AJP - Cell Physiology, Vol 273, Issue 2 C741-C746, Copyright © 1997 by American Physiological Society

ARTICLES

Differential effects of creatine kinase isoenzymes and substrates on regeneration in livers of transgenic mice

N. Askenasy and A. P. Koretsky
Department of Biological Sciences, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213, USA.

Creatine kinase (CK) has been implicated in affecting cell growth, and the CK substrates creatine (Cr) and cyclocreatine (CyCr) have been shown to have anti-tumor activity. The influence of Cr and CyCr on liver regeneration following major hepatectomy was evaluated in normal and transgenic mice expressing the human ubiquitous mitochondrial isoform of CK (CK-mit) or the brain isoform of CK (CK-B) or livers expressing both CK-mit and CK-B (CK-comb). Expression of CK isoenzymes had little effect on liver regeneration in the absence of dietary supplementation with Cr or CyCr as assayed by the increase in liver mass. Dietary supplementation with Cr and CyCr significantly reduced liver growth in normal mice. Liver regeneration was almost completely inhibited in mice expressing CK-mit in the presence of Cr. Livers expressing CK-mit regenerated better than normal livers in the presence of CyCr. In mice expressing CK-B, Cr and CyCr had opposite effects from those found in CK-mit mice. In the presence of CyCr, regeneration was inhibited in livers expressing CK-B, and, in the presence of Cr, CK-B-expressing livers regenerated better than normal livers. The amount of DNA synthesized 2 days after hepatectomy confirmed the results obtained from measurements of liver mass for all groups. Growth and DNA synthesis were completely abolished by Cr in CK-mit mice, whereas CyCr mainly affected growth 2 days after hepatectomy in CK-B-expressing mice. Coexpression of the CK isoforms in CK-comb mice ameliorated the effects detected with either isoform alone. Inhibition of growth by Cr and CyCr was not correlated to water accumulation. These results clearly demonstrate isoenzyme and substrate-specific effects of CK on cell growth.

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