Protein Kinase D1 Is Essential for Contraction-induced Glucose Uptake but Is Not Involved in Fatty Acid Uptake into Cardiomyocytes

Dirkx, Ellen; Schwenk, Robert W.; Coumans, Will A.; Hoebers, Nicole; Angın, Yeliz; Viollet, Benoı̂t; Bonen, Arend; Eys, Guillaume J.J.M. van; Glatz, Jan F. C.; Luiken, Joost J. F. P.

doi:10.1074/jbc.m111.281881

Cited by 36 publications

(71 citation statements)

References 29 publications

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“…Interestingly, PKD has already been linked to contraction-stimulated GLUT4 translocation independent of AMPK (17). Furthermore, we recently showed that PKD selectively increased GLUT4 translocation during contraction without increasing plasmalemmal CD36 (41). Therefore, our data indicate that PKD selectively increases GLUT4 translocation through a pathway involving VAMP3.…”

Section: Discussionmentioning

confidence: 55%

“…However, overexpression of the contraction-regulated VAMP3 not only prevented the loss of insulin-stimulated GLUT4 translocation, but also preserved normal CD36 distribution and lipid levels during the same adverse culture conditions. Recently, we established that PKD selectively enhances GLUT4 translocation during cardiomyocyte contraction without affecting CD36 distribution or fatty acid uptake (41). The binding of VAMP3 to phosphorylated PKD could serve as an explanation of how PKD selectively targets GLUT4 translocation and how exercise improves insulin-stimulated GLUT4 translocation under conditions of impaired insulin signaling.…”

Section: Discussionmentioning

confidence: 99%

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Overexpression of Vesicle-associated Membrane Protein (VAMP) 3, but Not VAMP2, Protects Glucose Transporter (GLUT) 4 Protein Translocation in an in Vitro Model of Cardiac Insulin Resistance

Schwenk

Angın

Steinbusch

et al. 2012

Journal of Biological Chemistry

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Background: GLUT4 translocation in cardiomyocytes is impaired during insulin resistance leading to insufficient glucose supply and eventually heart failure. Results: Cardiomyocytes overexpressing VAMP3 maintain full insulin-stimulated GLUT4 translocation and do not accumulate intramyocellular lipids. Conclusion: Overexpression of VAMP3 protects cardiac glucose metabolism under conditions of impaired insulin sensitivity. Significance: These data indicate a mechanism how contraction signaling improves insulin-dependent GLUT4 translocation.

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Section: Discussionmentioning

confidence: 55%

Section: Discussionmentioning

confidence: 99%

Overexpression of Vesicle-associated Membrane Protein (VAMP) 3, but Not VAMP2, Protects Glucose Transporter (GLUT) 4 Protein Translocation in an in Vitro Model of Cardiac Insulin Resistance

Schwenk

Angın

Steinbusch

et al. 2012

Journal of Biological Chemistry

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“…As a result, AICAR, which in contrast to oligomycin or 4-Hz stimulation does not activate protein kinase D1, can only be used to study AMPK-mediated LCFA uptake (10). Pretreatment of cardiomyocytes with STO-609 or KN93 did not alter AMPK-Thr 172 and ACC-Ser 97 phosphorylation induced by all three AMPK-activating stimuli (Fig.…”

Section: E228mentioning

confidence: 99%

Calcium signaling recruits substrate transporters GLUT4 and CD36 to the sarcolemma without increasing cardiac substrate uptake

Angın¹,

Schwenk²,

Nergiz-Unal³

et al. 2014

American Journal of Physiology-Endocrinology and Metabolism

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“…Whereas many signaling pathways have been shown to induce movement to the sarcolemma, to our best knowledge we are the first to show movement away. Forward transport to the sarcolemma and increased fatty acid uptake can be induced by AMPK, fatty acids, reactive oxygen species, insulin, and contraction 13,14,34,35 ; therefore, these can all be ruled out as mediating our changes in ischemia, and contraction can be ruled out at reperfusion. The location of FAT/CD36 is determined by the balance between forward movement to, and reverse movement away from, the sarcolemma 36 ; thus it could be that either pathway is affected in ischemia.…”

Section: Discussionmentioning

confidence: 99%

Differential Translocation of the Fatty Acid Transporter, FAT/CD36, and the Glucose Transporter, GLUT4, Coordinates Changes in Cardiac Substrate Metabolism During Ischemia and Reperfusion

Heather

Pates

Atherton

et al. 2013

Circ: Heart Failure

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Background— Fatty acid and glucose transporters translocate between the sarcolemma and intracellular compartments to regulate substrate metabolism acutely. We hypothesised that during ischemia fatty acid translocase (FAT/CD36) would translocate away from the sarcolemma to limit fatty acid uptake when fatty acid oxidation is inhibited. Methods and Results— Wistar rat hearts were perfused during preischemia, low-flow ischemia, and reperfusion, using 3 H-substrates for measurement of metabolic rates, followed by metabolomic analysis and subcellular fractionation. During ischemia, there was a 32% decrease in sarcolemmal FAT/CD36 accompanied by a 95% decrease in fatty acid oxidation rates, with no change in intramyocardial lipids. Concomitantly, the sarcolemmal content of the glucose transporter, GLUT4, increased by 90% during ischemia, associated with an 86% increase in glycolytic rates, 45% decrease in glycogen content, and a 3-fold increase in phosphorylated AMP-activated protein kinase. Following reperfusion, decreased sarcolemmal FAT/CD36 persisted, but fatty acid oxidation rates returned to preischemic levels, resulting in a 35% decrease in myocardial triglyceride content. Elevated sarcolemmal GLUT4 persisted during reperfusion; in contrast, glycolytic rates decreased to 30% of preischemic rates, accompanied by a 5-fold increase in intracellular citrate levels and restoration of glycogen content. Conclusions— During ischemia, FAT/CD36 moved away from the sarcolemma as GLUT4 moved toward the sarcolemma, associated with a shift from fatty acid oxidation to glycolysis, while intramyocardial lipid accumulation was prevented. This relocation was maintained during reperfusion, which was associated with replenishing glycogen stores as a priority, occurring at the expense of glycolysis and mediated by an increase in citrate levels.

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Protein Kinase D1 Is Essential for Contraction-induced Glucose Uptake but Is Not Involved in Fatty Acid Uptake into Cardiomyocytes

Cited by 36 publications

References 29 publications

Overexpression of Vesicle-associated Membrane Protein (VAMP) 3, but Not VAMP2, Protects Glucose Transporter (GLUT) 4 Protein Translocation in an in Vitro Model of Cardiac Insulin Resistance

Overexpression of Vesicle-associated Membrane Protein (VAMP) 3, but Not VAMP2, Protects Glucose Transporter (GLUT) 4 Protein Translocation in an in Vitro Model of Cardiac Insulin Resistance

Calcium signaling recruits substrate transporters GLUT4 and CD36 to the sarcolemma without increasing cardiac substrate uptake

Differential Translocation of the Fatty Acid Transporter, FAT/CD36, and the Glucose Transporter, GLUT4, Coordinates Changes in Cardiac Substrate Metabolism During Ischemia and Reperfusion

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