Department of Pathophysiology, Faculty of Veterinary Medicine, University of Zagreb, Heinzelova 55, 10000 Zagreb, Croatia.
Veterinary Practice Jastrebarsko d.o.o, Trešnjevka 61, 10450 Jastrebarsko, Croatia.
J Proteomics. 2021 Jul 30;244:104277. doi: 10.1016/j.jprot.2021.104277. Epub 2021 May 24.
Bovine mastitis causes changes in the milk and serum proteomes. Here changes in both proteomes caused by naturally occurring subclinical and clinical mastitis have been characterised and quantified. Milk and serum samples from healthy dairy cows (n = 10) were compared to those of cows with subclinical (n = 12) and clinical mastitis (n = 10) using tandem mass tag (TMT) proteomics. Proteins that significantly increased or decreased in milk (n = 237) or serum (n = 117) were quantified and classified by the type of change in subclinical and clinical mastitis. A group of the proteins (n = 38) showed changes in both milk and serum a number of which decreased in the serum but increased in milk, suggesting a particular role in host defence for maintaining and restoring homeostasis during the disease. Proteins affected by bovine mastitis included proteins in host defence and coagulation pathways. Investigation of the modified proteomes in milk and serum was assessed by assays for haptoglobin, serum amyloid A and α acid glycoprotein validating the results obtained by quantitative proteomics. Alteration of abundance patterns of milk and serum proteins, together with pathway analysis reveal multiple interactions related to proteins affected by mastitis. Data are available via ProteomeXchange with identifier PXD022595. SIGNIFICANCE: Mastitis is the most serious condition to affect dairy cows and leads to reduced animal welfare as well as having a negative economic effect for the dairy industry. Proteomics has previously identified changes in abundance of milk proteins during mastitis, but there have been few investigations addressing changes that may affect proteins in the blood during the infection. In this study, changes in the abundance of proteins of milk and serum, caused by naturally occurring mastitis have been characterised by proteomics using a quantitative approach and both subclinical and clinical cases of mastitis have been investigated. In both milk and serum, change in individual proteins was determined and classified into varying types of altering abundance, such as increasing in subclinical mastitis, but showing no further increase in clinical mastitis. Of special interest were the proteins that altered in abundance in both milk and serum which either showed similar trends - increasing or decreasing in both biological fluids or showed reciprocal change decreasing in serum but increasing in milk. As well as characterising proteins as potential markers of mastitis and the severity of the disease, these results provide insight into the pathophysiology of the host response to bovine mastitis.
奶牛乳腺炎会导致乳和血清蛋白质组发生变化。在这里,我们对自然发生的亚临床和临床乳腺炎引起的蛋白质组变化进行了定性和定量描述。使用串联质量标签(TMT)蛋白质组学方法,将来自健康奶牛(n=10)的乳和血清样本与亚临床乳腺炎(n=12)和临床乳腺炎(n=10)的奶牛样本进行了比较。定量并根据亚临床和临床乳腺炎的变化类型对在乳(n=237)或血清(n=117)中显著增加或减少的蛋白质进行分类。一组蛋白质(n=38)在乳和血清中均发生变化,其中一些在血清中减少但在乳中增加,这表明在疾病过程中,它们在宿主防御中具有维持和恢复体内平衡的特殊作用。受牛乳腺炎影响的蛋白质包括宿主防御和凝血途径中的蛋白质。通过检测触珠蛋白、血清淀粉样蛋白 A 和α酸性糖蛋白,对乳和血清中修饰蛋白质组进行了评估,验证了定量蛋白质组学获得的结果。乳腺炎相关蛋白质的丰度模式发生改变,同时进行了途径分析,揭示了与受乳腺炎影响的蛋白质相关的多种相互作用。数据可通过 ProteomeXchange 获取,标识符为 PXD022595。 意义:乳腺炎是影响奶牛最严重的疾病,会降低动物福利,对奶牛养殖业造成负面影响。蛋白质组学先前已经鉴定出乳腺炎期间乳蛋白丰度的变化,但很少有研究涉及感染期间血液中可能影响蛋白质的变化。在这项研究中,通过使用定量方法的蛋白质组学,对自然发生的乳腺炎引起的乳和血清蛋白质丰度的变化进行了表征,并对亚临床和临床乳腺炎病例进行了研究。在乳和血清中,确定了个体蛋白质的变化,并将其分类为不同类型的丰度变化,例如亚临床乳腺炎时增加,但临床乳腺炎时不再进一步增加。特别有趣的是,在乳和血清中丰度都发生变化的蛋白质,要么在两种生物流体中表现出相似的趋势——增加或减少,要么表现出相反的变化,即在血清中减少,但在乳中增加。除了将蛋白质作为乳腺炎和疾病严重程度的潜在标志物进行表征外,这些结果还为宿主对牛乳腺炎的反应的病理生理学提供了深入了解。
