Modulation of biorecognition of glucoamylases with Concanavalin A by glycosylation via recombinant expression.

Various types of glucoamylases were prepared to modulate their biospecific interaction with Concanavalin A. Glucoamylase Glm was isolated from the native yeast strain Saccharomycopsis fibuligera IFO 0111. Two glycosylated recombinant glucoamylases Glu's of S. fibuligera HUT 7212 were expressed and isolated from the strains Saccharomyces cerevisiae and one, nonglycosylated, from Escherichia coli. The biospecific affinity of those preparations to Concanavalin A was investigated and compared with the commercially available fungal glucoamylase GA from Aspergillus niger. All glycosylated enzymes showed affinity to Concanavalin A characterized by their precipitation courses and by the equilibration dissociation constants within the range from 1.43 to 4.17 x 10(-6) M (determined by SPR method). The results suggested some differences in the interaction of Con A with the individual glucoamylases. The highest affinity to Con A showed GA. The recombinant glucoamylase Glu with the higher content of the saccharides was comprised by two binding sites with the different affinity. The glucoamylases with the lowest affinity (Glm and Glu with a lower content of saccharides) also demonstrated a nonspecific interaction with Con A in the precipitation experiments. The minimal differences between the individual glucoamylases were determined by the inhibition experiments with methyl-alpha-d-mannopyranoside.

Characterization of immunomodulatory polysaccharides from Salvia officinalis L.

Crude polysaccharide fractions, rich mainly in arabinogalactans (A), pectin (B) and glucuronoxylan-related polymers (D), have been obtained from aerial parts of sage (Salvia officinalis L.) by sequential extraction with various reagents. Arabinogalactans displayed on HPLC a dominance of lower molecular-mass polymers (MW < 10,000), while pectin and glucuronoxylan-related polysaccharides showed predominance of polymers with MW > 50,000. Individual polysaccharide fractions were examined for their immunomodulatory activity in the in vitro comitogenic thymocyte test. The polysaccharide fractions tested possessed the capacity to induce rat thymocyte proliferation in the order D>B>A. Besides, fraction D possessed a significant comitogenic effect, and the SIcomit/SImit ratio 3-4 indicates potential adjuvant properties of this glucuronoxylan-rich material.

Influence of mannan epitopes in glycoproteins--Concanavalin A interaction. Comparison of natural and synthetic glycosylated proteins.

Two natural glycoproteins/glycoenzymes, invertase and glucoamylase, and two neoglycoconjugates, synthetized from Saccharomyces cerevisiae mannan, bovine serum albumin and penicillin G acylase were tested for interaction with lectin Concanavalin A (Con A). The interaction of natural and synthetic glycoproteins with Con A was studied using three different experimental methods: (i). quantitative precipitation in solution (ii). sorption to Con A immobilized on bead cellulose; and (iii). kinetic measurement of the interaction by surface plasmon resonance. Prepared neoglycoproteins were further characterized: saccharide content, molecular weight, polydispersion, kinetic and equilibrium association constants with Con A were determined. It can be concluded that the used conjugation method proved to be able to produce neoglycoproteins with similar properties like natural glycoproteins, i.e. enzymatic activity (protein part) and lectin binding activity (mannan part) were preserved and the neoglycoconjugates interact with Con A similarly as natural mannan-type glycoproteins.

Neoglycoconjugates of mannan with bovine serum albumin and their interaction with lectin concanavalin A.

Neoglycoconjugates were prepared from mannan isolated from yeast Saccharomyces cerevisiae and activated by periodate oxidation to create aldehyde groups. Various degrees of oxidation introduced 11-28 aldehyde groups per mannan molecule and simultaneously resulted in a molar mass decrease from 46 to 44.5-31 kDa. The activated mannans were subsequently conjugated with bovine serum albumin forming neoglycoconjugates. Some parameters of these mannan-bovine serum albumin conjugates were characterized: saccharide content 25-30% w/w, molar mass within the range 169-246 kDa, and polydispersion (M(w)/M(n)) from 2.8 to 3.6. The interaction of these conjugates with lectin concanavalin A was studied using three different methods: (i) quantitative precipitation in solution; (ii) sorption to concanavalin A immobilized on bead cellulose; and (iii) kinetic measurement of the interaction by surface plasmon resonance. Quantitative precipitation assay showed only negligible differences in the precipitation course of original mannan and the corresponding mannan-bovine serum albumin conjugates. Both the sorption method (equilibrium method) and the surface plasmon resonance measurement (kinetic method) demonstrates that the values of dissociation constant K(D) of all synthetic neoglycoconjugates were within the range 10(-7) - 10(-8) mol x L(-1) (close to K(D) = 10(-8) mol x L(-1) determined by the sorption method for the original mannan). In conclusion, characterization of synthetic neoglycoconjugates confirmed that the method used for their preparation retained the ability of mannan moiety to interact with concanavalin A.

Stability enhancement of Escherichia coli penicillin G acylase by glycosylation with yeast mannan.

Penicillin G acylase (PGA) from Escherichia coli was cross-linked with mannan dialdehydes. Conjugates were prepared with molecular masses varying from 140 to 580 kDa and containing from 18 to 50% (w/w) saccharides, the values depending on the reaction conditions (mannan/enzyme ratio), and by using mannans with different degrees of oxidation and weight-average molecular mass (M macro(w)). The pH- and thermo-stability of all preparations of glycosylated enzyme were improved remarkably, whereby the influence of the character of the linked mannan dialdehyde, its content, as well as the molecular mass of prepared glycoconjugates, on the stability of PGA, was evaluated. PGA glycosylated with the most oxidized mannan up to an M(w) of 490 kDa, containing 41% (w/w) saccharides, and retaining 90% of its original catalytic activity, showed the highest stability. The half-life of this PGA preparation increased significantly: 13-fold at pH 3, 7-fold at pH 10, and 3.5-fold at pH 8 (all at 37 degrees C), compared with the native enzyme. At higher temperatures (50 degrees C) even more significant stabilization was evident, a 16-fold increase in half-life, from 18 min to 289 min, at pH 8, being measured.

Study of interaction of mannan-BSA neoglycoconjugates with Concanavalin A.

Neoglycoconjugates prepared by synthesis of oxidized mannans from Saccharomyces cerevisiae with bovine serum albumin were studied for interaction with Concanavalin A. The mannan-bovine serum albumin neoglycoproteins, different in degree of mannan oxidation used for synthesis and its content in conjugates were prepared. The interaction of these glycoconjugates with Concanavalin A by using precipitation method was investigated. The conjugates prepared at high weight ratio mannan: protein (4:1) involved 47-65% of saccharides and formed by precipitation with Concanavalin A aggregates with low content of protein. The obtained results showed that conjugates with lower content of mannan (up to 30%) are more efficacious for their aggregation with Concanavalin A than the conjugates with high content of mannan.

Examination of bioaffinity immobilization by precipitation of mannan and mannan-containing enzymes with legume lectins.

The interaction of four lectins from crops of the legume family with Saccharomyces cerevisiae alpha-mannan, and also with two glycoenzymes containing mainly alpha-mannan moieties, has been studied. The interaction was characterized by a quantitative precipitation assay. The results of precipitation differ with respect to both quality (the point of maximum precipitation) and of the quantity (the amount of aggregated lectin and saccharide). The lectin concanavalin A [Con A, from jack bean (Canavalia ensiformis)] was observed to form more extensive precipitates with Saccharomyces cerevisiae mannan and glycoenzymes than did lectins from Lens culinaris (lentil) and Pisum sativum (garden pea), while in the case of Vicia faba (broad or fava bean) no interaction was found with either the examined mannans or with glycosylated enzymes. The complete precipitation of invertase and glucoamylase with Con A (enzymes and also Con A; up to 100%) was achieved at a Con A glycoenzyme molar ratio of 20.2 and 2.3 respectively, whereby about 85% of precipitated and also of initial activities of glycoenzymes were determined in the aggregates. More valuable results were achieved by the technique of enzyme immobilization called 'multiple bioaffinity layering' which is based on the stepwise biospecific adsorption of the glycosylated enzymes and Con A on a matrix precoupled with Con A. A 3-fold repetition of the layering procedure afforded up to a 10-fold increase in catalytic activity of the immobilized invertase, in contrast with a 2.1-fold increase in catalytic activity of the immobilized glucoamylase.

Sonication of chitin-glucan, preparation of water-soluble fractions and characterization by HPLC.

A water-insoluble chitin-glucan complex, isolated from the mycelium of Aspergillus niger, was swollen in various aqueous media and treated subsequently by high-energy sonication. The concentration of the resulting water-soluble polysaccharide fractions was dependent on the swelling medium, the amount of the chitin-glucan complex in the suspension, and on the time of sonication. The yields of water-soluble chitin-glucan were within the range 13.6 to 24.4% relative to the mass of the original chitin-glucan. The nitrogen content obtained for the samples of water-soluble chitin-glucan indicated a higher content of chitin (3.45% of nitrogen in high-molecular fraction) than in the original water-insoluble chitin-glucan sample (1.8%). The distribution of the molecular weights of the water-soluble fractions prepared was determined by high-performance liquid chromatography.