| Abstract: | The effect of cytochalasin D, which is known to disrupt specifically actin cytoskeleton, on DNA replication was studied. The incubation of cultured mouse embryonic fibroblasts (MEF), cells of Balb/3T3 line and cells of minimally transformed clones 12 MC and 6 st/T CAK-7 line with cytochalasin D leads to inhibition of DNA synthesis. A complete inhibition of labeled index in MEF culture was observed after an 8 day incubation in cytochalasin D. Part of cells of clones 12 MC and 6 st/T were insensitive to cytochalasin D and continued to enter to S-phase even after a 10 day incubation. The transfer of cells into a fresh medium leads to a rapid restoration of DNA synthesis. Strongly transformed L cells were almost insensitive to cytochalasin D. Thus, the reorganization of actin cytoskeleton caused by cytochalasin D can inhibit the cycle of normal and minimally transformed cells. In the course of neoplastic progression, in the transformed cells there is a loss of dependence of cell proliferation on microfilament system. |
