Abstract
The S1 substrate specificity of porcine pepsin has been altered to resemble that of fungal aspartic proteinase with preference for a basic amino acid residue in P1 by site directed mutagenesis. On the basis of primary and tertiary structures of aspartic proteinases, the active site-flap mutants of porcine pepsin were constructed, which involved the replacement of Thr-77 by Asp (T77D), the insertion of Ser between Gly-78 and Ser-79 (G78(S)S79), and the double mutation (T77D/G78(S)S79). The specificities of the mutants were determined using p-nitrophenylalanine-based substrates containing a Phe or Lys residue at the P1 position. The double mutant cleaved the Lys-Phe(4-NO2) bonds, while wild-type enzyme digested other bonds. In addition, the pH dependence of hydrolysis of Lys-containing substrates by the double mutant indicates that the interactions between Asp-77 of the mutant and P1 Lys contribute to the transition state stabilization. The double mutant was also able to activate bovine trypsinogen to trypsin by the selective cleavage of the Lys6-Ile7 bond of trypsinogen. Results of this study suggest that the structure of the active site flap contributes to the S1 substrate specificity for basic amino acid residues in aspartic proteinases.
Highlights
The S1 substrate specificity of porcine pepsin has been altered to resemble that of fungal aspartic proteinase with preference for a basic amino acid residue in P1 by site directed mutagenesis
Porcine pepsinogen cDNA was cloned by reverse transcriptase-polymerase chain reaction (PCR), using total RNA from porcine gastric mucosa as a template
These results indicated that the double mutation in the active site flap altered substrate specificity of porcine pepsin to those of fungal aspartic proteinases, aspergillopepsin, penicillopepsin, and rhizopuspepsin
Summary
ALTERATION OF S1 SUBSTRATE SPECIFICITY OF PEPSIN TO THOSE OF FUNGAL ASPARTIC PROTEINASES BY SITE-DIRECTED MUTAGENESIS*. Pepsin (EC 3.4.23.1) is a typical aspartic proteinase produced in the gastric mucosa of vertebrates as a zymogen form This enzyme has been extensively characterized, and its three-dimensional structure has been determined at high resolution [2, 3, 9]. The present studies investigated whether the active site flap controls the S1 subsite specificity of aspartic proteinases, and for this we generated several mutants of porcine pepsin by site-directed mutagenesis and analyzed their enzymatic properties. The substitution of Thr-77 by Asp and the insertion of Ser between Gly-78 and Ser-79, corresponding to the fungal enzymes, conferred upon porcine pepsin the ability to hydrolyze the substrate containing a Lys residue at the P1 position These experiments provide positive evidence of the importance of the active site flap of aspartic proteinases in the S1 subsite specificity
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