Sando L, Pearson R, Gray C, Parker P, Hawken R, Thomson P C, Meadows J R S, Kongsuwan K, Smith S, Tellam R L
CSIRO Livestock Industries, Queensland Bioscience Precinct, St Lucia, QLD 4067, Australia.
J Dairy Sci. 2009 Oct;92(10):5276-91. doi: 10.3168/jds.2009-2216.
The bovine Muc1 protein is synthesized by mammary epithelial cells and shed into milk as an integral component of the milk fat globule membrane; however, the structure and functions of this mucin, particularly in relation to lactation, are poorly defined. The objectives of this investigation were to investigate the Muc1 gene and protein structures in the context of lactation and to test the hypothesis that Muc1 has a role in innate immune defense. Polymerase chain reaction analysis of genomic DNA from 630 cattle revealed extensive polymorphism in the variable number of tandem repeats (VNTR) in the bovine Muc1 gene. Nine allelic variants spanning 7 to 23 VNTR units, each encoding 20 AA, were identified. Three alleles, containing 11, 14, and 16 VNTR units, respectively, were predominant. In addition, a polymorphism in one of the VNTR units has the potential to introduce a unique site for N-linked glycosylation. Statistical analysis indicated weak associations between the VNTR alleles and milk protein and fat percentages in a progeny-tested population of Holstein-Friesian dairy cattle. No association with somatic cell count could be demonstrated. Bovine Muc1 was purified from milk fat globule membranes and characterized. The protein was highly glycosylated, primarily with O-linked sialylated T-antigen [Neu5Ac(alpha2-3)-Gal(beta1-3)-GalNAcalpha1] and, to a lesser extent, with N-linked oligosaccharides, which together accounted for approximately 60% of the apparent mass of Muc1. Purified bovine Muc1 directly bound fluorescently labeled Escherichia coli BioParticles (Invitrogen, Mount Waverley, Australia) and inhibited their binding to bovine mammary epithelial cells grown in vitro. It was also demonstrated that the expression of Muc1 mRNA in bovine mammary epithelial cells was markedly upregulated by lipopolysaccharide. Muc1 may be a pattern recognition protein that has the capacity to sequester bacteria and prevent their attachment to epithelial surfaces by immobilizing and subsequently shedding Muc1-bound bacteria from the cell surface. It was concluded that bovine Muc1 is probably an inducible innate immune effector and an important component of the first line of defense against bacterial invasion of epithelial surfaces, particularly mammary epithelial surfaces and the neonatal gut.
牛Muc1蛋白由乳腺上皮细胞合成,并作为乳脂肪球膜的一个组成部分分泌到乳汁中;然而,这种黏蛋白的结构和功能,尤其是与泌乳相关的结构和功能,目前还不清楚。本研究的目的是在泌乳背景下研究Muc1基因和蛋白质结构,并验证Muc1在先天性免疫防御中起作用的假说。对630头牛的基因组DNA进行聚合酶链反应分析,发现牛Muc1基因的可变串联重复序列(VNTR)存在广泛的多态性。鉴定出9个等位基因变体,其VNTR单元数为7至23个,每个变体编码20个氨基酸。分别含有11、14和16个VNTR单元的三个等位基因占主导地位。此外,一个VNTR单元中的多态性有可能引入一个独特的N-连接糖基化位点。统计分析表明,在荷斯坦-弗里生奶牛的后代测试群体中,VNTR等位基因与乳蛋白和脂肪百分比之间存在弱关联。未发现与体细胞计数有关联。从乳脂肪球膜中纯化并鉴定了牛Muc1。该蛋白高度糖基化,主要为O-连接的唾液酸化T抗原[Neu5Ac(α2-3)-Gal(β1-3)-GalNAcα1],其次为N-连接寡糖,它们总共约占Muc1表观质量的60%。纯化的牛Muc1直接结合荧光标记的大肠杆菌生物颗粒(澳大利亚莫特韦弗利的英杰公司),并抑制它们与体外培养的牛乳腺上皮细胞的结合。还证明,脂多糖可显著上调牛乳腺上皮细胞中Muc1 mRNA的表达。Muc1可能是一种模式识别蛋白,它能够通过固定并随后从细胞表面脱落与Muc1结合的细菌来隔离细菌,并防止它们附着在上皮表面。得出的结论是,牛Muc1可能是一种可诱导的先天性免疫效应物,是抵御细菌侵入上皮表面,尤其是乳腺上皮表面和新生动物肠道的第一道防线的重要组成部分。
