DIFFERENTIAL EFFECT OF ADRIAMYCIN ON DNA REPLICATIVE AND REPAIR SYNTHESIS IN CULTURED NEONATAL RAT CARDIAC-CELLS

Abstract

The effect of the potent antitumor antiobiotic adriamycin (ADM) [with a cardiotoxic side effect] on DNA replication and unscheduled DNA synthesis in cultured rat cardiac cells was investigated. Autoradiography and [3H]thymidine incorporation studies were carried out on parallel cultures. DNA replication was depressed for up to 6 days following a 3 h pulse of ADM administration. An ADM concentration of 1 .mu.g/ml which was effective in reducing replicative DNA synthesis by as much as 75% did not reduce the ability of cardiac cells to repair UV-damaged DNA. However, cells exposed to higher ADM concentrations failed to undergo significant UV-induced repair. In the absence of UV treatment, ADM did not stimulate unscheduled DNA synthesis. To account for the differential response of the cardiac cell cultures to replicate and repair DNA, it is proposed that ADM exerts a localized effect on DNA synthesis covering a region proximal to its primary intercalation site.