Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters

Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters

The molecular basis of male fertility remains unclear, especially in chickens, where decades of genetic selection increased male fertility variability as a side effect. As transcription and translation are highly limited in sperm, proteins are key molecules defining their functionality, making prote...

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Main Authors: Anaïs Vitorino Carvalho, Laura Soler, Aurore Thélie, Isabelle Grasseau, Luiz Cordeiro, Daniel Tomas, Ana-Paula Teixeira-Gomes, Valérie Labas, Elisabeth Blesblois
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-04-01
Series:Frontiers in Cell and Developmental Biology
Subjects:
sperm
chicken
proteomic
fertility
semen
Online Access:https://www.frontiersin.org/articles/10.3389/fcell.2021.655866/full
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spelling doaj-82f23a675eec47b1a381d66b914e78292021-04-09T12:59:05ZengFrontiers Media S.A.Frontiers in Cell and Developmental Biology2296-634X2021-04-01910.3389/fcell.2021.655866655866Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type RoostersAnaïs Vitorino Carvalho0Laura Soler1Aurore Thélie2Isabelle Grasseau3Luiz Cordeiro4Daniel Tomas5Daniel Tomas6Daniel Tomas7Ana-Paula Teixeira-Gomes8Ana-Paula Teixeira-Gomes9Valérie Labas10Valérie Labas11Valérie Labas12Elisabeth Blesblois13CNRS, INRAE, Université de Tours, IFCE, Nouzilly, FranceINRAE, ENVT, INP-Purpan, UPS, UMR Toxalim, Toulouse, FranceCNRS, INRAE, Université de Tours, IFCE, Nouzilly, FranceCNRS, INRAE, Université de Tours, IFCE, Nouzilly, FranceCNRS, INRAE, Université de Tours, IFCE, Nouzilly, FranceCNRS, INRAE, Université de Tours, IFCE, Nouzilly, FranceINRAE, ENVT, INP-Purpan, UPS, UMR Toxalim, Toulouse, FranceINRAE, Université de Tours, CHU de Tours, Plate-forme PIXANIM (Phénotypage par Imagerie in/ex vivo de l’Animal à la Molécule), Nouzilly, FranceINRAE, Université de Tours, CHU de Tours, Plate-forme PIXANIM (Phénotypage par Imagerie in/ex vivo de l’Animal à la Molécule), Nouzilly, FranceINRAE, ISP, Université de Tours, Nouzilly, FranceCNRS, INRAE, Université de Tours, IFCE, Nouzilly, FranceINRAE, ENVT, INP-Purpan, UPS, UMR Toxalim, Toulouse, FranceINRAE, Université de Tours, CHU de Tours, Plate-forme PIXANIM (Phénotypage par Imagerie in/ex vivo de l’Animal à la Molécule), Nouzilly, FranceCNRS, INRAE, Université de Tours, IFCE, Nouzilly, FranceThe molecular basis of male fertility remains unclear, especially in chickens, where decades of genetic selection increased male fertility variability as a side effect. As transcription and translation are highly limited in sperm, proteins are key molecules defining their functionality, making proteomic approaches one of the most adequate methods to investigate sperm capacity. In this context, it is interesting to combine complementary proteomic approaches to maximize the identification of proteins related to sperm-fertilizing ability. In the present study, we aimed at identifying proteins related to fertility in meat-type roosters, showing fertility variability. Fertile roosters (fertility rates higher than 70% after artificial insemination) differed from subfertile roosters (fertility rates lower than 40%) in their sperm mass motility. Fertile and subfertile sperm protein contents were compared using two complementary label-free quantitative proteomic methods: Intact Cell MALDI-TOF-Mass Spectrometry and GeLC-MS/MS. Combining the two strategies, 57 proteins were identified as differentially abundant. Most of them were described for the first time as differentially abundant according to fertility in this species. These proteins were involved in various molecular pathways including flagellum integrity and movement, mitochondrial functions, sperm maturation, and storage in female tract as well as oocyte–sperm interaction. Collectively, our data improved our understanding of chicken sperm biology by revealing new actors involved in the complexity of male fertility that depends on multiple cell functions to reach optimal rates. This explains the inability of reductionist in vitro fertility testing in predicting male fertility and suggests that the use of a combination of markers is a promising approach.https://www.frontiersin.org/articles/10.3389/fcell.2021.655866/fullspermchickenproteomicfertilitysemen
collection DOAJ
language English
format Article
sources DOAJ
author Anaïs Vitorino Carvalho
Laura Soler
Aurore Thélie
Isabelle Grasseau
Luiz Cordeiro
Daniel Tomas
Daniel Tomas
Daniel Tomas
Ana-Paula Teixeira-Gomes
Ana-Paula Teixeira-Gomes
Valérie Labas
Valérie Labas
Valérie Labas
Elisabeth Blesblois
spellingShingle Anaïs Vitorino Carvalho
Laura Soler
Aurore Thélie
Isabelle Grasseau
Luiz Cordeiro
Daniel Tomas
Daniel Tomas
Daniel Tomas
Ana-Paula Teixeira-Gomes
Ana-Paula Teixeira-Gomes
Valérie Labas
Valérie Labas
Valérie Labas
Elisabeth Blesblois
Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters
Frontiers in Cell and Developmental Biology
sperm
chicken
proteomic
fertility
semen
author_facet Anaïs Vitorino Carvalho
Laura Soler
Aurore Thélie
Isabelle Grasseau
Luiz Cordeiro
Daniel Tomas
Daniel Tomas
Daniel Tomas
Ana-Paula Teixeira-Gomes
Ana-Paula Teixeira-Gomes
Valérie Labas
Valérie Labas
Valérie Labas
Elisabeth Blesblois
author_sort Anaïs Vitorino Carvalho
title Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters
title_short Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters
title_full Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters
title_fullStr Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters
title_full_unstemmed Proteomic Changes Associated With Sperm Fertilizing Ability in Meat-Type Roosters
title_sort proteomic changes associated with sperm fertilizing ability in meat-type roosters
publisher Frontiers Media S.A.
series Frontiers in Cell and Developmental Biology
issn 2296-634X
publishDate 2021-04-01
description The molecular basis of male fertility remains unclear, especially in chickens, where decades of genetic selection increased male fertility variability as a side effect. As transcription and translation are highly limited in sperm, proteins are key molecules defining their functionality, making proteomic approaches one of the most adequate methods to investigate sperm capacity. In this context, it is interesting to combine complementary proteomic approaches to maximize the identification of proteins related to sperm-fertilizing ability. In the present study, we aimed at identifying proteins related to fertility in meat-type roosters, showing fertility variability. Fertile roosters (fertility rates higher than 70% after artificial insemination) differed from subfertile roosters (fertility rates lower than 40%) in their sperm mass motility. Fertile and subfertile sperm protein contents were compared using two complementary label-free quantitative proteomic methods: Intact Cell MALDI-TOF-Mass Spectrometry and GeLC-MS/MS. Combining the two strategies, 57 proteins were identified as differentially abundant. Most of them were described for the first time as differentially abundant according to fertility in this species. These proteins were involved in various molecular pathways including flagellum integrity and movement, mitochondrial functions, sperm maturation, and storage in female tract as well as oocyte–sperm interaction. Collectively, our data improved our understanding of chicken sperm biology by revealing new actors involved in the complexity of male fertility that depends on multiple cell functions to reach optimal rates. This explains the inability of reductionist in vitro fertility testing in predicting male fertility and suggests that the use of a combination of markers is a promising approach.
topic sperm
chicken
proteomic
fertility
semen
url https://www.frontiersin.org/articles/10.3389/fcell.2021.655866/full
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