Dissection of the Blue-Light-Dependent Signal-Transduction Pathway Involved in Gametic Differentiation of Chlamydomonas reinhardtii.

Gametogenesis of the green alga Chlamydomonas reinhardtii may be viewed as a two-step process that is controlled by the environmental cues of nitrogen deprivation and blue light. Initiation of gametogenesis is induced by nitrogen deprivation, resulting in mating-incompetent pregametes, when cells are kept in the dark. For the completion of gametic differentiation light is required. Pregametes were treated with pharmacological compounds to influence the light-dependent conversion to mature gametes. Dibutyryl-cyclic 3[prime]5[prime] adenosinemonophosphate, papaverine, and genistein were found to inhibit the progression of gametogenesis in the light. Treatment of pregametes in the dark with either staurosporine or papaverine resulted in their conversion to mature gametes. Apparently, papaverine has different effects in the dark and in the light; the effect of staurosporine suggested that a protein kinase C-like component inhibits the conversion of pregametes to gametes, a block that normally is relieved by illumination. This hypothesis was corroborated by the observation that activators of protein kinase C, N-heptyl-5-chloro-1-naphthalenesulfonamide, N- (6-phenylhexyl)-5-chloro-1-naphthalenesulfonamide, and the phorbolester phorbol-12-myristate 13-acetate inhibited gametogenesis in the light. Genistein and dibutyryl-cyclic 3[prime]5[prime] adenosinemonophosphate were able to inhibit the dark activation caused by staurosporine treatment, suggesting that their targets work downstream from the "protein kinase C-like" kinase. Surprisingly, staurosporine and papaverine worked synergystically on the activation of pregametes in the dark.