Anthracyclines enhance tension development in cardiac muscle by direct interaction with the contractile system.

Abstract

Anthracyclines are highly effective anticancer agents which induce a well described but incompletely understood cardiac toxicity. In this study, a direct action of several anthracyclines on the force generating mechanism of heart muscle preparations is described. To allow discrimination between membrane related effects and a direct action of anthracyclines on the actin-myosin contractile system, both inner and outer membranes of cardiac fibres were permeabilized. All anthracyclines tested in this study [doxorubicin (Dox), epirubicin, daunorubicin and idarubicin] showed positive inotropic actions. Dox and epirubicin, which are considered the most cardiotoxic drugs of the anthracycline family, significantly increased the maximal calcium activated tension by 33% (n = 8, P < 0.01) and by 26% (n = 8, P < 0.01) respectively. Daunorubicin and idarubicin increased the maximal tension by 12% and 9% respectively (P = n.s.). Other chemotherapeutic drugs (Taxol and 5-FU) had no effect on maximal tension. To elucidate the mechanism behind this Dox-induced increase in maximal tension, calcium sensitivity curves were measured and rigor experiments were performed. A small but significant increase in pCa50 value (+0.14 +/- 0.03, P < 0.05) was observed only after incubation with 20 microM Dox. Dox acted during the transition to force generating cross-bridges as reflected by the significant increase in rigor tension (12%, P < 0.05) after preincubation of cardiac fibres with Dox. Cycling of cross-bridges is a prerequisite for Dox to increase tension because no effect on tension was seen after Dox was added to fibres in an established rigor. In summary, anthracyclines increased the maximal tension in cardiac muscle fibres by direct interaction with the actin-myosin cross-bridges. Changes in calcium sensitivity are unlikely to contribute to the observed increase in maximal tension. The rise in tension as is seen in this experimental set-up may contribute to destruction of the contractile machinery of cardiac muscle. In agreement with this hypothesis is the observation that the more cardiotoxic anthracyclines induced the largest increase in maximal tension of the cardiac fibres.