Leukotrienes stimulate initiation of DNA synthesis in cultured arterial smooth muscle cells

Abstract

The effects of leukotrienes on initiation of DNA synthesis in growth-arrested arterial smooth muscle cells cultivated in a defined, serum-free medium were studied. The results showed that LTB₄, LTC₄ and LTD₄ were all stimulatory with a distinct effect already at 0·01 pM and a maximal effect at 10pM; in contrast, LTE₄ lacked effect. 5S,12S-DHETE, an isomer of LTB₄, was inactive in itself but blocked the effect of LTB₄. Treatment of the cells with indomethacin or acetylsalicylic acid, two cyclooxygenase inhibitors, blocked induction of DNA synthesis by LTB₄, indicating that the effect of this compound was mediated by a cyclooxygenase product. Up to 10 pM, the leukotrienes stimulated initiation of DNA synthesis with similar potency to platelet-derived growth factor (PDGF). The maximum labelling index obtained with PDGF was, however, about twice that obtained with the leukotrienes. At suboptimal concentrations of PDGF, the leukotrienes had an additive effect. The prereplicative lag phase was 16–20h with LTB₄, 12–16 h with LTC₄, and 8—12 h with PDGF. In metabolic experiments no signs of synthesis of leukotrienes were detected by cells stimulated with the calcium ionophore A23187, arachidonic acid, or LTA₄ for 10–30 min, neither was any apparent degradation of LTB₄ observed. On the other hand, LTC₄ was transformed into LTD₄ and LTE₄. Taken together, the results indicate that leukotrienes are able to stimulate quiescent arterial smooth muscle cells to enter the cell cycle and to replicate their DNA. In vivo, stimulation of cell growth by leukotrienes could add to other established functions of these substances in tissue repair, inflammation, and atherogenesis.