Cryopreservation of boar semen is continually researched in reproductive technologies and genetic resource banking in breed conservation. For evaluating the boar semen quality, sperm motility (MOT) is an important parameter because the movement of spermatozoa indicates active metabolism, membrane integrity and fertilizing capacity. Recently, polymorphisms reported to be significant association with sperm MOT. This study was conducted to evaluate the SNP in the coding region of ESR1 (g.672C>T inexon 1) as a positional controlling for motility and kinematic characteristics of post-thawed boar semen. To results,The g.672C>T was significantly associated with frozen semen motility and kinematic characteristics. g.158 T>C SNP was high significantly associated with MOT, VCL, VSL and VAP Also, the SNP was low significantly associated with ALH.Therefore, we suggest that theSNP in the coding region of ESR1 (g.672C>T in exon 1) may be used as a molecular marker for Duroc boar Post-thawed semen quality.
Cryopreservation of boar semen is continually researched in reproductive technologies and genetic resource banking in breed conservation. For evaluating the boar semen quality, sperm motility (MOT) is an important parameter because the movement of spermatozoa indicates active metabolism, membrane integrity and fertilizing capacity. Various researches have been trying to improve the quality of semen Post-thawed in boar. Recently, polymorphism (g. 35756 T>C) of Estrogen Receptor 1 (ESR1) gene reported to be significant association with MOT. This study was conducted to evaluate the ESR1 gene as a positional controlling for motility and kinematic characteristics of post-thawed boar semen. To results, The g.35756 T>C SNP of ESR1 was significantly associated with frozen semen motility and kinematic characteristics. The g.35756 T>C SNP was high significantly associated with MOT, VCL, VSL and VAP (p<0.001). The SNP was also significantly associated with ALH (P<0.05). Therefore, we suggest that the g. 35756 T>C polymorphism in the intron 1 region of the porcine ESR1 gene could potentially be applied in frozen semen programs to improve MOT trait, but only after validation in other populations.
Estrogen plays an important role both in male and female reproduction. Two estrogen receptor isoforms, Esr1 and Esr2, are expressed in male gonad. In the mouse, Esr1 is expressed in Leydig cells of testis and pituitary. Esr1-/- male mice show enhanced androgen synthesis, spermatogenic defect, and infertility. To evaluate the specific function of Esr1 in Leydig cells, we examined spermatogenesis and steroidogenesis in Esr1f/fCyp17iCre male mice in which Esr1 is deleted specifically in Leydig cells. These mice showed normal spermatogenesis and fertility when compared to wild type from young adulthood to old age. Testosterone synthesis in Esr1f/fCyp17iCre mice at 3-12 months old of age was not different from age-matched wild type mice, while, at 18 months old of age, circulating testosterone concentrations were significantly higher than wild type together with increased levels of Star, Cyp17a1, and Hsd17b3 mRNA and with a hypertropy of Leydig cells. In Esr1f/fCyp17iCre mouse pituitaries, Fshb and Lhb mRNA levels were not different from wild type from young adulthood to old age. Taken together, Esr1 in Leydig cells may be not essential for spermatogenesis and fertility under control of endogenous estrogens and may have a role in aged Leydig cell function.