High levels of Cdc42 GTPase underlie an all-or-none decision to fuse

Cdc42 is a Rho-family GTPase conserved across eukaryotes, where it plays essential roles in cell polarization. In single-celled yeast systems, Cdc42 is a key driver of symmetry breaking and polarized growth, forming zones of activity that locally recruit eRectors to organize the cytoskeleton and polarize secretion. Here we show that Cdc42 also functions in cell-cell fusion during Schizosaccharomyces pombe sexual reproduction but concentrates at the fusion site through mechanisms distinct from those proposed in Saccharomyces cerevisiae . Notably, the cdc42-mCherry ^SW allele (but not the cdc42-sfGFP ^SW allele), which is functional for cell polarization and has been used across organisms for dynamic studies, exhibits a strong fusion defect. These cells block fusion before cell wall digestion but after actin fusion focus formation, indicating that Cdc42 is required to translate the vesicle cluster into polarized cargo delivery. We trace the defect to instability of Cdc42-mCherry ^SW and demonstrate that cell fusion requires higher Cdc42 protein levels than mitotic polarized growth. Remarkably, by constructing an allelic series driving Cdc42 expression over a 5-fold range, we discover that polarized growth responds linearly to Cdc42 protein levels, whereas sexual reproduction exhibits a sharp switch-like response. Thus, the topology of the Cdc42 regulatory network is distinct for its polarization and mating functions.