Interleukin-7 regulates c-myc expression in murine T cells and thymocytes: a role for tyrosine kinase(s) and calcium mobilization.

Interleukin-7 (IL-7) was originally identified as a pre-B cell growth factor whose proliferating activity has been extended to numerous target cells including T lymphocytes. We investigated c-myc mRNA expression, an oncogene associated with proliferation, in the murine T cell line D10 G4.1 and freshly isolated thymocytes since both target cells proliferate in response to IL-7. We find that blockade of the tyrosine kinase pathway by genistein, a potent tyrosine kinase inhibitor, inhibits both IL-7-dependent D10 G4.1 cell proliferation and c-myc mRNA expression which appears to involve de novo mRNA synthesis and to be under the control of short-lived protein repressor(s). We have also examined possible signal transduction pathways which might regulate c-myc mRNA expression in the murine T cell line. IL-7 biological activity is not affected by stimulation of the protein kinase C pathway by phorbol esters. Thus, IL-7 regulates c-myc mRNA expression in a protein kinase C-independent manner and these data are strengthened by protein kinase C depletion which does not modify IL-7 c-myc mRNA responsiveness. In contrast and independent of protein kinase C activation, intracellular calcium mobilization by means of ionomycin reduces IL-7 induction of c-myc mRNA expression and may represent a physiological mechanism whereby IL-7 bioactivity is regulated. The activity of IL-7 on c-myc mRNA expression has been extended to freshly isolated thymocytes and we find a synergistic effect of IL-7 with concanavalin A. Taken together our results illuminate the molecular mechanism of IL-7 c-myc induction in the T lineage by ascribing a role for tyrosine kinase and increase in intracellular calcium in both IL-7 induced gene induction and cell proliferation.