[Inhibition of adherence of Corynebacterium diphtheriae to human buccal epithelium by glycoside hydrolases from marine hydrobiontes].

A possibility of adhesion inhibition of Corynebacterium diphtheriae to human buccal epithelium by glycoside hydrolases of marine hydrobiontes was investigated using alpha-galactosidase from marine bacterium Pseudoalteromonas sp. KMM 701, total enzyme preparation and beta-1,3-glucanase from marine fungi Chaetomium, total enzyme preparation and beta-1,3-glucanase from marine mollusk Littorina kurila, and total enzyme preparation from crystalline style of marine mollusk Spisula sachalinensis were used. The enzymes were added to test-tubes containing buccal epithelial cells and/or the toxigenic bacterial strain C. diphtheriae No 1129, v. gravis. All the investigated enzymes were able to abort C. diphtheriae adherence, to human buccal epithelocytes. Inhibition of adhesion was more pronounced in the case of treatment of epithelocytes with highly purified enzymes of marine hydrobiontes in comparison with total enzyme preparations. The significant inhibition of C. diphtheriae adhesion was observed when the enzymes were added to the epithelocytes with the attached microorganisms. The results obtained show that glycoside hydrolases of marine hydrobiontes degrade any carbohydrates expressed on cell surface of bacterium or human buccal epithelocytes, impair unique lectin-carbohydrate interaction and prevent the adhesion.

[Distribution of O-glycosylases in marine fungi of the Sea of Japan and the Sea of Okhotsk: characterization of exocellular N-acetyl-beta-D-glucosaminidase of the marine fungus Penicillium canescens].

The capacity to produce exocellular enmzymes was studied for 92 samples of fungi from various marine habitats in the Sea of Okhotsk (78 strains) and the Sea of Japan (14 strains). Strains producing highly active glycanases and glycosidases were found. Synthesis of O-glycosylhydrolases was stimulated by addition of laminaran to the nutrient medium. Highly purified N-acetyl-beta-D-glucosaminidase was isolated from the marine fungus Penicillium canescens. The molecular weight of the enzyme determined by SDS-Na-electrophoresis was 68 kDa. The enzyme displayed maximum activity at pH 4.5 and temperature 45 degrees C. Inactivation half-time of the enzyme at 50 degrees C was 25 min. N-acetyl-beta-D-glucosaminidase hydrolyzed both beta-glucosaminide and beta-galactosaminide bonds and possessed a high transglycosylazing activity.

[Metabolites of marine organisms as regulators of O-glycosylhydrolases].

The ability of metabolites contained in culture liquid of 62 strains of marine fungi to affect the activity of two digestive enzymes of marine mollusks--endo-1,3-beta-D-glucanase of Spisula sachalinensis and beta-D-glucosidase of Littorina kurila--was studied. It was found that 66 and 71% of specimens activated, 18 and 7% inhibited, and 16 and 22% did not affect the activity of endo-1,3-beta-D-glucanase and beta-D-glucosidase, respectively. It is demonstrated that the metabolites of brown algae and marine sponges can be used for a targeted regulation of enzyme biosynthesis by marine fungi. The protein inhibitor of endo-1,3-beta-D-glucanases isolated from the brown alga Laminaria cichorioides blocked the biosynthesis of almost all O-glycosylhydrolases in five strains of marine fungi studied. The presence in culture medium of halistanol sulfate from the marine sponge of the family Halichondriidae either did not affect or activated the biosynthesis of enzymes involved in carbohydrate metabolism by marine fungi.

[O-glycosylhydrolases of marine filamentous fungi. beta-1,3-Glucanases of Trichoderma aureviride]. / O-glikozilgidrolazy morskikh mitselial'nykh gribov. beta-1,3-Glukanazy Trichoderma aureviride.

The ability to produce extracellular O-glycosylhydrolases was studied in 14 strains of marine filamentous fungi sampled from bottom sediments of the South China Sea. The following activities were detected in the culture liquids of the fungi: N-acetyl-D-glucosaminidase, D-glucosidase, D-galactosidase, beta-1,3-glucanase, amylase, and pustulanase. beta-1,3-Glucanases were isolated by ultrafiltration, hydrophobic interaction chromatography, and ion-exchange chromatography, and their properties were studied. Data on products of enzymatic digestion of laminaran, absence of transglycosylation activity, and the pattern of action of natural inhibitors confirmed that beta-1,3-glucanase belonged to the exo type. Inhibitor analysis demonstrated the role of a thiol group and tryptophan and tyrosine residues in the catalytic activity.