E. S. Oksenoit

L-Pyroglutamyl-L-phenylalanyl-L-leucine-p-nitroanilide--a chromogenic substrate for thiol proteinase assay.

L-Pyroglutamyl-L-phenylalanyl-L-leucine-p-nitroanilide (PFLNA)--a convenient chromogenic substrate for assay of thiol proteinases papain, ficin, and bromelain--was prepared by enzymatic synthesis with chymotrypsin as a catalyst. The thiol proteinases hydrolyze PFLNA with the liberation of p-nitroaniline, estimated spectrophotometrically by its absorbance at 410 nm. The phenylalanine residue in the P2 position of PFLNA meets the specificity demands of thiol proteinases. The following values of Km were found for PFLNA hydrolysis: by papain, 0.34 mM; by ficin, 0.43 mM; by bromelain, 0.30 mM. This substrate was successfully applied to monitor thiol proteinase affinity chromatography on bacitracin-Sepharose, which resulted in a 2- to 4-fold purification from commercial preparations.

Cysteine digestive peptidases function as post-glutamine cleaving enzymes in tenebrionid stored-product pests.

The major storage proteins in cereals, prolamins, have an abundance of the amino acids glutamine and proline. Storage pests need specific digestive enzymes to efficiently hydrolyze these storage proteins. Therefore, post-glutamine cleaving peptidases (PGP) were isolated from the midgut of the stored-product pest, Tenebrio molitor (yellow mealworm). Three distinct PGP activities were found in the anterior and posterior midgut using the highly-specific chromogenic peptide substrate N-benzyloxycarbonyl-L-Ala-L-Ala-L-Gln p-nitroanilide. PGP peptidases were characterized according to gel elution times, activity profiles in buffers of different pH, electrophoretic mobility under native conditions, and inhibitor sensitivity. The results indicate that PGP activity is due to cysteine and not serine chymotrypsin-like peptidases from the T. molitor larvae midgut. We propose that the evolutionary conservation of cysteine peptidases in the complement of digestive peptidases of tenebrionid stored-product beetles is due not only to the adaptation of insects to plants rich in serine peptidase inhibitors, but also to accommodate the need to efficiently cleave major dietary proteins rich in glutamine.

Activity and stability of native and modified subtilisins in various media.

The activity and stability of native subtilisin 72, its complex with poly(acrylic acid), and subtilisin covalently attached to poly(vinyl alcohol) cryogel were studied in aqueous and organic media by hydrolysis of specific chromogenic peptide substrates. Kinetic parameters of the hydrolysis of Glp-Ala-Ala-Leu-pNA by native subtilisin and its complex with poly(acrylic acid) were determined. Based on the comparative study of stability of native and modified subtilisins in media of various compositions, it was established that covalent immobilization of subtilisin on poly(vinyl alcohol) cryogel is the most effective approach to improve enzyme stability in water as well as in mixtures with low water content.

Peptide synthesis in organic media with the use of subtilisin 72 immobilized on a poly(vinyl alcohol) cryogel

Subtilisin 72 serine protease (EC 3.4.21.14) immobilized on a poly(vinyl alcohol) cryogel was used as a catalyst in the syntheses of N-protected peptide p-nitroanilides of the general formulas Z(or Boc)-Xaa-Phe-pNA (Xaa = Leu or Ala), Z-Ala-Xaa-Yaa-pNA (Xaa = Leu or Ala; Yaa = Leu or Phe), and Z-Ala-Ala-Xaa-Yaa-pNA (Xaa = Leu, Arg, or Gly; Yaa = Phe, Leu, Gly, Asp, or Glu). The syntheses were carried out in DMF-acetonitrile mixtures. A number of protected di-, tri-, and tetrapeptides were prepared in yields up to 99%. The syntheses were found to retain stereoselectivity under the conditions studied. The activation of carboxyl group of the acylating component was shown to have a positive effect upon the coupling rate.

Properties of post-proline cleaving enzymes from Tenebrio molitor

Two post-proline cleaving peptidases PPCP1 and PPCP2 with molecular masses of 101 and 63 kDa, respectively, hydrolyzing Z-AlaAlaPro-pNA were isolated for the first time from the larval midgut of the yellow mealworm Tenebrio molitor and characterized. PPCP1 was active only in acidic media, with a maximum at pH 5.6, whereas PPCP2, both in acidic and alkaline media with a maximum at pH 7.9. Using inhibitory analysis, both PPCP1 and PPCP2 were shown to belong to serine peptidases. The data obtained indicate that a Cys residue is located close to the PPCP2 substrate binding site. Z-Pro-prolinal, a specific inhibitor of prolyl oligopeptidases, completely inhibited PPCP2 and partially PPCP1. The substrate specificities of the isolated enzymes were studied. Z-Ala-Ala-Pro-pNA was the best substrate for PPCP1, and Z-Ala-Pro-pNA, for PPCP2. The combination of the properties allows characterization of PPCP2 as a proplyl oligopeptidase.

Stability and catalytic properties of subtilisin in acetonitrile/dimethylformamide mixtures with low water content

Subtilisin 72 suspension retained high activity and stability in the triple mixtures acetonitrile rDMFrwater DMF .. concentration was up to 70% vrv . The synthetic activity of subtilisin suspension was investigated using the model wx w x reaction of tetrapeptide Z-Ala-Ala-Leu-Phe-pNA formation from Z-Ala-Ala-Leu-OMe and Phe-pNA S s 30 mM, E s wx w x . 6 mM; S r E molar ratio 5000:1 . In the systems containing up to 60% DMF the 95% product yield was reached within 2 h. With DMF concentration increasing to 95%, the subtilisin catalytic efficiency notably decreased, though the product yield was still 30%. In the mixture acetonitriler80%DMFrwater, the effects of enzyme concentration, the reaction time and water content on the reaction progress were studied. q 2000 Elsevier Science B.V. All rights reserved.

Chemoenzymatic synthesis of new fluorogenous substrates for cysteine proteases of the papain family

A chemoenzymatic synthesis was developed for new highly specific fluorogenic substrates for cysteine proteases of the papain family, Abz-Phe-Ala-pNA (I) and Glp-Phe-Ala-Amc (II) (Abz, pNA, Glp, and Amc are o-aminobenzoyl, p-nitroanilide, pyroglutamyl, and 4-amino-7-methylcoumaride, respectively). Substrate (I) was obtained in an aqueous-organic medium using native chymotrypsin. Substrate (II) was synthesized in DMF-MeCN by the treatment with chymotrypsin and subtilisin Carlsberg immobilized on polyvinyl alcohol cryogel. Hydrolysis of substrate (I) with papain, ficin, and bromelain was accompanied by a 15-fold increase in fluorescence intensity, and that of substrate (II), by a change in the fluorescence spectrum. Unambiguity of enzymatic hydrolysis of the substrates after the Ala residue was shown. The specific activity of the substrate hydrolysis with papain, bromelain, and ficin and was determined. Papain showed the greatest activity for both substrates. The activity of all proteases under study was essentially higher for substrate (II), than for substrate (I). The lowest detectable papain concentrations were 2.4 × 10−10 M for (I) and 1.2 × 10−11 M for (II). A high selectivity of cysteine proteases for Glp-Phe-Ala-Amc was established.

Native and Modified Subtilisin 72 as a Catalyst for Peptide Synthesis in Media with a Low Water Content

The catalytic efficiencies of native subtilisin, its noncovalent complex with polyacrylic acid, and the subtilisin covalently immobilized in a cryogel of polyvinyl alcohol were studied in the reaction of peptide coupling in mixtures of organic solvents with a low water content in dependence on the medium composition, reaction time, and biocatalyst concentration. It was established that, in media with a DMF content >80%, the synthase activity of modified subtilisins is higher than that of the native subtilisin. The use of N-acylpeptides with a free carboxyl group was found to be possible in organic solvents during the enzymatic synthesis catalyzed by both native and immobilized subtilisin. A series of tetrapeptide p-nitroanilides of the general formula Z-Ala-Ala-Xaa-Yaa-pNA (where Xaa is Leu, Lys, or Glu and Yaa is Phe or Asp) was obtained in the presence of immobilized enzyme in yields of 70–98% in DMF–MeCN without any activation of the carboxyl component and without protection of side ionogenic groups of polyfunctional amino acids.

Proteinases immobilized on poly(vinyl alcohol) cryogel: novel biocatalysts for peptide synthesis in organic media

Covalent immobilization of subtilisin and thermolysin on cryogel of poly(vinyl alcohol) was carried out. The biocatalysts obtained are characterized by high stability in water and in DMF—MeCN mixtures of various compositions. The synthetic efficiency of immobilized subtilisin in the multiple iterative synthesis of the peptide Z—Ala—Ala—Leu—Phe—pNA was examined in organic mixtures of different solvent compositions. Immobilized subtilisin exhibits high synthetic activity in organic media. A series of N-acylated p-nitroanilides of tetrapeptides of the general formula Z—Ala—Ala—Xaa—Yaa—pNA (Z is benzyloxycarbonyl, Xaa = Leu, Lys, or Glu; Yaa = Phe or Asp; pNA = 4-NO2—C6H4NH-) were synthesized in 70—98% yields using immobilized subtilisin as a biocatalyst without activation and protection of the ionogenic groups of polyfunctional amino acids. Immobilized thermolysin in a DMF—MeCN mixture catalyzed the formation of the peptide Z—Ala—Ala—Leu—pNA, which was obtained in 90% yield (during 1 h). It was demonstrated that the biocatalyst can be used repeatedly and that it retained activity after storage in an aqueous buffer during 6 months.

The Enzymatic Segment Condensation of Peptides on a Solid Phase in Organic Medium

The segment condensation of peptides on a solid phase (Aminosilochrom) in organic medium catalyzed by a subtilisin complex with sodium dodecylsulfate was studied. The dependence of the efficiency of the enzymatic coupling of tripeptides with the basic structure X-Ala-Ala-Y-OMe [where X = Z, Boc, or Dnp and Y = Leu or Glu(OMe)] on the spacer (Phe-Met-Gly-Gly) content on the support and on the structure of the acylating component was investigated. The tripeptide segments were successively coupled to Aminosilochrom containing the Met-Ala-Gly spacer, and the peptidylaminosilochroms Dnp-Ala-Ala-Leu-Ala-Ala-Leu-Ala-Ala-Glu(OMe)-Met-Ala-Gly-Aand Dnp-Ala-Ala-Leu-Ala-Ala-Glu(OMe)-Ala-Ala-Leu-Met-Ala-Gly-A(Ais the Aminosilochrom residue) were obtained in satisfactory yields. It was shown by these examples that the second and third segments are attached in yields higher than that for the first segment and the coupling efficiency does not depend on the amino acid composition of the acylating component.