p300 or CBP is required for insulinstimulated glucose uptake in skeletal muscle and adipocytes

Vitor F. Martins; Samuel A. LaBarge; Alexandra Stanley; Kristoffer Svensson; Chao Wei Hung; Omer Keinan; Theodore P. Ciaraldi; Dion Banoian; Ji E. Park; Christina Ha; Byron Hetrick; Gretchen A. Meyer; Andrew Philp; Larry L. David; Robert R. Henry; Joseph E. Aslan; Alan R. Saltiel; Carrie E. McCurdy; Simon Schenk

doi:10.1172/jci.insight.141344

p300 or CBP is required for insulinstimulated glucose uptake in skeletal muscle and adipocytes

Vitor F. Martins, Samuel A. LaBarge, Alexandra Stanley, Kristoffer Svensson, Chao Wei Hung, Omer Keinan, Theodore P. Ciaraldi, Dion Banoian, Ji E. Park, Christina Ha, Byron Hetrick, Gretchen A. Meyer, Andrew Philp, Larry L. David, Robert R. Henry, Joseph E. Aslan, Alan R. Saltiel, Carrie E. McCurdy, Simon Schenk

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

Abstract

While current thinking posits that insulin signaling to glucose transporter 4 (GLUT4) exocytic translocation and glucose uptake in skeletal muscle and adipocytes is controlled by phosphorylation-based signaling, many proteins in this pathway are acetylated on lysine residues. However, the importance of acetylation and lysine acetyltransferases to insulin-stimulated glucose uptake is incompletely defined. Here, we demonstrate that combined loss of the acetyltransferases E1A binding protein p300 (p300) and cAMP response element binding protein binding protein (CBP) in mouse skeletal muscle caused a complete loss of insulin-stimulated glucose uptake. Similarly, brief (i.e., 1 hour) pharmacological inhibition of p300/CBP acetyltransferase activity recapitulated this phenotype in human and rodent myotubes, 3T3-L1 adipocytes, and mouse muscle. Mechanistically, these effects were due to p300/CBP-mediated regulation of GLUT4 exocytic translocation and occurred downstream of Akt signaling. Taken together, we highlight a fundamental role for acetylation and p300/CBP in the direct regulation of insulin-stimulated glucose transport in skeletal muscle and adipocytes.

Original language	English (US)
Article number	141344
Journal	JCI Insight
Volume	7
Issue number	1
DOIs	https://doi.org/10.1172/jci.insight.141344
State	Published - Jan 11 2022

ASJC Scopus subject areas

Medicine(all)

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10.1172/jci.insight.141344

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Martins, V. F., LaBarge, S. A., Stanley, A., Svensson, K., Hung, C. W., Keinan, O., Ciaraldi, T. P., Banoian, D., Park, J. E., Ha, C., Hetrick, B., Meyer, G. A., Philp, A., David, L. L., Henry, R. R., Aslan, J. E., Saltiel, A. R., McCurdy, C. E., & Schenk, S. (2022). p300 or CBP is required for insulinstimulated glucose uptake in skeletal muscle and adipocytes. JCI Insight, 7(1), [141344]. https://doi.org/10.1172/jci.insight.141344

Martins, VF, LaBarge, SA, Stanley, A, Svensson, K, Hung, CW, Keinan, O, Ciaraldi, TP, Banoian, D, Park, JE, Ha, C, Hetrick, B, Meyer, GA, Philp, A, David, LL, Henry, RR, Aslan, JE, Saltiel, AR, McCurdy, CE & Schenk, S 2022, 'p300 or CBP is required for insulinstimulated glucose uptake in skeletal muscle and adipocytes', JCI Insight, vol. 7, no. 1, 141344. https://doi.org/10.1172/jci.insight.141344

@article{ecb6f5cb57a143259a5aac08c5ec734a,

title = "p300 or CBP is required for insulinstimulated glucose uptake in skeletal muscle and adipocytes",

abstract = "While current thinking posits that insulin signaling to glucose transporter 4 (GLUT4) exocytic translocation and glucose uptake in skeletal muscle and adipocytes is controlled by phosphorylation-based signaling, many proteins in this pathway are acetylated on lysine residues. However, the importance of acetylation and lysine acetyltransferases to insulin-stimulated glucose uptake is incompletely defined. Here, we demonstrate that combined loss of the acetyltransferases E1A binding protein p300 (p300) and cAMP response element binding protein binding protein (CBP) in mouse skeletal muscle caused a complete loss of insulin-stimulated glucose uptake. Similarly, brief (i.e., 1 hour) pharmacological inhibition of p300/CBP acetyltransferase activity recapitulated this phenotype in human and rodent myotubes, 3T3-L1 adipocytes, and mouse muscle. Mechanistically, these effects were due to p300/CBP-mediated regulation of GLUT4 exocytic translocation and occurred downstream of Akt signaling. Taken together, we highlight a fundamental role for acetylation and p300/CBP in the direct regulation of insulin-stimulated glucose transport in skeletal muscle and adipocytes.",

author = "Martins, {Vitor F.} and LaBarge, {Samuel A.} and Alexandra Stanley and Kristoffer Svensson and Hung, {Chao Wei} and Omer Keinan and Ciaraldi, {Theodore P.} and Dion Banoian and Park, {Ji E.} and Christina Ha and Byron Hetrick and Meyer, {Gretchen A.} and Andrew Philp and David, {Larry L.} and Henry, {Robert R.} and Aslan, {Joseph E.} and Saltiel, {Alan R.} and McCurdy, {Carrie E.} and Simon Schenk",

note = "Funding Information: This work was supported, in part, by US NIH grants R56 DK131121 (to SS and CEM), R01 AG043120 and R21 AR072882 (to SS), T32 AR060712 and F30 DK115035 (to VFM), and T32 DK007494 (to AS and ARS); 1-18-pdf-094 from the American Diabetes Association (to CWH); a UCSD Frontiers of Innovation Scholars Program grant (to SS); Graduate Student Research Support from the UCSD Institute of Engineering in Medicine (to VFM); and postdoctoral fellowships from the Swiss National Science Foundation P2BSP3-165311 and the American Federation of Aging Research PD18120 (to KS). We thank the UCSD Neuroscience Microscopy Shared Facility (NS047101) for providing imaging support. Publisher Copyright: {\textcopyright} 2022, Martins et al.",

year = "2022",

month = jan,

day = "11",

doi = "10.1172/jci.insight.141344",

language = "English (US)",

volume = "7",

journal = "JCI insight",

issn = "2379-3708",

publisher = "The American Society for Clinical Investigation",

number = "1",

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TY - JOUR

T1 - p300 or CBP is required for insulinstimulated glucose uptake in skeletal muscle and adipocytes

AU - Martins, Vitor F.

AU - LaBarge, Samuel A.

AU - Stanley, Alexandra

AU - Svensson, Kristoffer

AU - Hung, Chao Wei

AU - Keinan, Omer

AU - Ciaraldi, Theodore P.

AU - Banoian, Dion

AU - Park, Ji E.

AU - Ha, Christina

AU - Hetrick, Byron

AU - Meyer, Gretchen A.

AU - Philp, Andrew

AU - David, Larry L.

AU - Henry, Robert R.

AU - Aslan, Joseph E.

AU - Saltiel, Alan R.

AU - McCurdy, Carrie E.

AU - Schenk, Simon

N1 - Funding Information: This work was supported, in part, by US NIH grants R56 DK131121 (to SS and CEM), R01 AG043120 and R21 AR072882 (to SS), T32 AR060712 and F30 DK115035 (to VFM), and T32 DK007494 (to AS and ARS); 1-18-pdf-094 from the American Diabetes Association (to CWH); a UCSD Frontiers of Innovation Scholars Program grant (to SS); Graduate Student Research Support from the UCSD Institute of Engineering in Medicine (to VFM); and postdoctoral fellowships from the Swiss National Science Foundation P2BSP3-165311 and the American Federation of Aging Research PD18120 (to KS). We thank the UCSD Neuroscience Microscopy Shared Facility (NS047101) for providing imaging support. Publisher Copyright: © 2022, Martins et al.

PY - 2022/1/11

Y1 - 2022/1/11

N2 - While current thinking posits that insulin signaling to glucose transporter 4 (GLUT4) exocytic translocation and glucose uptake in skeletal muscle and adipocytes is controlled by phosphorylation-based signaling, many proteins in this pathway are acetylated on lysine residues. However, the importance of acetylation and lysine acetyltransferases to insulin-stimulated glucose uptake is incompletely defined. Here, we demonstrate that combined loss of the acetyltransferases E1A binding protein p300 (p300) and cAMP response element binding protein binding protein (CBP) in mouse skeletal muscle caused a complete loss of insulin-stimulated glucose uptake. Similarly, brief (i.e., 1 hour) pharmacological inhibition of p300/CBP acetyltransferase activity recapitulated this phenotype in human and rodent myotubes, 3T3-L1 adipocytes, and mouse muscle. Mechanistically, these effects were due to p300/CBP-mediated regulation of GLUT4 exocytic translocation and occurred downstream of Akt signaling. Taken together, we highlight a fundamental role for acetylation and p300/CBP in the direct regulation of insulin-stimulated glucose transport in skeletal muscle and adipocytes.

AB - While current thinking posits that insulin signaling to glucose transporter 4 (GLUT4) exocytic translocation and glucose uptake in skeletal muscle and adipocytes is controlled by phosphorylation-based signaling, many proteins in this pathway are acetylated on lysine residues. However, the importance of acetylation and lysine acetyltransferases to insulin-stimulated glucose uptake is incompletely defined. Here, we demonstrate that combined loss of the acetyltransferases E1A binding protein p300 (p300) and cAMP response element binding protein binding protein (CBP) in mouse skeletal muscle caused a complete loss of insulin-stimulated glucose uptake. Similarly, brief (i.e., 1 hour) pharmacological inhibition of p300/CBP acetyltransferase activity recapitulated this phenotype in human and rodent myotubes, 3T3-L1 adipocytes, and mouse muscle. Mechanistically, these effects were due to p300/CBP-mediated regulation of GLUT4 exocytic translocation and occurred downstream of Akt signaling. Taken together, we highlight a fundamental role for acetylation and p300/CBP in the direct regulation of insulin-stimulated glucose transport in skeletal muscle and adipocytes.

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DO - 10.1172/jci.insight.141344

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AN - SCOPUS:85123061532

SN - 2379-3708

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JO - JCI insight

JF - JCI insight

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ER -

p300 or CBP is required for insulinstimulated glucose uptake in skeletal muscle and adipocytes

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