Hitoshi Hori

Functional characterization of Asp-317 mutant of human renin expressed in COS cells

Renin is an unique aspartyl (acid) protease with optimal activity at neutral pH. It has been suggested that Ala‐317 of human renin contributes to neutral optimum pH of the enzyme [(1984) FEBS Lett. 174, 102–111]. The hypothesis was verified by the characterization of mutant renin in which Ala‐317 was replaced with Asp by a site‐directed mutagenesis. Wild‐type and mutant renins, which were expressed in COS cells, exhibited different pH‐activity profiles and optimum pH of the mutant enzyme was lower than that of the wild‐type enzyme. This result suggests that Ala‐317 of human renin plays an important role in the determination of optimum pH of the enzyme.

Role of N-linked oligosaccharides attached to human renin expressed in COS cells

One or both of two putative N‐glycosylation sites (at asparagine‐5 and ‐75) of human renin was eliminated by amino acid replacement of the asparagine residue with an alanine residue using site‐directed mutagenesis. The three glycosylation‐deficient renins (Asn‐5, Asn‐75, Asn‐S and ‐75 mutants) were expressed in COS cells and secreted into the conditioned media. The secreted amounts of the three mutants were different from one another, although the mutant and wildtype renins had practically the same specific activity. An Asn‐5 and ‐75 mutant which did not contain any glycosylation sites was unstable in the medium, suggesting that the N‐linked oligosaccharides play an important role in stabilization of human renin.

Protein modeling of human prorenin using the molecular dynamics methods

To study the activation-inactivation mechanism of the renin zymogen, prorenin, a tertiary structural model of human prorenin was constructed using computer graphics and molecular dynamics calculations, based on the pepsinogen structure. This prorenin model shows that the folded prosegment polypeptide can fit into the substrate binding cleft of the renin moiety. The three positively charged residues, Arg10, Arg15, and Arg20, in the prosegment make salt bridges with Asp225, Glu331, and Asp60, respectively, in renin. Arg43, which is in the processing site, forms salt bridges with the catalytic residues of Asp81 and Asp269. These ionic interactions between the prosegment and the renin may contribute to keeping the prorenin structure as an inactive form.

Expression of rat renin in mammalian cells and its purification.

Rat renin cDNA was transfected into COS-7 and Chinese hamster ovary (CHO) cells and expressed under the control of the Simian Virus 40 early promoter. Conditioned media of the transfected cells showed renin activity only after trypsin treatment, suggesting prorenin was secreted into the medium. From the trypsinized serum-free culture of the transfected CHO cells active renin was purified to homogeneity by a simple three-step procedure. The active renin had similar specific activity, molecular weight, Km, pH optimum, and isoelectric point compared to native renin. The amino-terminal sequence was the same as that deduced from the renin cDNA. This suggests that the recombinant rat renin is similar to kidney renin in many respects, and is easily obtained by the present procedures.

Expression of a deletion mutant of the prosegment of human prorenin in Chinese hamster ovary cells

Expression plasmids encoding native human preporenin and a mutant deleted in its entire prosegment were transfected into Chinese hamster ovary cells. The cells transfected with the expression plasmid of native preporenin secreted exclusively inactive prorenin, while the cells transfected with the mutant secreted the active enzyme. The secreted amount of renin from the latter cells was much lower than that of prorenin from the former ones, although these two enzymes had little difference in specific activity after trypsin activation. These results suggest that the prosegment plays an important role in the secretory process of renin, although the fully active enzyme can be formed in its absence.

Immunoaffinity purification of human prorenin produced in Chinese hamster ovary cells

A simple immunoaffinity column chromatographic procedure is described whereby recombinant human prorenin secreted from Chinese hamster ovary cells may be isolated in a high state of purity from serum-free culture medium. Prorenin thus purified has been characterized by SDS-polyacrylamide gel electrophoresis and by partial sequence analysis which has revealed the expected N-terminal sequence. Trypsin treatment gives rise to renin, and reversible acid activation has also been demonstrated for the recombinant zymogen.

Expression and purification of human angiotensinogen in Chinese hamster ovary cells

We have produced human angiotensinogen in Chinese hamster ovary (CHO) cells. The expression products were purified to homogeneity by a single column chromatography and its 17 amino-terminal sequences were identical to those of the native protein. We demonstrated the recombinant human angiotensinogen to be a substrate for human renin.

Characterization of N-Linked Oligosaccharides Attached to Human Renin Expressed in COS Cells

To study the role of N-linked oligosaccharides attached to human renin, we generated three kinds of glycosylation-deficient renins in which one or both of two putative N-glycosylation sites was eliminated by amino acid replacement using site-directed mutagenesis. Examination of the three mutant renins (Asn-5 to Ala, Asn-75 to Ala, and both Asn-5 and -75 to Ala) expressed in COS cells demonstrated that both putative sites were certainly glycosylated with heterologous N-linked oligosaccharides. Moreover, the oligosaccharide chain attached at Asn-5 was different from that attached at Asn-75 in its molecular size. In addition, the secreted amount of the three mutant renins were different from one another, although the mutant and wild-type renins had practically the same specific activity. Our results suggest that the N-linked oligosaccharides have no effect on the enzymatic activity, but play an important role in stable secretion of human renin.