Hexokinase-mitochondrial interaction in cardiac tissue: implications for cardiac glucose uptake, the 18FDG lumped constant and cardiac protection

被引:0
作者
Richard Southworth
机构
[1] St. Thomas’ Hospital,Division of Imaging Sciences, King’s College London, The Rayne Institute
来源
Journal of Bioenergetics and Biomembranes | 2009年 / 41卷
关键词
Hexokinase; Akt; Mitochondria; Lumped constant; Apoptosis;
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摘要
The hexokinases are fundamental regulators of cardiac glucose uptake; by phosphorylating free intracellular glucose, they maintain the concentration gradient driving myocardial extraction of glucose from the bloodstream. Hexokinases are highly regulated proteins, subject to activation by insulin, hypoxia or ischaemia, and inhibition by their enzymatic product glucose-6-phosphate. In vitro and in many non-cardiac cell types, hexokinases have been shown to bind to the mitochondria, both increasing their phosphorylative capacity, and having a putative role in the anti-apoptotic function of protein kinase B (PKB)/Akt. Whether hexokinase-mitochondrial interaction is a dynamic and responsive process in the heart has been difficult to prove, but there is growing evidence that this association does indeed increase in response to insulin stimulation or ischaemia. In this review I discuss the relevance of hexokinase-mitochondrial interaction to cardiac glycolytic control, our interpretation of 18FDG cardiac PET scans, and its possible role in protecting the myocardium from ischaemic injury.
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页码:187 / 193
页数:6
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[51]  
Davey KA(2002)Translocation of myocardial GLUT-4 and increased glucose uptake through activation of AMPK by AICAR J. Biol. Chem. 277 7610-7618
[52]  
Garlick PB(1999)Compartmentation of hexokinase in rat heart American Journal of Physiology 277 H643-9
[53]  
Warley A(1992)Reactive oxygen species generation is modulated by mitochondrial kinases: correlation with mitochondrial antioxidant peroxidases in rat tissues A critical factor for tracer kinetic analysis of myocardial glucose metabolism. J Clin Invest 90 1972-7
[54]  
Southworth R(2008)Allosteric Regulation of Type I Hexokinase: A Site-Directed Mutational Study Indicating Location of the Functional Glucose 6-Phosphate Binding Site in the N-Terminal Half of the Enzyme Biochimie 90 1566-77
[55]  
de Cerqueira Cesar M(1999)A reevaluation of the roles of hexokinase I and II in the heart Archives of Biochemistry and Biophysics 362 203-210
[56]  
Wilson JE(2007)Dissociation of glucose tracer uptake and glucose transporter distribution in the regionally ischaemic isolated rat heart: application of a new autoradiographic technique Am J Physiol Heart Circ Physiol 292 H378-86
[57]  
Desagher S(2002)Dobutamine responsiveness, PET mismatch, and lack of necrosis in low-flow ischemia: is this hibernation in the isolated rat heart? Eur J Nucl Med Mol Imaging 29 1334-41
[58]  
Martinou J-C(2003)Myocardial Substrate Metabolism in the Normal and Failing Heart Am J Physiol Heart Circ Physiol 285 H316-24
[59]  
Doenst T(2005)Structural Determinants for the Intracellular Localization of the Isozymes of Mammalian Hexokinase: Intracellular Localization of Fusion Constructs Incorporating Structural Elements from the Hexokinase Isozymes and the Green Fluorescent Protein Physiol. Rev. 85 1093-1129
[60]  
Han Q(1997)Responses of GLUT4-Deficient Hearts to Ischemia Underscore the Importance of Glycolysis Archives of Biochemistry and Biophysics 345 111-125
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