we sought to test whether glucose is necessary for insulin-stimulated anabolism. Examining lipogenesis in cultured adipocytes, glucose was essential for insulin to stimulate the synthesis of fatty acids and glyceride–glycerol. Importantly, glucose was dispensable for lipogenesis in the absence of insulin, suggesting that distinct carbon sources are used with or without insulin. Metabolic tracing studies revealed that glucose was required for insulin to stimulate pathways providing carbon substrate, NADPH, and glycerol 3-phosphate for lipid synthesis and storage. Glucose also displaced leucine as a lipogenic substrate and was necessary to suppress fatty acid oxidation. Together, glucose provided substrates and metabolic control for insulin to promote lipogenesis in adipocytes. This contrasted with the suppression of lipolysis by insulin signaling, which occurred independently of glucose. Given previous observations that signal transduction acts primarily before glucose uptake in adipocytes, these data are consistent with a model whereby insulin initially utilizes protein phosphorylation to stimulate lipid anabolism, which is sustained by subsequent glucose metabolism. Consequently, lipid abundance was sensitive to glucose availability, both during adipogenesis and in Drosophila flies in vivo. Together, these data highlight the importance of glucose metabolism to support insulin action, providing a complementary regulatory mechanism to signal transduction to stimulate adipose anabolism.
AB - Adipose tissue is essential for metabolic homeostasis, balancing lipid storage and mobilization based on nutritional status. This is coordinated by insulin, which triggers kinase signaling cascades to modulate numerous metabolic proteins, leading to increased glucose uptake and anabolic processes like lipogenesis. Given recent evidence that glucose is dispensable for adipocyte respiration, we sought to test whether glucose is necessary for insulin-stimulated anabolism. Examining lipogenesis in cultured adipocytes, glucose was essential for insulin to stimulate the synthesis of fatty acids and glyceride–glycerol. Importantly, glucose was dispensable for lipogenesis in the absence of insulin, suggesting that distinct carbon sources are used with or without insulin. Metabolic tracing studies revealed that glucose was required for insulin to stimulate pathways providing carbon substrate, NADPH, and glycerol 3-phosphate for lipid synthesis and storage. Glucose also displaced leucine as a lipogenic substrate and was necessary to suppress fatty acid oxidation. Together, glucose provided substrates and metabolic control for insulin to promote lipogenesis in adipocytes. This contrasted with the suppression of lipolysis by insulin signaling, which occurred independently of glucose. Given previous observations that signal transduction acts primarily before glucose uptake in adipocytes, these data are consistent with a model whereby insulin initially utilizes protein phosphorylation to stimulate lipid anabolism, which is sustained by subsequent glucose metabolism. Consequently, lipid abundance was sensitive to glucose availability, both during adipogenesis and in Drosophila flies in vivo. Together, these data highlight the importance of glucose metabolism to support insulin action, providing a complementary regulatory mechanism to signal transduction to stimulate adipose anabolism.
UR - http://www.scopus.com/inward/record.url?scp=85091324322&partnerID=8YFLogxK
U2 - 10.1074/jbc.ra120.014907
DO - 10.1074/jbc.ra120.014907
M3 - Article
C2 - 32723868
AN - SCOPUS:85091324322
SN - 0021-9258
VL - 295
SP - 13250
EP - 13266
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 38
ER -