C-myc expression is dissociated from DNA synthesis and cell division in Xenopus oocyte and early embryonic development.

Abstract

The combined use of a human c-myc probe and of an antibody raised against the human c-myc gene product demonstrated that the Xenopus cells contained a 2.5-kb c-myc transcript and synthesized a c-myc immunoreactive 65-kd polypeptide. In full-grown oocytes, p65c-myc was predominantly located in the nucleus. In non-dividing Xenopus oocytes c-myc mRNA was present at a steady-state level 10(4) times higher than that of growing somatic A6 cells. This very high level of c-myc transcript was reached early in oogenesis and remained constant thereafter. The rate of p65c-myc synthesis also reached high levels, but only in vitellogenic oocytes, suggesting a post-transcriptional control. Although the cell cycle is resumed at a very fast pace in developing embryos, no further increase in total embryonic content of c-myc RNA could be demonstrated up to the swimming tadpole stage. Furthermore, in embryos the rate of synthesis of p65c-myc decreased to a level markedly lower than that of cell cycle-arrested vitellogenic oocytes. This observation suggests that the function of the c-myc gene in the cell cycle may not be implicated directly in sustaining DNA synthesis or mitosis.