Rb deficiency during Drosophila eye development deregulates EMC, causing defects in the development of photoreceptors and cone cells.

Retinoblastoma tumor suppressor protein (pRb) regulates various biological processes during development and tumorigenesis. Although the molecular mechanism by which pRb controls cell cycle progression is well characterized, how pRb promotes cell-type specification and differentiation is less understood. Here, we report that Extra Macrochaetae (EMC), the Drosophila homolog of inhibitor of DNA binding/differentiation (ID), is an important protein contributing to the developmental defects caused by Rb deficiency. An emc allele was identified from a genetic screen designed to identify factors that, when overexpressed, cooperate with mutations in rbf1, which encodes one of the two Rb proteins found in Drosophila. EMC overexpression in an rbf1 hypomorphic mutant background induces cone cell and photoreceptor defects but has negligible effects in the wild-type background. Interestingly, a substantial fraction of the rbf1-null ommatidia normally exhibit similar cone cell and photoreceptor defects in the absence of ectopic EMC expression. Detailed EMC expression analyses revealed that RBF1 suppresses expression of both endogenous and ectopic EMC protein in photoreceptors, thus explaining the synergistic effect between EMC overexpression and rbf1 mutations, and the developmental defect observed in rbf1-null ommatidia. Our findings demonstrate that ID family proteins are an evolutionarily conserved determinant of Rb-deficient cells, and play an important role during development.