Abstract
ABSTRACTMembers of the CAP/SCP/TAPS superfamily have been implicated in many different physiological processes, including pathogen defense, sperm maturation and fertilization. The mode of action of this class of proteins, however, remains poorly understood. The genome of Saccharomyces cerevisiae encodes three CAP superfamily members, Pry1-3. We have previously shown that Pry1 function is required for the secretion of sterols and fatty acids. Here, we analyze the function of Pry3, a GPI-anchored cell wall protein. Overexpression of Pry3 results in strong reduction of mating efficiency, providing for a cell-based readout for CAP protein function. Mating inhibition is a conserved function of the CAP domain and depends on highly conserved surface exposed residues that form part of a putative catalytic metal-ion binding site. Pry3 displays polarized cell surface localization adjacent to bud scars, but is absent from mating projections. When overexpressed, however, the protein leaks onto mating projections, suggesting that mating inhibition is due to mislocalization of the protein. Trapping of the CAP domain within the cell wall through a GPI-anchored nanobody results in a dose-dependent inhibition of mating, suggesting that a membrane proximal CAP domain inhibits a key step in the mating reaction, which is possibly related to the function of CAP domain proteins in mammalian fertilization.This article has an associated First Person interview with the first author of the paper.
Highlights
Proteins belonging to the CAP superfamily, known as sperm coating proteins (SCP), TAPs (Tpx, antigen 5, pathogenesis-related 1), or venom allergen-like proteins (VALs), are present in all kingdoms of life and have been implicated in many different physiological processes, including immune defense in mammals and plants, pathogen virulence, sperm
We show that mating inhibition is a functionally conserved feature of the CAP domain that is independent of its lipid-binding activity, but requires highly conserved, surface-exposed residues
The protein is more uniformly distributed, suggesting that mating inhibition could be due to mislocalization of the protein, its presence on polarized mating projections. Consistent with this proposition, fusion of the CAP domain to a cell wall protein that is localized to mating projections, Ccw12, results in mating inhibition. These results suggest that the function of the yeast CAP domain in mating inhibition may be related to the function of CAP domaincontaining cysteine-rich secretory protein (CRISP) proteins in sperm maturation and fertilization
Summary
Consistent with this proposition, fusion of the CAP domain to a cell wall protein that is localized to mating projections, Ccw12, results in mating inhibition. When tested in the quantitative mating assay, overexpression of Pry3V117M resulted in mating inhibition comparable to wild-type Pry3, indicating that fatty acid-binding is not essential for the inhibitory function of Pry3 in the mating process (Fig. 3C).
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