Female‐induced selective modification of sperm protein SUMOylation—potential mechanistic insights into the non‐random fertilization in humans

Female‐induced selective modification of sperm protein SUMOylation—potential mechanistic insights into the non‐random fertilization in humans

In many species, mate choice continues after the mating via female‐ or egg‐derived biochemical factors that induce selective changes in sperm pre‐fertilization physiology and behaviour. Recent studies have indicated that gamete‐mediated mate choice likely occurs also in humans, but the mechanistic b...

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Veröffentlicht in:Journal of evolutionary biology 2022-02, Vol.35 (2), p.254-264
Hauptverfasser: Kekäläinen, Jukka, Hiltunen, Johannes, Jokiniemi, Annalaura, Kuusipalo, Liisa, Heikura, Marjo, Leppänen, Jonna, Malinen, Marjo
Format: Artikel
Sprache:eng
Schlagworte:
cryptic female choice
Factorial design
Female
Females
Fertilization
Follicular fluid
Gametocytes
Germ Cells
Humans
Infertility
Male
Males
mate choice
Mate selection
Motility
protein
Proteins
Proteomes
Sperm
Sperm Motility
Spermatozoa - physiology
Structure-function relationships
SUMO protein
SUMOylation
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container_end_page 264
container_issue 2
container_start_page 254
container_title Journal of evolutionary biology
container_volume 35
creator Kekäläinen, Jukka
Hiltunen, Johannes
Jokiniemi, Annalaura
Kuusipalo, Liisa
Heikura, Marjo
Leppänen, Jonna
Malinen, Marjo
description In many species, mate choice continues after the mating via female‐ or egg‐derived biochemical factors that induce selective changes in sperm pre‐fertilization physiology and behaviour. Recent studies have indicated that gamete‐mediated mate choice likely occurs also in humans, but the mechanistic basis of the process has remained virtually unexplored. Here, we investigated whether female‐induced modifications in sperm protein SUMOylation (post‐translational modification of the proteome) could serve as a novel mechanism for gamete‐mediated mate choice in humans. We treated the sperm of ten males with the oocyte‐surrounding bioactive liquid (follicular fluid) of five females and investigated motility, viability and global protein SUMOylation status of the sperm in all (n = 50) of these male–female combinations (full‐factorial design). All the measured sperm traits were affected by male–female combinations, and sperm protein SUMOylation status was also negatively associated with sperm motility. Furthermore, our results indicate that female‐induced sperm protein SUMOylation is selective, potentially allowing females to increase sperm motility in some males, whereas decreasing it in the others. Consequently, our findings suggest that follicular fluid may non‐randomly modify the structure and function of sperm proteome and in this way facilitate gamete‐mediated mate choice in humans and possibly many other species. However, due to the relatively low number of female subjects and their potential infertility problems, our results should be replicated with larger subset of fully fertile women. In many species, mate choice continues after the mating at the level of the gametes. However, the mechanistic basis of gamete‐mediated mate choice has remained largely unclear. Here we investigated whether female‐induced post‐translational modifications in sperm proteome could serve as a novel mechanism for gamete‐mediated mate choice in humans.
doi_str_mv 10.1111/jeb.13980
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source MEDLINE; Wiley Online Library Journals Frontfile Complete; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Oxford University Press Journals All Titles (1996-Current)
subjects cryptic female choice
Factorial design
Female
Females
Fertilization
Follicular fluid
Gametocytes
Germ Cells
Humans
Infertility
Male
Males
mate choice
Mate selection
Motility
protein
Proteins
Proteomes
Sperm
Sperm Motility
Spermatozoa - physiology
Structure-function relationships
SUMO protein
SUMOylation
title Female‐induced selective modification of sperm protein SUMOylation—potential mechanistic insights into the non‐random fertilization in humans
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