Grigorij Kogan

Hyaluronic acid: a natural biopolymer with a broad range of biomedical and industrial applications

Hyaluronic acid (hyaluronan, HA) is a linear polysaccharide formed from disaccharide units containing N-acetyl-d-glucosamine and glucuronic acid. It has a high molecular mass, usually in the order of millions of Daltons, and interesting viscoelastic properties influenced by its polymeric and polyelectrolyte characteristics. HA is present in almost all biological fluids and tissues. In clinical medicine, it is used as a diagnostic marker for many diseases including cancer, rheumatoid arthritis and liver pathologies, as well as for supplementation of impaired synovial fluid in arthritic patients by means of intra-articular injections. It is also used in certain ophthalmological and otological surgeries and cosmetic regeneration and reconstruction of soft tissue. Herein we present an overview of the occurrence and physiological properties of HA, as well as of the recent advances in production biotechnology and preparation of the HA-based materials for medical application.

Carboxymethylated glucan inhibits lipid peroxidation in liposomes.

Protective capabilities were studied of carboxymethylated (1→3)-β-ᴅ-glucan from Saccharomyces cerevisiae cell wall against lipid peroxidation in phosphatidylcholine liposomes in duced by OH· radicals produced with Fenton’s reagent (H2O2/Fe2+) and also by microwave radiation using absorption UV-VIS spectrophotometry. A significant decrease in the conjugated diene production, quantified as Klein oxidation index, was observed in the presence of a moderate amount of added glucan. Increase of the oxidation index was accompanied with enhanced carboxyfluorescein leakage as a result of liposome membrane destabilization. This process was markedly suppressed with glucan present in the liposome suspension. Therefore, glucan may be considered as a potent protector against microwave radiation-induced cell damage.

Degradation of High-Molar-Mass Hyaluronan by Ascorbate plus Cupric Ions: Effects of D-Penicillamine Addition

Pro- and anti-oxidative effects of an anti-rheumatoid drug, D-penicillamine (D-PN), on the kinetics of high-molar-mass hyaluronan (HA) degradation were monitored using the method of rotational viscometry. The degradation of the dissolved HA macromolecules was attained by applying the Weissbergers system comprising ascorbic acid plus cupric ions. Electron paramagnetic resonance (EPR) spectroscopy was used to identify the generated free radicals. The results obtained indicate that the initial anti-oxidative action of D-PN is followed by induction of pro-oxidative conditions due to the generation of reactive free radicals. It is speculated, however, that the latter situation may be considered as an advantageous property of D-PN. Hydroxyl radicals formed in this way may participate in decomposition of proteinases, which are believed to be responsible for the destruction of joint cartilage under rheumatoid arthritic conditions.

Stimulation of TNF-α Release by Fungal Cell Wall Polysaccharides

Carboxymethylated derivatives were prepared from the (1→3)-β-ᴅ-glucan isolated from the cell wall of baker’s yeast Saccharomyces cerevisiae and from the chitin-glucan complex of the mycelium of the industrial filamentous fungus Aspergillus niger. The polysaccharides were applied to peritoneal mouse macrophages and after a 2-h incubation the release of TNF-α by the stimulated macrophages was measured using an enzyme-linked immunosorbent assay. As the third polysaccharide stimulant, a water-soluble derivative of chitin was assayed and the observed cytokine release was compared with the control experiment. In three concentrations of the polysaccharides applied, carboxymethyl glucan revealed a dramatic increase in the TNF-α release, while addition of carboxymethyl chitin-glucan resulted only in a moderate enhancement, and carboxymethyl chitin was inactive. The results indicate that fungal polysaccharides, especially (1→3)-β-ᴅ-glucan, are potent macrophage stimulators and activators of TNF-α release, which implies their potential application in antitumor therapy.

Characterization of the novel chemically modified fungal polysaccharides as the macrophage stimulators.

By means of carboxymethylation, a novel water-soluble carboxymethyl chitin-glucan (CM-CG) was prepared from the mycelium of Aspergillus niger, and its ability to stimulate macrophages was assessed and compared to that of the previously studied carboxymethylated glucan (CMG) from the yeast Saccharomyces cerevisiae. It was demonstrated that single intraperitoneal (i.p.) administration of CMG and CM-CG to the CBA mice led to a significant increase of leukocyte number. At the same time, the number of monocytes in the bone marrow was increased to more than two-fold. Application of both polysaccharides also resulted in the augmented number of liver macrophages and to the rise of their content of the secondary lysosomes. A markedly enhanced carbon clearance was observed as well as the increased release of tumor necrosis factor-alpha by the peritoneal macrophages indicating their amplified phagocytic activity. The effect of CM-CG in these experiments was ca. 1.7 times higher than that of CMG. Administration of both polysaccharides also led to the elevated level of free acid phosphatase in liver homogenate, implying labilization of the lysosomes. Increased serum chitotriosidase also indicated increased macrophage activity. The results obtained indicate similar in vivo macrophage stimulation activity of both applied fungal polysaccharides and suggest their potential clinical use as non-toxic natural compounds.

Structure of the cell wall mannans of the pathogenic yeasts of Candida species—A complex insight

Abstract Cell wall d -mannans were isolated from all eight known pathogenic strains of genus Candida. Their structural characterization was carried out by means of acetolysis and methylation analysis, as well as NMR spectroscopy. The results point out some common features and peculiarities of the structures of individual d -mannans. Differences observed in the structures of investigated mannans may be responsible for the differences in immunological properties of the corresponding yeast strains.

Antigenotoxic potential of glucomannan on four model test systems

Antimutagenic, anticlastogenic, and bioprotective effect of polysaccharide glucomannan (GM) isolated fromCandida utilis was evaluated in four model test systems. The antimutagenic effect of GM against 9-aminoacridine (9-AA)- and sodium azide (NaN3)-induced mutagenicity was revealed in theSalmonella typhimurium strains TA97 and TA100, respectively. GM showed anticlastogenic effect against N-nitroso-N′-methylurea (NMU) induced chromosome aberrations in theVicia sativa assay. The bioprotective effect of GM co-treated with methyl-methane-sulphonate (MMS) was also established inChlamydomonas reinhardtii repair deficient strainsuvs10 anduvs14. The statistically significant antimutagenic potential of GM was not proved against 4-nitro-quinoline-1-oxide (4-NQO)-induced mutagenicity inSaccharomyces cerevisiae D7 assay. It may be due to bioprotectivity of α-mannan and β-glucan, which are integral part ofS. cerevisiae cell walls. Due to the good water solubility, low molecular weight (30 kDa), antimutagenic/anticlastogenic, and bioprotective activity against chemical compounds differing in mode of action, GM appears to be a promising natural protective (antimutagenic) agent.

Comparative DNA protectivity and antimutagenicity studies using DNA-topology and Ames assays

Two experimental techniques, the DNA-topology assay and the Ames assay, were proved to be suitable for monitoring compounds with a genotoxic potential and/or with an antimutagenic effect. Both procedures were used in assaying the acid-mine water (AMW) containing toxic metals and sulfoethyl chitin-glucan (SE-Ch-G), a derivative of chitin-glucan, in which bioprotective activities were detected earlier. It was shown that after toxic metal concentrations were decreased due to AMW dilution to the limits that correspond with those set by the Slovak Technical Norm (STN) for drinking water, AMW was not genotoxic in the Ames assay. As it is possible to detect any single-strand DNA (ssDNA) break in the DNA-topology assay, the SE-Ch-G protective effect against the ssDNA breaks induced by Fe(2+) in the DNA-topology assay was recorded. SE-Ch-G exhibited the antimutagenic potential after its application simultaneously with diagnostic mutagens in the Ames assay. These results demonstrate the complementarity of both experimental systems.

Protective effects of manganese(II) chloride on hyaluronan degradation by oxidative system ascorbate plus cupric chloride.

Protective effects of manganese(II) chloride on hyaluronan degradation by oxidative system ascorbate plus cupric chloride The degradation of several high-molar-mass hyaluronan samples was investigated in the presence of ascorbic acid itself and further by an oxidative system composed of ascorbic acid plus transition metal ions, i.e. Fe(II) or Cu(II) ions. The latter oxidative system imitates conditions in a joint synovial fluid during early phase of acute joint inflammation and can be used as a model for monitoring oxidative degradation of hyaluronan under pathophysiological conditions. The system Cu(II) plus ascorbate (the Weissberger oxidative system) resulted in a more significant decrease of hyaluronan molar mass compared to the oxidative system Fe(II) plus ascorbate. Addition of manganese(II) chloride was found to decrease the rate of the oxidative damage of hyaluronan initiated by ascorbate itself and by the Weissberger system.

Antibody response in mice infected with Mesocestoides vogae (syn. Mesocestoides corti) tetrathyridia after treatment with praziquantel and liposomised glucan

The therapeutic effect of praziquantel (PZQ) involves synergy with the humoral immune response during helminth infections, which is modulated by parasitic antigens. During experimental murine infections with the larval stage of cestoda Mesocestoides vogae (syn. M. corti), dynamic changes in the IgG and IgM antibody serum levels to both soluble somatic and secretory larval antigens were investigated after administration of PZQ alone and after its co-administration with the immunomodulator (l→3)-β-d-glucan entrapped in liposomes (lip.glucan).During the 2 weeks of follow-up after termination of therapy, specific IgG and IgM serum levels to the somatic antigens (enzyme-linked immunosorbent assay test) significantly decreased, whereas concentrations of the antibodies to the secretory antigens moderately increased, both in comparison with the control. Moreover, the number of immunogenic larval antigens (analysed by Western blot) was higher after combined therapy in comparison with single drug administration, which correlated with the intensity of reduction of the larval counts in the liver and peritoneal cavity of mice. Our data showed that administration of PZQ alone and in combination with lip.glucan resulted in marked changes in the dynamics of IgG and IgM antibodies to the somatic larval antigens, which were probably induced by the newly exposed antigens. In this respect, glucan can enhance chemotherapeutic activity of PZQ against larval cestodes by means of stimulation of the macrophage/monocyte effector functions, which seemed to contribute to the more intense larval damage.