Juvenile hormones inhibit murine cell cycle progression and expression of type C viruses

Abstract

Juvenile hormones (JH), congeners of retinoic acid, were examined for their capacity to inhibit cell cycle progression and chemically induced expression of endogenous xenotropic retrovirus in Kirsten sarcoma virus-transformed BALB (K-BALB) mouse cells. JHI, II, and III were found to inhibit induction of virus by 5-iododeoxyuridine (IUdR) and histidinol (Hdl) in a concentration-dependent fashion. Some inhibition of macromolecular synthesis was observed upon culture of the cells with JH; the most affected was RNA synthesis, which was reduced 27 to 40% within 4 h by the juvenoids. Epoxide hydrase (EH) activity, as determined by high-pressure liquid chromatography (HPLC), was present in amounts sufficient for the cells to convert the hormones metabolically to an ultimate form. A contact-inhibited K-BALB variant was synchronized by mitotic arrest and the cell cycle-specific effect of JHIII on virus induction during S phase was studied. JHIII added during G1 phase, and followed by induction, inhibited virus expression 95 and 76% by IUdR and Hdl, respectively. Induction was inhibited only 35% when JHIII was added during S phase concomitantly with the inducers and no inhibition was observed when JHIII was added during G2 phase followed by the inducers. JHIII added to synchronous cells in G1 phase inhibited progression of cells into S phase and the onset of DNA synthesis. The results indicate that mouse fibroblasts have a juvenile hormone-sensitive restriction point in G1 phase that might relate to the effects these hormones have on cell replication and differentiation.