Volodymyr Antonyuk

Macrophages Discriminate Glycosylation Patterns of Apoptotic Cell-derived Microparticles

Background: Apoptotic cells release vesicles, which expose “eat-me” signals. Results: Vesicles originated from endoplasmic reticulum expose immature glycoepitopes and are preferentially phagocytosed by macrophages. Conclusion: Immature surface glycoepitopes serve as “eat-me” signals for the clearance of apoptotic vesicles originated from endoplasmic reticulum. Significance: Understanding the distinction by macrophages of apoptotic blebs may provide new insights into clearance-related diseases. Inappropriate clearance of apoptotic remnants is considered to be the primary cause of systemic autoimmune diseases, like systemic lupus erythematosus. Here we demonstrate that apoptotic cells release distinct types of subcellular membranous particles (scMP) derived from the endoplasmic reticulum (ER) or the plasma membrane. Both types of scMP exhibit desialylated glycotopes resulting from surface exposure of immature ER-derived glycoproteins or from surface-borne sialidase activity, respectively. Sialidase activity is activated by caspase-dependent mechanisms during apoptosis. Cleavage of sialidase Neu1 by caspase 3 was shown to be directly involved in apoptosis-related increase of surface sialidase activity. ER-derived blebs possess immature mannosidic glycoepitopes and are prioritized by macrophages during clearance. Plasma membrane-derived blebs contain nuclear chromatin (DNA and histones) but not components of the nuclear envelope. Existence of two immunologically distinct types of apoptotic blebs may provide new insights into clearance-related diseases.

Cytochemical study of role of α-d-mannose- and β-d-galactose-containing glycoproteins in apoptosis

Recently, we found increased levels of α-d-mannose- and β-d-galactose-containing glycoproteins in plasma membrane of the apoptotic murine leukemia L1210 cells (Bilyy & Stoika 2003). That indicator was suggested to be a novel marker of apoptosis in L1210 cells. The aim of our present work was to reveal if these changes in glycoprotein expression can be common for apoptotic cells of different origin and for various ways of apoptosis induction. It was demonstrated that an elevated expression of plasma membrane glycoproteins rich in α-d-mannose and β-d-galactose did not depend on type of cell line and its tissue origin as well as on nature of apoptosis-inducing agent. We also found that an increase in membrane glycoprotein expression was dependent on concentration of apoptosis-inducing agent and was time-dependent. Changes in glycoproteins’ expression were detected as early as 9–12 hours after apoptosis induction. Two hours pretreatment of cells with non-labeled lectin decreased plasma membrane staining with corresponding peroxidase-labeled lectin, probably because of lectin-induced internalization of specific membrane glycoproteins. PSL-lectin-affinity procedure was developed for isolation of apoptotic cells from their mixed population with normal cells. Lectin-dependent agglutination analysis showed that this process occurs at much lower lectin dilutions in the apoptotic cells than in the non-apoptotic cells. Thus, we found that α-d-mannose- and β-d-galactose-containing glycoproteins can be used for lectinocytochemical detection, study and isolation of apoptotic cells.

Cytotoxic proteins of Amanita virosa Secr. mushroom: purification, characteristics and action towards mammalian cells

A new hemolytic lectin was purified from the fruit bodies of Amanita virosa Secr. mushroom by the affinity chromatography on the cross-linked ovomucin. This lectin destroyed erythrocytes of human and animals of various species, and its hemolytic activity decreased in the row: rabbit > rat > human > dog. The erythrocytes of sheep, cow and carp were resistant to such hemolytic action of the lectin (1 mg/mL). The lectin-mediated hemolysis was blocked by the polyethylene glycol with molecular mass over 1350. A. virosa lectin, unlike Amanita phalloides lectin, did not interact with tested monosaccharides. However, the 4-nitrophenyl derivates of the monosaccharides inhibited the action of A. virosa lectin which did not prefer targeting O-type glycoproteins over the N-type glycoproteins. Murine leukemia cells of L1210 line and human leukemia T-cells of CEM T4 and Jurkat lines were shown to be sensitive to toxic effect of the lectin and another protein toxovirin isolated from A. virosa fruit bodies It was found that toxovirin possessed an enzymatic activity of L-amino acid oxidase. Since both toxic proteins--the lectin and toxovirin--are sensitive to an elevated temperature, it is suggested that they play a significant role in human poisoning only when the unbaked mushroom is eaten.

A new highly toxic protein isolated from the death cap Amanita phalloides is an l‐amino acid oxidase

A new highly cytotoxic protein, toxophallin, was recently isolated from the fruit body of the death cap Amanita phalloides mushroom [Stasyk et al. (2008) Studia Biologica 2, 21–32]. The physico‐chemical, chemical and biological characteristics of toxophallin differ distinctly from those of another death cap toxic protein, namely phallolysin. The interaction of toxophallin with target cells is not mediated by a specific cell surface receptor. It induces chromatin condensation, as well as DNA and nucleus fragmentation, which are typical for apoptosis. However, caspase III inhibitor [benzyloxycarbonyl‐Asp(OMe)‐fluoromethylketone] did not stop toxophallin‐induced DNA fragmentation. Thus, toxophallin uses a caspase‐independent pathway of apoptosis induction. In the present study, we applied a complementary approach based on a combination of proteomics and molecular biology tools for the protein identification of toxophallin. The primary structure of toxophallin was partially studied via direct sequencing of its tryptic peptides, followed by PCR‐based cloning of the corresponding cDNA. A subsequent bioinformatic search revealed a structural homology of toxophallin with the l‐amino acid oxidase of the Laccaria bicolor mushroom. This demonstrates the usefulness of our approach for the identification of proteins in organisms with unknown genomes. We also found a broad substrate specificity of toxophallin with respect to oxidizing selected amino acids. Ascorbic acid inhibited the cytotoxic effect of toxophallin, most likely as a result of scavenging hydrogen peroxide, which is the product of oxidase catalysis. Thus, in addition to highly toxic cyclopeptides and toxic lectin phallolysin, the death cap fruit body contains another cytotoxic protein in the form of an enzyme, namely l‐amino acid oxidase.

Magnetic poly(2-hydroxyethyl methacrylate) microspheres for affinity purification of monospecific anti-p46 kDa/Myo1C antibodies for early diagnosis of multiple sclerosis patients

The aim of the present study is to develop new magnetic polymer microspheres with functional groups available for easy protein and antibody binding. Monodisperse macroporous poly(2-hydroxyethyl methacrylate) (PHEMA-COOH) microspheres ~4 µm in diameter and containing ∼1 mmol COOH/g were synthesized by multistep swelling polymerization of 2-hydroxyethyl methacrylate (HEMA), ethylene dimethacrylate (EDMA), and 2-[(methoxycarbonyl)methoxy]ethyl methacrylate (MCMEMA), which was followed by MCMEMA hydrolysis. The microspheres were rendered magnetic by precipitation of iron oxide inside the pores, which made them easily separable in a magnetic field. Properties of the resulting magnetic poly(2-hydroxyethyl methacrylate) (mgt.PHEMA) particles with COOH functionality were examined by scanning and transmission electron microscopy (SEM and TEM), static volumetric adsorption of helium and nitrogen, mercury porosimetry, Fourier transform infrared (FTIR) and atomic absorption spectroscopy (AAS), and elemental analysis. Mgt.PHEMA microspheres were coupled with p46/Myo1C protein purified from blood serum of multiple sclerosis (MS) patients, which enabled easy isolation of monospecific anti-p46/Myo1C immunoglobulin G (IgG) antibodies from crude antibody preparations of mouse blood serum. High efficiency of this approach was confirmed by SDS/PAGE, Western blot, and dot blot analyses. The newly developed mgt.PHEMA microspheres conjugated with a potential disease biomarker, p46/Myo1C protein, are thus a promising tool for affinity purification of antibodies, which can improve diagnosis and treatment of MS patients.

Diabetic alteration versus postnatal maturation of rat kidney glycoconjugates — comparative detection by lectin probes

A panel of ten lectins with different carbohydrate specificities, including three original lectin preparations (MPFA, LABA, and LVA), was used for the investigation of rat kidney glycoconjugate remodeling during postnatal morphogenesis, and the findings were compared with the impairments seen in streptozotocin-induced diabetic nephropathy. Postnatal morphogenesis was accompanied by the accumulation and generalization of DMan, LFuc, and NeuNAc, with simultaneous reduction of DGal and DGalNAc sugar determinants and enhanced heterogeneity of renal microstructure. The most significant redistribution of lectin receptor sites was detected between postnatal days 1 and 20. Beginning from postnatal day 20, renal corpuscles showed selective MPFA, WGA, and RCA labeling. Stabilization of carbohydrate determinants on postnatal day 60 coincided with rat kidney maturity. Diabetic nephropathy induced carbohydrate remodeling reciprocal to that seen during postnatal development, that is, enhanced exposure of DGal and DGalNAc, reduced reactivity of DMan, LFuc, and NeuNAc determinants, and increased lectin labeling of renal tubule brush borders. These results extend the existing data on rearrangement of rat kidney glycoconjugates under physiological and pathological conditions, as well as demonstrate the applicability of three original lectin preparations in glycoconjugate histochemistry.