Abstract
The sperm-specific Ca2+ channel CatSper registers chemical cues that assist human sperm to fertilize the egg. Prime examples are progesterone and prostaglandin E1 that activate CatSper without involving classical nuclear and G protein-coupled receptors, respectively. Here, we study the action of seminal and follicular fluid as well of the contained individual prostaglandins and steroids on the intracellular Ca2+ concentration of sperm from donors and CATSPER2-deficient patients that lack functional CatSper channels. We show that any of the reproductive steroids and prostaglandins evokes a rapid Ca2+ increase that invariably rests on Ca2+ influx via CatSper. The hormones compete for the same steroid- and prostaglandin-binding site to activate the channel, respectively. Analysis of the hormones’ structure–activity relationship highlights their unique pharmacology in sperm and the chemical features determining their effective properties. Finally, we show that Zn2+ suppresses the action of steroids and prostaglandins on CatSper, which might prevent premature prostaglandin activation of CatSper in the ejaculate, aiding sperm to escape from the ejaculate into the female genital tract. Altogether, our findings reinforce that human CatSper serves as a promiscuous chemosensor that enables sperm to probe the varying hormonal microenvironment prevailing at different stages during their journey across the female genital tract.
Highlights
During their journey to the egg, mammalian sperm face an ever-changing chemical milieu, ranging from seminal fluid over secretions of cells lining the female genital tract and surrounding the egg to follicular fluid, which enters the oviduct upon ovulation
Supporting this notion and indicating that CatSper mediates the signals induced by SF, Ca2+ signals evoked by ≤2.2% FF and
Using CatSper-deficient sperm from infertile patients lacking the CATSPER2 gene, we show that Ca2+ responses evoked by reproductive steroids and prostaglandins rest invariably on Ca2+ influx via CatSper
Summary
During their journey to the egg, mammalian sperm face an ever-changing chemical milieu, ranging from seminal fluid over secretions of cells lining the female genital tract and surrounding the egg to follicular fluid, which enters the oviduct upon ovulation. CatSper is activated by prostaglandins and steroids (Lishko et al, 2011; Strünker et al, 2011), the predominant hormones in seminal and follicular fluid (e.g., Bygdeman and Samuelsson, 1966; de los Santos et al, 2012), respectively, which are released by the oviductal epithelium and cumulus cells surrounding the egg (Ogra et al, 1974; Vastik-Fernandez et al, 1975; Schuetz and Dubin, 1981; Libersky and Boatman, 1995). Far, a comprehensive quantitative analysis of the action of physiologically relevant prostaglandins and steroids contained in reproductive fluids on [Ca2+]i and CatSper in human sperm has been lacking
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