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<jats:p> The individual functional significance of the various creatine kinase (CK) isoenzymes for myocardial energy homeostasis is poorly understood. Whereas transgenic hearts lacking the M subunit of CK (M-CK) show unaltered cardiac energetics and left ventricular (LV) performance, deletion of M-CK in combination with loss of sarcomeric mitochondrial CK (ScCKmit) leads to significant alterations in myocardial high-energy phosphate metabolites. To address the question as to whether this alteration is due to a decrease in total CK activity below a critical threshold or due to the specific loss of ScCKmit, we studied isolated perfused hearts with selective loss of ScCKmit (ScCKmit<jats:sup>−/−</jats:sup>, remaining total CK activity ∼70%) using<jats:sup>31</jats:sup>P NMR spectroscopy at two different workloads. LV performance in ScCKmit<jats:sup>−/−</jats:sup> hearts ( n = 11) was similar compared with wild-type hearts ( n = 9). Phosphocreatine/ATP, however, was significantly reduced in ScCKmit<jats:sup>−/−</jats:sup> compared with wild-type hearts (1.02 ± 0.05 vs. 1.54 ± 0.07, P &lt; 0.05). In parallel, free [ADP] was higher (144 ± 11 vs. 67 ± 7 μM, P &lt; 0.01) and free energy release for ATP hydrolysis (Δ G <jats:sub>ATP</jats:sub>) was lower (−55.8 ± 0.5 vs. −58.5 ± 0.5 kJ/mol, P &lt; 0.01) in ScCKmit<jats:sup>−/−</jats:sup> compared with wild-type hearts. These results demonstrate that M- and B-CK containing isoenzymes are unable to fully substitute for the loss of ScCKmit. We conclude that ScCKmit, in contrast to M-CK, is critically necessary to maintain normal high-energy phosphate metabolite levels in the heart. </jats:p>

Original publication

DOI

10.1152/ajpheart.00800.2001

Type

Journal article

Journal

American Journal of Physiology-Heart and Circulatory Physiology

Publisher

American Physiological Society

Publication Date

01/08/2002

Volume

283

Pages

H680 - H687