The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition

Despite rapid evolution across eutherian mammals, the X-linked miR-506 family miRNAs are located in a region flanked by two highly conserved protein-coding genes (Slitrk2 and Fmr1) on the X chromosome. Intriguingly, these miRNAs are predominantly expressed in the testis, suggesting a potential role...

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Autores principales: Wang, Zhuqing, Wang, Yue, Zhou, Tong, Chen, Sheng, Morris, Dayton, Magalhães, Rubens Daniel Miserani, Li, Musheng, Wang, Shawn, Wang, Hetan, Xie, Yeming, McSwiggin, Hayden, Oliver, Daniel, Yuan, Shuiqiao, Zheng, Huili, Mohammed, Jaaved, Lai, Eric C., McCarrey, John R., Yan, Wei
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10312769/
https://www.ncbi.nlm.nih.gov/pubmed/37398484
http://dx.doi.org/10.1101/2023.06.14.544876
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author Wang, Zhuqing
Wang, Yue
Zhou, Tong
Chen, Sheng
Morris, Dayton
Magalhães, Rubens Daniel Miserani
Li, Musheng
Wang, Shawn
Wang, Hetan
Xie, Yeming
McSwiggin, Hayden
Oliver, Daniel
Yuan, Shuiqiao
Zheng, Huili
Mohammed, Jaaved
Lai, Eric C.
McCarrey, John R.
Yan, Wei
author_facet Wang, Zhuqing
Wang, Yue
Zhou, Tong
Chen, Sheng
Morris, Dayton
Magalhães, Rubens Daniel Miserani
Li, Musheng
Wang, Shawn
Wang, Hetan
Xie, Yeming
McSwiggin, Hayden
Oliver, Daniel
Yuan, Shuiqiao
Zheng, Huili
Mohammed, Jaaved
Lai, Eric C.
McCarrey, John R.
Yan, Wei
author_sort Wang, Zhuqing
collection PubMed
description Despite rapid evolution across eutherian mammals, the X-linked miR-506 family miRNAs are located in a region flanked by two highly conserved protein-coding genes (Slitrk2 and Fmr1) on the X chromosome. Intriguingly, these miRNAs are predominantly expressed in the testis, suggesting a potential role in spermatogenesis and male fertility. Here, we report that the X-linked miR-506 family miRNAs were derived from the MER91C DNA transposons and their sequences diverged via LINE1-mediated retrotransposition during evolution. Selective inactivation of individual miRNAs or clusters caused no discernable defects, but simultaneous ablation of five clusters containing nineteen members of the miR-506 family led to reduced male fertility in mice. Despite normal sperm counts, motility and morphology, the KO sperm were less competitive than wild-type sperm when subjected to a polyandrous mating scheme. Transcriptomic and bioinformatic analyses revealed that these X-linked miR-506 family miRNAs, in addition to targeting a set of conserved genes, have gained more targets that are critical for spermatogenesis and embryonic development during evolution. Our data suggest that the miR-506 family miRNAs function to enhance sperm competitiveness and reproductive fitness of the male by finetuning gene expression during spermatogenesis. SIGNIFICANCE STATEMENT: The X-linked miR-506 family has rapidly evolved in mammals, but their physiological significance remains elusive. Given their abundant and preferential expression in the testis and sperm, these X-linked miRNAs likely play a functional role in spermatogenesis and/or early embryonic development. However, the deletion of either individual miRNA genes or all of the five miRNA clusters encoding 38 mature miRNAs did not cause major fertility defects in mice. When these mutant males were subjected to conditions resembling polyandrous mating, the mutant sperm were much less competitive than the wild-type sperm, rendering the mutant males “functionally infertile”. Our data suggest that the miR-506 family of miRNAs regulates sperm competition and the reproductive fitness of the male.
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spelling pubmed-103127692023-07-01 The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition Wang, Zhuqing Wang, Yue Zhou, Tong Chen, Sheng Morris, Dayton Magalhães, Rubens Daniel Miserani Li, Musheng Wang, Shawn Wang, Hetan Xie, Yeming McSwiggin, Hayden Oliver, Daniel Yuan, Shuiqiao Zheng, Huili Mohammed, Jaaved Lai, Eric C. McCarrey, John R. Yan, Wei bioRxiv Article Despite rapid evolution across eutherian mammals, the X-linked miR-506 family miRNAs are located in a region flanked by two highly conserved protein-coding genes (Slitrk2 and Fmr1) on the X chromosome. Intriguingly, these miRNAs are predominantly expressed in the testis, suggesting a potential role in spermatogenesis and male fertility. Here, we report that the X-linked miR-506 family miRNAs were derived from the MER91C DNA transposons and their sequences diverged via LINE1-mediated retrotransposition during evolution. Selective inactivation of individual miRNAs or clusters caused no discernable defects, but simultaneous ablation of five clusters containing nineteen members of the miR-506 family led to reduced male fertility in mice. Despite normal sperm counts, motility and morphology, the KO sperm were less competitive than wild-type sperm when subjected to a polyandrous mating scheme. Transcriptomic and bioinformatic analyses revealed that these X-linked miR-506 family miRNAs, in addition to targeting a set of conserved genes, have gained more targets that are critical for spermatogenesis and embryonic development during evolution. Our data suggest that the miR-506 family miRNAs function to enhance sperm competitiveness and reproductive fitness of the male by finetuning gene expression during spermatogenesis. SIGNIFICANCE STATEMENT: The X-linked miR-506 family has rapidly evolved in mammals, but their physiological significance remains elusive. Given their abundant and preferential expression in the testis and sperm, these X-linked miRNAs likely play a functional role in spermatogenesis and/or early embryonic development. However, the deletion of either individual miRNA genes or all of the five miRNA clusters encoding 38 mature miRNAs did not cause major fertility defects in mice. When these mutant males were subjected to conditions resembling polyandrous mating, the mutant sperm were much less competitive than the wild-type sperm, rendering the mutant males “functionally infertile”. Our data suggest that the miR-506 family of miRNAs regulates sperm competition and the reproductive fitness of the male. Cold Spring Harbor Laboratory 2023-06-14 /pmc/articles/PMC10312769/ /pubmed/37398484 http://dx.doi.org/10.1101/2023.06.14.544876 Text en https://creativecommons.org/licenses/by-nc/4.0/This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (https://creativecommons.org/licenses/by-nc/4.0/) , which allows reusers to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator.
spellingShingle Article
Wang, Zhuqing
Wang, Yue
Zhou, Tong
Chen, Sheng
Morris, Dayton
Magalhães, Rubens Daniel Miserani
Li, Musheng
Wang, Shawn
Wang, Hetan
Xie, Yeming
McSwiggin, Hayden
Oliver, Daniel
Yuan, Shuiqiao
Zheng, Huili
Mohammed, Jaaved
Lai, Eric C.
McCarrey, John R.
Yan, Wei
The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition
title The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition
title_full The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition
title_fullStr The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition
title_full_unstemmed The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition
title_short The Rapidly Evolving X-linked miR-506 Family Finetunes Spermatogenesis to Enhance Sperm Competition
title_sort rapidly evolving x-linked mir-506 family finetunes spermatogenesis to enhance sperm competition
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10312769/
https://www.ncbi.nlm.nih.gov/pubmed/37398484
http://dx.doi.org/10.1101/2023.06.14.544876
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