Title of article
Ranolazine Increases Active Pyruvate Dehydrogenase in Perfused Normoxic Rat Hearts: Evidence for an Indirect Mechanism
Author/Authors
Brendan Clarke، نويسنده , , Katrina M. Wyatt، نويسنده , , James G. McCormack، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1996
Pages
10
From page
341
To page
350
Abstract
Ranolazine has shown anti-anginal efficacy in humans and cardiac anti-ischaemic activity in models, but without affecting haemodynamics or baseline contraction. In isolated normoxic rat hearts, Langendorff-perfused for 30 min with 11 m glucose, 3 % albumin, and 0.4 m or 0.8 m palmitate, 20μ ranolazine significantly increased active, dephosphorylated, pyruvate dehydrogenase (PDHa), but not with no palmitate or 1.2 m palmitate. Dichloroactetate (DCA, 1 m ), a PDHa kinase inhibitor, significantly increased PDHa in hearts perfused with 0, 0.4 or 0.8 m but not 1.2 m palmitate. PDHa was significantly increased with 1.2 m palmitate by DCA plus ranolazine, and additive effects were also seen at 0.8 m palmitate. Activation of PDH by ranolazine and promotion of glucose oxidation offers a plausible means by which the drug may be anti-ischaemic non-haemodynamically. Extensive studies with extracted enzymes and isolated rat heart mitochondria failed to demonstrate any effects of ranolazine on PDH kinase or phosphatase, or on PDH catalytic activity, whereas effects of other known effectors (such as DCA) were readily demonstrable, suggesting that ranolazine activates PDH indirectly. Further analyses of the hearts revealed that ranolazine reduced acetyl CoA content under all conditions where fatty acid was present, and ±DCA which itself had little effect. In the absence of fatty acid, ranolazine and /or DCA raised acetyl CoA. In perfusions where octanoate ( ±albumin) replaced palmitate, ranolazine still decreased acetyl CoA, but not when acetate replaced palmitate. In octanoate-perfused hearts, the contents of the C4, C6and C8CoA esters were all increased by ranolazine. This is consistent with ranolazine causing an inhibition of fatty acid beta-oxidation leading to decreased acetyl CoA and activation of PDH.
Keywords
Ranolazine , Pyruvate dehydrogenase , Pyruvate dehydrogenase phosphate phosphatase , Pyruvate dehydrogenase kinase , Beta-oxidation , Acetyl CoA , Metabolic modulation , mitochondria
Journal title
Journal of Molecular and Cellular Cardiology
Serial Year
1996
Journal title
Journal of Molecular and Cellular Cardiology
Record number
525369
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