Multi-omics integration identifies regulatory factors underlying bovine subclinical mastitis.

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Journal of Animal Science and Biotechnology Pub Date : 2024-03-14 DOI:10.1186/s40104-024-00996-8
Mengqi Wang, Naisu Yang, Mario Laterrière, David Gagné, Faith Omonijo, Eveline M Ibeagha-Awemu
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Abstract

Background: Mastitis caused by multiple factors remains one of the most common and costly disease of the dairy industry. Multi-omics approaches enable the comprehensive investigation of the complex interactions between multiple layers of information to provide a more holistic view of disease pathogenesis. Therefore, this study investigated the genomic and epigenomic signatures and the possible regulatory mechanisms underlying subclinical mastitis by integrating RNA sequencing data (mRNA and lncRNA), small RNA sequencing data (miRNA) and DNA methylation sequencing data of milk somatic cells from 10 healthy cows and 20 cows with naturally occurring subclinical mastitis caused by Staphylococcus aureus or Staphylococcus chromogenes.

Results: Functional investigation of the data sets through gene set analysis uncovered 3458 biological process GO terms and 170 KEGG pathways with altered activities during subclinical mastitis, provided further insights into subclinical mastitis and revealed the involvement of multi-omics signatures in the altered immune responses and impaired mammary gland productivity during subclinical mastitis. The abundant genomic and epigenomic signatures with significant alterations related to subclinical mastitis were observed, including 30,846, 2552, 1276 and 57 differential methylation haplotype blocks (dMHBs), differentially expressed genes (DEGs), lncRNAs (DELs) and miRNAs (DEMs), respectively. Next, 5 factors presenting the principal variation of differential multi-omics signatures were identified. The important roles of Factor 1 (DEG, DEM and DEL) and Factor 2 (dMHB and DEM), in the regulation of immune defense and impaired mammary gland functions during subclinical mastitis were revealed. Each of the omics within Factors 1 and 2 explained about 20% of the source of variation in subclinical mastitis. Also, networks of important functional gene sets with the involvement of multi-omics signatures were demonstrated, which contributed to a comprehensive view of the possible regulatory mechanisms underlying subclinical mastitis. Furthermore, multi-omics integration enabled the association of the epigenomic regulatory factors (dMHBs, DELs and DEMs) of altered genes in important pathways, such as 'Staphylococcus aureus infection pathway' and 'natural killer cell mediated cytotoxicity pathway', etc., which provides further insights into mastitis regulatory mechanisms. Moreover, few multi-omics signatures (14 dMHBs, 25 DEGs, 18 DELs and 5 DEMs) were identified as candidate discriminant signatures with capacity of distinguishing subclinical mastitis cows from healthy cows.

Conclusion: The integration of genomic and epigenomic data by multi-omics approaches in this study provided a better understanding of the molecular mechanisms underlying subclinical mastitis and identified multi-omics candidate discriminant signatures for subclinical mastitis, which may ultimately lead to the development of more effective mastitis control and management strategies.

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多组学整合确定了牛亚临床乳腺炎的潜在调控因子。
背景:由多种因素引起的乳腺炎仍然是奶牛业最常见、成本最高的疾病之一。多组学方法能够全面研究多层信息之间复杂的相互作用,从而提供更全面的疾病发病机制视图。因此,本研究通过整合 10 头健康奶牛和 20 头由金黄色葡萄球菌或色葡萄球菌引起的自然发生的亚临床乳腺炎奶牛体细胞的 RNA 测序数据(mRNA 和 lncRNA)、小 RNA 测序数据(miRNA)和 DNA 甲基化测序数据,研究了亚临床乳腺炎的基因组和表观基因组特征及可能的调控机制:通过基因组分析对数据集进行功能研究,发现了亚临床乳腺炎期间有 3458 个生物过程 GO 术语和 170 个 KEGG 通路的活动发生了改变,从而进一步了解了亚临床乳腺炎,并揭示了多组学特征参与了亚临床乳腺炎期间免疫反应的改变和乳腺生产力的受损。研究人员观察到了与亚临床乳腺炎相关的大量基因组和表观基因组特征,包括30846、2552、1276和57个差异甲基化单倍型块(dMHBs)、差异表达基因(DEGs)、lncRNAs(DELs)和miRNAs(DEMs)。然后,确定了 5 个呈现差异多组学特征主要变异的因子。揭示了因子 1(DEG、DEM 和 DEL)和因子 2(dMHB 和 DEM)在亚临床乳腺炎期间调控免疫防御和乳腺功能受损中的重要作用。因子 1 和因子 2 中的每个表观基因都解释了亚临床乳腺炎变异来源的约 20%。同时,多组学特征参与的重要功能基因组网络也得到了展示,这有助于全面了解亚临床乳腺炎的可能调控机制。此外,通过多组学整合,还发现了 "金黄色葡萄球菌感染通路 "和 "自然杀伤细胞介导的细胞毒性通路 "等重要通路中改变基因的表观基因组调控因子(dMHBs、DELs 和 DEMs),从而进一步揭示了乳腺炎的调控机制。此外,一些多组学特征(14 个 dMHBs、25 个 DEGs、18 个 DELs 和 5 个 DEMs)被确定为候选判别特征,具有区分亚临床乳腺炎奶牛和健康奶牛的能力:结论:本研究通过多组学方法整合基因组学和表观基因组学数据,更好地了解了亚临床乳腺炎的分子机制,并确定了亚临床乳腺炎的多组学候选判别特征,这最终可能有助于制定更有效的乳腺炎控制和管理策略。
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