Drosophila Ric-8 is essential for plasma-membrane localization of heterotrimeric G proteins

Heterotrimeric G proteins act during signal transduction in response to extracellular ligands. They are also required for spindle orientation and cell polarity during asymmetric cell division. We show here that, in Drosophila , both functions require the Gα interaction partner Ric-8. Drosophila Ric-8 is a cytoplasmic protein that binds both the GDP- and GTP-bound form of the G-protein α-subunit Gαi. In ric-8 mutants, neither Gαi nor its associated β-subunit Gβ13F are localized at the plasma membrane, which leads to their degradation in the cytosol. During asymmetric cell division, this leads to various defects: apico–basal polarity is not maintained, mitotic spindles are misoriented and the size of the two daughter cells becomes nearly equal. ric-8 mutants also have defects in gastrulation that resemble mutants in the Gα protein concertina or the extracellular ligand folded gastrulation . Our results indicate a model in which both receptor-dependent and receptor-independent G-protein functions are executed at the plasma membrane and require the Ric-8 protein.