Deb T B, Datta K
Biochemistry Laboratory, School of Environmental Sciences, Jawaharlal Nehru University, New Delhi, India.
J Biol Chem. 1996 Jan 26;271(4):2206-12. doi: 10.1074/jbc.271.4.2206.
The purification of a 68-kDa hyaluronic acid-binding protein (HA-binding protein), a homodimer of 34 kDa that binds specifically to hyaluronic acid, has been reported earlier by us (Gupta, S., Batchu, R.B., and Datta, K. (1991) Eur. J. Cell Biol. 56, 58-67). Here, we report the isolation of a partial cDNA clone from a lambda gt11 cDNA expression library of human skin fibroblast by immuno-screening with HA-binding protein antiserum. The internal polypeptide sequence (83 residues) of the purified hyaluronic acid-binding protein is identical to the predicted protein sequence derived from hyaluronic acid-binding protein cDNA, suggesting the authenticity of the clone. Interestingly, this hyaluronic acid-binding protein cDNA sequence has complete homology with the cDNA sequence of a protein P-32, co-purified with the human pre-mRNA splicing factor SF2 (Krainer, A.R., Mayeda, A., Kozak, D., and Binns, G. (1991) Cell 66, 383-394). Furthermore, the data on the N-terminal sequence of hyaluronic acid-binding protein and the predicted polypeptide of P-32 revealed the identical coding sequence of 209 amino acids for both the proteins. As the identity and functional characterization of P-32 have not yet been reported, P-32 cDNA was expressed in Escherichia coli, and the recombinant P-32 protein was purified by hyaluronic acid-Sepharose affinity chromatography. The recombinant P-32 protein showed immunocross-reactivity with the polyclonal antibodies raised against HA-binding protein. The predicted amino acid sequence of the protein fulfilled the minimal criteria for binding to hyaluronic acid, i.e. two basic amino acids flanking a seven-amino acid stretch, as reported for other hyaluronic acid affinity of the recombinant P-32 protein was confirmed by biotinylated hyaluronic acid binding assay. The binding of recombinant P-32 protein to biotinylated hyaluronic acid binding assay. The binding of recombinant P-32 protein to biotinylated hyaluronic acid can be competed only with excess unlabeled hyaluronic acid, confirming its specificity toward hyaluronic acid. All these results suggest that both P-32, co-purified with the human pre-mRNA splicing factor SF2, and 34-kDa hyaluronic acid-binding protein reported by us are the same protein and that it is a new member of the hyaluronic acid-binding protein family, the "hyaladherins."
我们之前曾报道过一种68 kDa的透明质酸结合蛋白(HA结合蛋白)的纯化,它是一种34 kDa的同二聚体,能特异性结合透明质酸(Gupta, S., Batchu, R.B., and Datta, K. (1991) Eur. J. Cell Biol. 56, 58 - 67)。在此,我们报告通过用HA结合蛋白抗血清进行免疫筛选,从人皮肤成纤维细胞的λgt11 cDNA表达文库中分离出一个部分cDNA克隆。纯化的透明质酸结合蛋白的内部多肽序列(83个残基)与从透明质酸结合蛋白cDNA推导的预测蛋白序列相同,表明该克隆的真实性。有趣的是,这个透明质酸结合蛋白cDNA序列与一种蛋白P - 32的cDNA序列完全同源,该蛋白与人类前体mRNA剪接因子SF2共纯化(Krainer, A.R., Mayeda, A., Kozak, D., and Binns, G. (1991) Cell 66, 383 - 394)。此外,关于透明质酸结合蛋白的N端序列和P - 32预测多肽的数据显示,这两种蛋白的209个氨基酸的编码序列相同。由于P - 32的身份和功能特性尚未见报道,我们将P - 32 cDNA在大肠杆菌中表达,并通过透明质酸 - 琼脂糖亲和层析纯化重组P - 32蛋白。重组P - 32蛋白与针对HA结合蛋白产生的多克隆抗体表现出免疫交叉反应性。该蛋白的预测氨基酸序列符合与透明质酸结合的最低标准,即如其他报道所述,在一个七氨基酸片段两侧有两个碱性氨基酸。重组P - 32蛋白与生物素化透明质酸的结合通过生物素化透明质酸结合试验得到证实。重组P - 32蛋白与生物素化透明质酸的结合仅能被过量的未标记透明质酸竞争,证实了其对透明质酸的特异性。所有这些结果表明,与人类前体mRNA剪接因子SF2共纯化的P - 32和我们报道的34 kDa透明质酸结合蛋白是同一种蛋白,并且它是透明质酸结合蛋白家族“透明黏附素”的一个新成员。
