Comparative enzymologic analysis of the creatine kinases from the skeletal muscles of the cod, frog and rabbit

Electrophoretic studies have been made of the protein composition and isozymic pattern of the creatine kinase from muscles of the cod. It was shown that this enzyme constitutes up to 40% of total water-soluble proteins of muscle tissue. Isolation and purification procedures were suggested for the creatine kinase from cod muscles which allow to obtain the enzyme with the specific activity 250-350 IU/mg. Comparative enzymic analysis of creatine kinases from muscle tissue of the cod, lake frog, and rabbit was also made. Studies were carried out on temperature dependence of the reaction, kinetic constants at temperatures 5 and 30 degrees C were determined together with other physicochemical properties of the enzymes. The revealed species specific differences are discussed in relation to the structure and function of the enzymes in lower vertebrates in vivo.     

Glucocorticoid hormones in immunomodulating effect of defensins

Defensins are a family of antimicrobial cationic peptides localized mainly in neutrophile granulocytes. The defensins are known to display corticostatic activity by means of suppression of stress- and ACTH-induced rise in corticosterone level in the blood. The present study examines influence of defensin fractions with different corticostatic activity on suppressor functions of T-lymphocytes. It was shown that corticostatic effects of defensins are revealed under an increased level of glucocorticoids in the blood after hydrocortisone application. Defensins were found to limit the inhibitory action of glucocorticoids on the suppressor functions of T-lymphocytes. After adrenalectomy this phenomenon was not observed.     

Erratum to: Experimental Search for New Means of Pathogenetic Therapy COVID-19: Inhibitor of H2-Receptors Famotidine Increases the Effect of Oseltamivir on Survival and Immune Status of Mice Infected by A/PR/8/34 (H1N1)

Journal of Evolutionary Biochemistry and Physiology -     

Cationic antimicrobial peptides as molecular immunity factors: multi-functionality

Cationic antimicrobial peptides (AMP) of mammals (defensins, cathelicidins, protegrins and many others) are regarded as important components of congenital immunity. AMP are multifunctional molecules, capable of killing microorganisms directly by acting as endogenic, natural antibiotics ("immediate immunity"); in addition, they may take part in congenital and adaptive immune reactions (immunoregulation) and function as signal molecules, involved into tissue reparation, inflammation (including sepsis), blood coagulation and other important processes in the body. The molecular mechanisms of the direct antimicrobial action of AMP are considered. In addition to antimicrobial and immunoregulating action, AMP have influence on immunoneuroendocrine interactions, taking part in the pathogenesis of stress reactions (corticostatic action), as well as play the role of regulatory peptides of adaptogenic action. The many-sided character of the action of AMP opens prospects to the creation of new medicinal remedies on their basis. Such requirements are met by the Russian preparation "Superlymph" (a complex of natural cytokines), containing protegrin-like AMP.     

Antimicrobial effects of α-defensins from leukocytes of the hamadryas baboon <Emphasis Type="Italic">Papio hamadryas</Emphasis>

To understand the emergence and evolutionary selection of the efficient mechanisms of innate immunity it is necessary to accumulate knowledge about the structural and functional properties of antimicrobial peptides in different animal species. The cationic antimicrobial peptides, α-defensins, were isolated from leukocytic extracts of the lower narrow-nosed monkey, hamadryas baboon Papio hamadryas, using ultrafiltration, preparative electrophoresis and reverse-phase highperformance liquid chromatography. Analysis of the antimicrobial properties of α-defensins showed that they display a wide spectrum of antimicrobial activity, comparable with that of human α-defensin HNP1, and exert bactericidal and fungicidal effects at micromolar concentrations. A study of the influence of different medium conditions on antimicrobial activity of α-defensins revealed that a higher ionic strength or the presence of blood serum leads to a marked decrease in antimicrobial activity of α-defensins, while pH has no appreciable effect on it. We found that hamadryas baboon α-defensins are able to increase the permeability of the outer and inner membranes of E. coli, suggests that the bacterial membrane is one of the major targets of the antimicrobial effects of these peptides. The revealed differences in antimicrobial activity of α-defensins may result from their structural heterogeneity, which reflects different pathways of evolution of α-defensins in primates and underlies the selectivity of their antimicrobial effect.     

Effects of antimicrobial peptides of neutrophils on tumor and normal host cells in culture

We carried out a study of the effects of two structurally different cationic antimicrobial peptides of cathelicidin family, porcine protegrin 1 (PG1) and caprine Bac5 on selected tumor and normal mammalian cells in vitro. Protegrins are amphiphilic β-hairpin molecules having broad-spectrum antimicrobial activity due to their marked membranolytic effects. Bac5 belongs to a group of proline-rich peptides, which adopt a polyproline type II extended helix and kill microorganisms rather by a nonlytic mechanism. We have shown that while PG1 exerted distinct and fast cytotoxic effects towards most of used tumor cells being in a lesser degree toxic for nontransformed host cells; the proline-rich peptide Bac5 possessed modest cytotoxic activity for all tested cells. The toxic effects of PG1 were partially declined in the presence of 10% fetal calf serum. It was revealed that PG1 was able to interact with proteins of serpin family (as was previously established for human defensins by Panyutich at al., 1995). Pre-incubation of PG1 with α1-antitrypsin caused the decrease of the cytotoxic activity of the peptide and, on the other hand, the antiprotease activity of α1-antitrypsin was reduced after the interaction of the serpin with PG1 (while Bac5 did not affect the antiprotease activity of α1-antitrypsin). We used BODIPY FL-tagged PG1 and Bac5 to study the internalization of the labeled peptides into target cells and their intracellular distribution by confocal microscopy. Bac5-BODIPY (at 5 μ M) was rapidly taken into the cells. PG1-BODIPY at non-toxic concentrations (1—3 μM) was also able to enter the cells without their damaging. By using flow cytometry we showed that lowering a temperature to 4°C caused a significant decrease in the uptake into K562 and U937 cells for both Bac5-BODIPY and PG1-BODIPY. A decline of target cells metabolism also diminished the process of both peptides internalization but for a lesser degree. In the presence of endocytosis inhibitors the penetration of Bac5-BODIPY and PG1-BODIPY into K562 cells was also reduced, but not completely abolished, suggesting that along with endocytosis process some direct penetration of the peptides across cell membranes takes place. The ability of the peptides to internalize into eukaryotic cells may contribute to the idea of participation of AMPs in varied intracellular events, occurring in normal or malignant host cells, for instance, in the modulation of intracellular serpins activity.     

Redox regulation of morphology,cell stiffness,and lectin-induced aggregation of human platelets

Redox regulation and carbohydrate recognition are potent molecular mechanisms which can contribute to platelet aggregation in response to various stimuli. The purpose of this study is to investigate the relationship between these mechanisms and to examine whether cell surface glycocalyx and cell stiffness of human platelets are sensitive to the redox potential formed by glutathione. To this end, human platelets were treated with different concentrations (0.05 μM to 6 mM) and ratios of reduced or oxidized glutathione (GSH or GSSG), and platelet morphological, mechanical, and functional properties were determined using conventional light microscopy, atomic force microscopy, and lectin-induced cell aggregation analysis. It was found that lowering the glutathione redox potential changed platelet morphology and increased platelet stiffness as well as modulated nonuniformly platelet aggregation in response to plant lectins with different carbohydrate-binding specificity including wheat germ agglutinin, Sambucus nigra agglutinin, and Canavalia ensiformis agglutinin. Extracellular redox potential and redox buffering capacity of the GSSG/2GSH couple were shown to control the availability of specific lectin-binding glycoligands on the cell surface, while the intracellular glutathione redox state affected the general functional ability of platelets to be aggregated independently of the type of lectins. Our data provide the first experimental evidence that glutathione as a redox molecule can affect the mechanical stiffness of human platelets and induce changes of the cell surface glycocalyx, which may represent a new mechanism of redox regulation of intercellular contacts.     

Isolation,purification and de novo sequencing of TBD‐1, the first beta‐defensin from leukocytes of reptiles

A novel peptide with antimicrobial activity was isolated from leukocytes of the European pond turtle Emys orbicularis and purified to homogeneity by preparative gel electrophoresis followed by reversed phase chromatography. It was highly active in vitro against Escherichia coli, Listeria monocytogenes, methicillin‐resistant Staphylococcus aureus, and Candida albicans. The isolated peptide was sequenced de novo by tandem mass spectrometry using both collision‐induced and electron‐transfer dissociation in combination with different chemical derivatization techniques. The 40‐residue peptide, called TBD‐1 (turtle β‐defensin 1), represents the first defensin isolated from reptilian leukocytes. It contains three disulfide bonds and shows high structural similarities to β‐defensins isolated from birds and mammals.