Effect of staurosporine on MOLT-4 cell progression through G2 and on cytokinesis

Abstract

Staurosporine (SSP) is an inhibitor of a variety of protein kinases with an especially high affinity towards protein kinase C. Whereas SSP has been shown to halt the cell cycle progression of various normal, nontransformed cell types in G₁, most virus transformed or tumor cells are unaffected in G₁ but arrest in G₂ phase. SSP has also been observed to increase the appearance of cells with higher DNA content, suggestive of endoreduplication, in cultures of tumor cells. Using multivariate flow cytometry (DNA content vs. expression of cyclin B, nucleolar p120 protein, or protein reactive with Ki‐67 antibody) which makes it possible to discriminate cells with identical DNA content but at different phases of the cycle, we have studied the cell cycle progression of human lymphocytic leukemic MOLT‐4 cells in the presence of 0.1 μM SSP.MOLT‐4 cells did not arrest in G₁ or G₂ phase in the presence of the inhibitor. Rather, they failed to undergo cytokinesis, entering G₁ phase at higher DNA ploidy (tetraploidy; G_1T), and then progressed through S_T (rereplication) into G_2T and M_T. The rates of entrance to G₂ and G_2T were essentially identical, indicating that the rates of cell progression through S and S_T as well as through G₂ and G_2T, respectively, were similar. Cells entrance to mitosis and mitotic chromatin condensation were also similar at the diploid and tetraploid DNA content level and were unaffected by 0.1 μM SSP. No evidence of growth imbalance (altered protein or RNA to DNA ratio) was observed in the case of tetraploid cells. The data show that, in the case of MOLT‐4 cells, all events associated with the chromosome or DNA cycle were unaffected by SSP; the only target of the inhibitor appears to be kinase(s) controlling cytokinesis.