Chan S J, Oliva A A, LaMendola J, Grens A, Bode H, Steiner D F
Howard Hughes Medical Institute, University of Chicago, IL 60637.
Proc Natl Acad Sci U S A. 1992 Aug 1;89(15):6678-82. doi: 10.1073/pnas.89.15.6678.
A subclass of proteolytic enzymes that correctly cleave precursor proteins at paired basic residues and are structurally related to the bacterial subtilisins has recently been identified. In yeast, a single membrane-bound proteolytic processing enzyme encoded by the kex2 gene has been found, whereas in higher vertebrates cDNAs encoding four distinct enzymes (PC2, PC3, furin, and PACE 4) have been identified. Like kex2, furin (also known as PACE) contains a hydrophobic transmembrane domain, but PC2, PC3, and PACE 4 lack this feature. All five enzymes exhibit striking similarities in their catalytic domains, and this suggests that they have arisen from a common ancestral subtilisin-like gene. We report here the identification of cDNAs encoding a protein that is similar in structure to PC3 from a simple metazoan, Hydra vulgaris (formerly Hydra attenuata). cDNAs encoding two isoforms of this PC3-like enzyme were obtained that differ only in their carboxyl-terminal sequences, probably due to alternative splicing of a common pre-mRNA. Neither form contains a transmembrane domain. Predicted amino acid sequence comparisons revealed that the hydra PC3-like enzyme is 55.4% and 56.7% identical in the catalytic domain to mouse PC3 and human furin, respectively. RNA blot analyses revealed that the PC3-like RNA is expressed predominantly in the hydra body column and not in the head region, although the hydra head contains a high density of nerve cells, which synthesize a variety of neuropeptides. For this reason, we suspect that another proprotein cleavage enzyme isoform may be expressed in head nerve cells. The isolation of a PC3-like cDNA from hydra is consistent with the presence of neuroendocrine cells and indicates that the PC/furin gene family has been well conserved in all metazoa. A simplified nomenclature for the group of mammalian processing proteases is proposed.
最近发现了一类蛋白水解酶的亚类,这类酶能在成对的碱性残基处正确切割前体蛋白,并且在结构上与细菌枯草杆菌蛋白酶相关。在酵母中,已发现由kex2基因编码的单一膜结合蛋白水解加工酶,而在高等脊椎动物中,已鉴定出编码四种不同酶(PC2、PC3、弗林蛋白酶和PACE 4)的cDNA。与kex2一样,弗林蛋白酶(也称为PACE)含有一个疏水跨膜结构域,但PC2、PC3和PACE 4缺乏这一特征。所有这五种酶在其催化结构域中表现出惊人的相似性,这表明它们起源于一个共同的祖先枯草杆菌蛋白酶样基因。我们在此报告,从一种简单的后生动物——普通水螅(原称细螅)中鉴定出了编码一种结构与PC3相似的蛋白质的cDNA。获得了编码这种PC3样酶两种同工型的cDNA,它们仅在羧基末端序列上有所不同,这可能是由于共同前体mRNA的可变剪接所致。两种形式均不包含跨膜结构域。预测的氨基酸序列比较显示,水螅PC3样酶在催化结构域中与小鼠PC3和人弗林蛋白酶的同一性分别为55.4%和56.7%。RNA印迹分析显示,PC3样RNA主要在水螅的体柱中表达,而不在头部区域表达,尽管水螅头部含有高密度的神经细胞,这些神经细胞能合成多种神经肽。因此,我们怀疑另一种前体蛋白切割酶同工型可能在头部神经细胞中表达。从水螅中分离出PC3样cDNA与神经内分泌细胞的存在一致,并表明PC/弗林蛋白酶基因家族在所有后生动物中都得到了很好的保守。本文提出了一种简化的哺乳动物加工蛋白酶类别的命名法。
