E. Yu. Rybakova

[A study of the adhesive glycoprotein-inactivating protein from mammalian blood serum].

A protein with a molecular weight of 70 kDa was isolated from bovine blood serum and purified to a homogenous state. This protein reversibly inhibited the adhesive serum glycoprotein with a molecular weight of 12 kDa, which displayed biological activity at ultralow doses. Amino acid analysis showed that the protein inactivator belongs to the group of prealbumins from vertebrate blood serum. The secondary structure of its molecule was characterized by a considerable number of α-helices. The conditions for inactivation of serum glycoprotein were studied. The interaction between the serum glycoprotein and the protein inactivator occurred over a long period of time (1 day). It should be emphasized that the presence of calcium ions was a necessary condition for the inactivation of the serum glycoprotein. The data suggest that inactivation of serum glycoprotein results from the formation of a molecular complex consisting of the protein inactivator and the glycoprotein, which is related to the carbon–protein interaction.

Burn-Healing Effects of a Composition Containing Chitosan Gel and a Blood Serum Bioregulator

We studied the effect of combined preparation on the basis of chitosan containing a bioregulator isolated from cattle serum in a concentration of 10--10 mg/ml on healing of II-IIIa degree skin burns in mammals in vivo.

Study of a new group of bioregulators isolated from the greater plantain (Plantago major L.)

Proteins with physicochemical properties and biological activity similar to those of membranotropic homeostatic tissue-specific bioregulators that had been found earlier in various animal tissues were discovered in leaves of the common plantain (Plantago major L.). To study the specific activity of these plant proteins, we developed an experimental model for organotypic roller cultivation of newt (Pleurodeles waltl) skin tissue in vitro. We showed that the plant proteins of interest exert the wound-healing effect, which is characteristic of this plant, on the skin of vertebrates both in vitro and in vivo.

[Low-molecular-weight glycoprotein from cattle blood serum: structure and properties].

The amino acid composition, structure, and physicochemical properties of a low-molecular-weight glycoprotein from cattle blood serum (SGP) were studied. The content of carbohydrates (represented by mannose-rich oligosaccharides) amounted to 45–50 wt %. The value of the specific partial heat of SGP, measured by differential scanning calorimetry (DSC), equaled 1.8 J/(g K), which is characteristic of unfolded proteins. Circular dichroic (CD) spectra of SGP led us to conclude that it is not highly structured and that it occurs in the shape of a statistical globule. The protein was deglycated using anhydrous trifluoromethane sulfonate (TFMS), after which its amino acid composition and the sequence of a fragment were determined. The results indicate that SGP is a protein not studied previously.

Effect of Bioregulators Isolated from the Liver, Blood Serum, and Bile of Mammals on the State of Newt Liver Tissue in Organotypic Culture

We developed models of in vitro organotypic culturing of newt liver tissue with and without adhesion to the substrate. The effects of bioregulators isolated from mammalian liver, blood serum, and bile were studied on the developed models and their specifi city was demonstrated. The state of the liver was evaluated by the area of clusters of pigmented cells and by the number of mitoses in the connective tissue cells of the cortical layer. These bioregulators exhibited their biological effects only under conditions of roller organotypic culturing of newt liver tissue.

MALDI-TOF mass spectrometric identification of novel intercellular space peptides

We performed the matrix-assisted laser desorption/ionisation, time-of-flight mass spectrometry (MALDI-TOF) analysis of the peptides entering into the composition of not yet explored bioregulators derived from the extracellular matrix of the tissues of the various organs of the mammals, and also plants and fungi. The study included 15 different mammalian tissues, 13 species of plants, and 2 species of fungi. Exploring the bioregulators derived from eye tissues, we demonstrated that their composition includes peptide components with the same values of the molecular weight. The composition of the bioregulators derived from the tissues of various organs of mammals or different species of plants and fungi includes the peptides with different values of molecular weight. Obtained data indicate the growing evidence of the assumptions about the major function of the bioregulators of this group—their involvement in the regulation of tissue-organ homeostasis in the biological systems.

The effect of the chemical nature of implant materials on regeneration processes in an implant site

The literature data on implant materials for recovering from osseous injuries and defects were reviewed. Hydroxyapatite and bioactive glass are the leading artificial implant materials. Chitosan, polylactide, adgelon, and salicylic acid have found application in this area as biocompatible surgical materials that also promote wound healing and regeneration. When using hydroxyapatite as an implant material, its active groups, such as phosphate, hydroxyl, and others provide contacts; cell migration and adhesion on the matrix surface, formation of an intermediate layer of osteoid type, and fusion of bone and implant then occur. In the case of bioactive glass, the silanol groups are involved in bond formation. The study of mechanisms of bond formation between biological tissue and implant material and search for new biocompatible materials are important tasks of medical research in the field of implantation and post-traumatic regeneration.