Chloroquine and monensin inhibit induction of DNA synthesis in rat arterial smooth muscle cells stimulated with platelet-derived growth factor.

The weak base chloroquine and the Na+/H+ ionophore monensin were used to study the role of lysosomes in the induction of DNA synthesis by platelet-derived growth factor (PDGF) in rat arterial smooth muscle cells cultivated in vitro. The results show that PDGF initiates DNA synthesis in a defined, serum-free medium. This indicates that a single factor may control, directly or indirectly, the transition from the G0 to the G1 phase, the progress through the G1 phase, and the entrance into the S phase of the cell cycle. It is further demonstrated that PDGF has to be present throughout most of the prereplicative period (12-16 h) to induce DNA synthesis in the maximum number of cells, suggesting that one or more processes need to be stimulated continually or successively to push the cell into the S phase. Chloroquine and monensin inhibit induction of DNA replication by PDGF, with maximum effect at 50 microM and 5 microM, respectively. To be fully active, the drugs have to be added within 4-8 h after the growth factor, but a partial inhibition persists if they are added at any time during the prereplicative period. Both drugs reduce PDGF-stimulated RNA and protein synthesis, and suppress degradation of [3H]leucine-labeled cellular protein and [125I]-labeled PDGF. Fine-structurally, they give rise to an accumulation of lysosomes or prelysosomal vacuoles with inclusions of incompletely degraded material. These findings suggest that the mitogenic effect of PDGF is dependent on a normal function of lysosomes during the prereplicative phase, especially its first half (0-8 h).