Stage-specific Disruption of X Chromosome Expression During Spermatogenesis in Sterile House Mouse Hybrids

Overview

Journal G3 (Bethesda)

Publisher Oxford University Press

Specialties Genetics
Molecular Biology

Date 2021 Dec 5

PMID 34864964

Citations 6

Authors

Erica L Larson

Emily E K Kopania

Kelsie E Hunnicutt

Dan Vanderpool

Sara Keeble

Jeffrey M Good

Affiliations

Soon will be listed here.

Abstract

Hybrid sterility is a complex phenotype that can result from the breakdown of spermatogenesis at multiple developmental stages. Here, we disentangle two proposed hybrid male sterility mechanisms in the house mice, Mus musculus domesticus and M. m. musculus, by comparing patterns of gene expression in sterile F1 hybrids from a reciprocal cross. We found that hybrid males from both cross directions showed disrupted X chromosome expression during prophase of meiosis I consistent with a loss of meiotic sex chromosome inactivation (MSCI) and Prdm9-associated sterility, but that the degree of disruption was greater in mice with an M. m. musculus X chromosome consistent with previous studies. During postmeiotic development, gene expression on the X chromosome was only disrupted in one cross direction, suggesting that misexpression at this later stage was genotype-specific and not a simple downstream consequence of MSCI disruption which was observed in both reciprocal crosses. Instead, disrupted postmeiotic expression may depend on the magnitude of earlier disrupted MSCI, or the disruption of particular X-linked genes or gene networks. Alternatively, only hybrids with a potential deficit of Sly copies, a Y-linked ampliconic gene family, showed overexpression in postmeiotic cells, consistent with a previously proposed model of antagonistic coevolution between the X- and Y-linked ampliconic genes contributing to disrupted expression late in spermatogenesis. The relative contributions of these two regulatory mechanisms and their impact on sterility phenotypes await further study. Our results further support the hypothesis that X-linked hybrid sterility in house mice has a variable genetic basis, and that genotype-specific disruption of gene regulation contributes to overexpression of the X chromosome at different stages of development. Overall, these findings underscore the critical role of epigenetic regulation of the X chromosome during spermatogenesis and suggest that these processes are prone to disruption in hybrids.

Citing Articles

Different complex regulatory phenotypes underlie hybrid male sterility in divergent rodent crosses.

Hunnicutt K, Callahan C, Callahan C, Keeble S, Moore E, Good J Genetics. 2024; 229(2).

PMID: 39601270 PMC: 11796465. DOI: 10.1093/genetics/iyae198.

A Minimal Hybrid Sterility Genome Assembled by Chromosome Swapping Between Mouse Subspecies (Mus musculus).

Fotopulosova V, Tanieli G, Fusek K, Jansa P, Forejt J Mol Biol Evol. 2024; 41(10).

PMID: 39404090 PMC: 11518865. DOI: 10.1093/molbev/msae211.

Do genetic loci that cause reproductive isolation in the lab inhibit gene flow in nature?.

Frayer M, Payseur B Evolution. 2024; 78(6):1025-1038.

PMID: 38490748 PMC: 11135621. DOI: 10.1093/evolut/qpae044.

Different complex regulatory phenotypes underlie hybrid male sterility in divergent rodent crosses.

Hunnicutt K, Callahan C, Keeble S, Moore E, Good J, Larson E bioRxiv. 2023; .

PMID: 37961317 PMC: 10634954. DOI: 10.1101/2023.10.30.564782.

Meiotic Recognition of Evolutionarily Diverged Homologs: Chromosomal Hybrid Sterility Revisited.

Forejt J, Jansa P Mol Biol Evol. 2023; 40(4).

PMID: 37030001 PMC: 10124879. DOI: 10.1093/molbev/msad083.

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