Sidekli Ozge, Hollox Edward J, Fair Sean, Meade Kieran G
Department of Genetics, Genomics and Cancer Sciences, University of Leicester, Leicester, United Kingdom.
Laboratory of Animal Reproduction, Department of Biological Sciences, Bernal Institute, Faculty of Science and Engineering, University of Limerick, Limerick, Ireland.
PLoS One. 2025 Feb 25;20(2):e0319281. doi: 10.1371/journal.pone.0319281. eCollection 2025.
Pregnancy rates for elite bulls used in artificial insemination (AI) can vary significantly and therefore the identification of molecular markers for fertility and targets to improve bull selection is important. β-defensin peptides have diverse regulatory roles in sperm function across multiple species but the role of copy number variation (CNV) on fertility parameters has not been previously evaluated. In this study, Holstein-Friesian bulls were screened based on reliable field fertility data to identify two groups (High and Low fertility (HF and LF, respectively)) of n = 10 bulls/group which were genotyped for β-defensin 103 (DEFB103) gene CNV by droplet digital PCR. Overall, low DEFB103 copy number (CN) was associated with increased sperm motility across all bulls (n = 20, p < 0.05). As genetic diversity of DEFB103 CN was only apparent in the LF group, three bulls per CNV class (low, intermediate and high CN) were chosen for more detailed comparative functional analysis. Sperm from low CN bulls exhibited higher binding to the oviductal epithelium, while high CN increased sperm membrane fluidity in vitro (p < 0.05). To investigate the functional effect of DEFB103 CNV on the uterine response in vivo, 18 heifers were inseminated with sperm from bulls with low, intermediate and high CN. Transcriptomic analysis on uterine tissue harvested 12 h post-insemination showed differential expression of 58 genes (FDR < 0.1) involved in sperm migration, immune signalling and chemotaxis. Although field fertility results from a complex number of interactive factors, these novel results suggest a contributory role for DEFB103 CN in both sperm function and the uterine response to bull sperm, thereby potentially contributing to pregnancy outcomes in cattle. Further analysis of the role of CNV in additional β-defensin genes in bull fertility is now warranted.
用于人工授精(AI)的优秀公牛的受孕率可能有很大差异,因此识别生育相关分子标记和改进公牛选择的目标很重要。β-防御素肽在多个物种的精子功能中具有多种调节作用,但此前尚未评估拷贝数变异(CNV)对生育参数的作用。在本研究中,根据可靠的田间生育数据对荷斯坦-弗里生公牛进行筛选,以确定两组(高生育力组和低生育力组,分别为HF和LF),每组n = 10头公牛,通过液滴数字PCR对β-防御素103(DEFB103)基因CNV进行基因分型。总体而言,所有公牛(n = 20)中,低DEFB103拷贝数(CN)与精子活力增加相关(p < 0.05)。由于DEFB103 CN的遗传多样性仅在LF组中明显,因此从每个CNV类别(低、中、高CN)中选择三头公牛进行更详细的比较功能分析。低CN公牛的精子与输卵管上皮的结合更高,而高CN在体外增加了精子膜流动性(p < 0.05)。为了研究DEFB103 CNV对体内子宫反应的功能影响,用低、中、高CN公牛的精子对18头小母牛进行授精。授精后12小时收集子宫组织进行转录组分析,结果显示58个参与精子迁移、免疫信号传导和趋化作用的基因表达存在差异(FDR < 0.1)。尽管田间生育结果受多种复杂的相互作用因素影响,但这些新结果表明DEFB103 CN在精子功能和子宫对公牛精子的反应中均起作用,从而可能影响牛的妊娠结局。现在有必要进一步分析CNV在其他β-防御素基因对公牛生育力中的作用。
