Abstract
BackgroundSpermatozoa become competent for fertilization during transit through the epididymis. As spermatozoa from the proximal caudal epididymis can fertilize eggs, proteins from the caput and corpus epididymis are required for sperm maturation.ObjectivesMicroarray analysis identified that more than 17,000 genes are expressed in the epididymis; however, few of these genes demonstrate expression restricted to the epididymis. To analyze epididymis‐enriched gene function in vivo, we generated knockout (KO) mutations in nine genes that are abundantly expressed in the caput and corpus region of the epididymis.Materials and methods KO mice were generated using the CRISPR/Cas9 system. The histology of the epididymis was observed with hematoxylin and eosin staining. KO males were caged with wild‐type females for 3–6 months to check fertility.ResultsWe generated individual mutant mouse lines having indel mutations in Pate1, Pate2, or Pate3. We also deleted the coding regions of Clpsl2, Epp13, and Rnase13, independently. Finally, the 150 kb region encoding Gm1110, Glb1l2, and Glb1l3 was deleted to generate a triple KO mouse line. Histology of the epididymis and sperm morphology of all KO lines were comparable to control males. The females mated with these KO males delivered pups at comparable numbers as control males.Discussion and conclusionWe revealed that nine genes abundantly expressed in the caput and corpus epididymis are dispensable for sperm function and male fecundity. CRISPR/Cas9‐mediated KO mice generation accelerates the screening of epididymis‐enriched genes for potential functions in reproduction.
Highlights
Spermatozoa released from the testis are incapable of fertilizing eggs until they acquire capabilities necessary for fertilization competence by translocating through the epididymis
colipase like 2 (Clpsl2), Epp13, Gm1110, and Rnase13 were strongly expressed in the caput region, while Glb1l2, Glb1l3, Pate2, and Pate3 were strongly expressed in the corpus region, and Pate1 was expressed in all regions at comparable levels
It is known that 4 and 13 genes of the Pate family members exist in human and mouse, respectively, and that Pate1 to Pate4 are conserved in both species (Levitin et al, 2008)
Summary
Spermatozoa released from the testis are incapable of fertilizing eggs until they acquire capabilities necessary for fertilization competence (such as motility, capacitation, acrosome reaction, and sperm–egg fusion capabilities) by translocating through the epididymis This step is called ‘sperm maturation’ (Robaire & Hermo, 1988; Robaire et al, 2006). The timing of acquisition of fertilization competence by spermatozoa varies among mammalian species; almost all spermatozoa isolated from the proximal cauda epididymis have fertilizing ability (Robaire & Hermo, 1988), suggesting that factors from the caput and corpus epididymis play important roles in sperm maturation. To analyze epididymis-enriched gene function in vivo, we generated knockout (KO) mutations in nine genes that are abundantly expressed in the caput and corpus region of the epididymis. CRISPR/Cas9-mediated KO mice generation accelerates the screening of epididymisenriched genes for potential functions in reproduction
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