Nirasawa S, Nakajima Y, Zhang Z Z, Yoshida M, Hayashi K
Applied Enzymology Laboratory, National Food Research Institute, Tsukuba, Ibaraki 305-8642, Japan.
Biochem J. 1999 Jul 1;341 ( Pt 1)(Pt 1):25-31.
An aminopeptidase from Aeromonas caviae T-64 was translated as a preproprotein consisting of three domains; a signal peptide (19 amino acid residues), an N-terminal propeptide (101 residues) and a mature region (273 residues). We demonstrated that a proteinase, which was isolated from the culture filtrate of A. caviae T-64, activated the recombinant pro-aminopeptidase by removal of the majority of the propeptide. Using L-Leu-p-nitroanilide as a substrate, the processed aminopeptidase showed a large increase in kcat when compared with the unprocessed enzyme, whereas the Km value remained relatively unchanged. The similar Km values for the pro-aminopeptidase and the mature aminopeptidase indicated that the N-terminal propeptide of the pro-aminopeptidase did not influence the formation of the enzyme-substrate complex, suggesting the absence of marked conformational changes in the active domain. In contrast, the marked difference in kcat suggests a significant decrease in the energy of one or more of the transition states of the enzyme-substrate reaction coordinate. Moreover, we showed that the activity of the urea-denatured pro-aminopeptidase could be recovered by dialysis, whereas the activity of the urea-denatured mature aminopeptidase, which lacked the propeptide, could not. Further to this, the propeptide-deleted aminopeptidase formed an inclusion body in the cytoplasmic space in Escherichia coli and was not secreted at all. These results suggested that the propeptide of the pro-aminopeptidase acted as an intramolecular chaperone that was involved with the correct folding of the enzyme in vitro and was required for extracellular secretion in E. coli.
来自豚鼠气单胞菌T-64的一种氨肽酶被翻译为一种前原蛋白,其由三个结构域组成;一个信号肽(19个氨基酸残基)、一个N端前肽(101个残基)和一个成熟区(273个残基)。我们证明,从豚鼠气单胞菌T-64的培养滤液中分离出的一种蛋白酶,通过去除大部分前肽激活了重组氨肽酶原。以L-亮氨酰-对硝基苯胺为底物,与未加工的酶相比,加工后的氨肽酶的催化常数(kcat)大幅增加,而米氏常数(Km)值相对保持不变。氨肽酶原和成熟氨肽酶的Km值相似,表明氨肽酶原的N端前肽不影响酶-底物复合物的形成,这表明活性结构域中没有明显的构象变化。相比之下,kcat的显著差异表明酶-底物反应坐标的一个或多个过渡态的能量显著降低。此外,我们表明尿素变性的氨肽酶原的活性可通过透析恢复,而缺乏前肽的尿素变性成熟氨肽酶的活性则不能恢复。除此之外,缺失前肽的氨肽酶在大肠杆菌的细胞质空间中形成包涵体,根本不分泌。这些结果表明,氨肽酶原的前肽作为一种分子内伴侣,在体外参与酶的正确折叠,并且是大肠杆菌细胞外分泌所必需的。