Rubenstein D S, Thøgersen I B, Pizzo S V, Enghild J J
Duke University Medical Center, Durham, NC 27710.
Biochem J. 1993 Feb 15;290 ( Pt 1)(Pt 1):85-95. doi: 10.1042/bj2900085.
The alpha-macroglobulins are classified as broad-spectrum inhibitors because of their ability to entrap proteinases of different specificities and catalytic class. Tetrameric and dimeric alpha-macroglobulins have been identified in a wide variety of organisms including those as primitive as the mollusc Octopus vulgaris; however, monomeric alpha-macroglobulin proteinase inhibitors have been previously identified only in rodents. The monomeric alpha-macroglobulin proteinase inhibitors are believed to be analogous to the evolutionary precursor of the multimeric members of this family exemplified by the tetrameric human alpha 2-macroglobulin. Until now, monomeric alpha-macroglobulin proteinase inhibitors have only been identified in rodents and have therefore been considered an evolutionary anomaly. However, in this report we have utilized several sensitive assays to screen various plasmas and sera for the presence of monomeric alpha-macroglobulins, and our results suggest that monomeric alpha-macroglobulin proteinase inhibitors are present in organisms belonging to the avian, reptilian, amphibian and mammalian classes of the chordate phylum. This indicates that these proteins are more widespread than previously recognized and that their presence in rodents is not an anomaly. To demonstrate further that the identified proteins were indeed monomeric alpha-macroglobulin proteinase inhibitors, we purified the monomeric alpha-macroglobulin from the American bullfrog Rana catesbeiana. We conclude that this protein is a monomer of 180 kDa on the basis of its behaviour on (i) pore-limit gel electrophoresis, (ii) non-reducing and reducing SDS/PAGE and (iii) gel-filtration chromatography. In addition, we demonstrate that this protein is an alpha-macroglobulin proteinase inhibitor by virtue of (i) its ability to inhibit proteinases of different catalytic class, (ii) the presence of a putative internal beta-cysteinyl-gamma-glutamyl thioester and (iii) an inhibitory mechanism characterized by steric protection of the proteinase active site and by sensitivity to small primary amines. The frog monomeric alpha-macroglobulin is structurally and functionally similar to the well-characterized monomeric alpha-macroglobulin proteinase inhibitor rat alpha 1-inhibitor-3.
α-巨球蛋白因其能够捕获不同特异性和催化类别的蛋白酶而被归类为广谱抑制剂。在包括像普通章鱼这样原始的软体动物在内的多种生物中都已鉴定出四聚体和二聚体α-巨球蛋白;然而,单体α-巨球蛋白蛋白酶抑制剂此前仅在啮齿动物中被鉴定出来。单体α-巨球蛋白蛋白酶抑制剂被认为类似于以四聚体人α2-巨球蛋白为代表的该家族多聚体成员的进化前体。到目前为止,单体α-巨球蛋白蛋白酶抑制剂仅在啮齿动物中被鉴定出来,因此被视为一种进化异常现象。然而,在本报告中,我们利用了几种灵敏的检测方法来筛选各种血浆和血清中单体α-巨球蛋白的存在情况,我们的结果表明,单体α-巨球蛋白蛋白酶抑制剂存在于脊索动物门的鸟类、爬行类、两栖类和哺乳类生物中。这表明这些蛋白质比之前认为的分布更广泛,并且它们在啮齿动物中的存在并非异常现象。为了进一步证明所鉴定的蛋白质确实是单体α-巨球蛋白蛋白酶抑制剂,我们从美国牛蛙牛蛙中纯化了单体α-巨球蛋白。基于其在(i)孔径限制凝胶电泳、(ii)非还原和还原SDS/PAGE以及(iii)凝胶过滤色谱上的行为,我们得出该蛋白质是一种180 kDa的单体的结论。此外,我们通过以下几点证明该蛋白质是一种α-巨球蛋白蛋白酶抑制剂:(i)其抑制不同催化类别的蛋白酶的能力,(ii)存在一个假定的内部β-半胱氨酰-γ-谷氨酰硫酯,以及(iii)一种以蛋白酶活性位点的空间保护和对小分子伯胺的敏感性为特征的抑制机制。青蛙单体α-巨球蛋白在结构和功能上与特征明确的单体α-巨球蛋白蛋白酶抑制剂大鼠α1-抑制剂-3相似。
