Posttranslational Regulation of Myc Function in Response to Phorbol Ester/Interferon-γ–Induced Differentiation of v-Myc–Transformed U-937 Monoblasts

Abstract

AbstractThe transcription factors of the Myc/Max/Mad network are important regulators of cell growth, differentiation, and apoptosis and are frequently involved in tumor development. Constitutive expression of v-Myc blocks phorbol ester (TPA)-induced differentiation of human U-937 monoblasts. However, costimulation with interferon-γ (IFN-γ) and TPA restores terminal differentiation and G1cell-cycle arrest despite continuous expression of v-Myc. The mechanism by which TPA + IFN-γ counteract v-Myc activity has not been unravelled. Our results show that TPA + IFN-γ treatment led to an inhibition of v-Myc– and c-Myc–dependent transcription, and a specific reduction of v-Myc:Max complexes and associated DNA-binding activity, whereas the steady state level of the v-Myc protein was only marginally affected. In contrast, TPA + IFN-γ costimulation neither increased the expression of Mad1 or other mad/mnt family genes nor altered heterodimerization or DNA-binding activity of Mad1. The reduced amount of v-Myc:Max heterodimers in response to treatment was accompanied by partial dephosphorylation of v-Myc and c-Myc. Phosphatase treatment of Myc:Max complexes lead to their dissociation, thus mimicking the effect of TPA + IFN-γ. In addition to modulation of the expression of Myc/Max/Mad network proteins, posttranslational negative regulation of Myc by external signals may, therefore, be an alternative biologically important level of control with potential therapeutic relevance for hematopoietic and other tumors with deregulated Myc expression.