Vladimir Nikolaevich Afanasyev

Cytotoxic activity of 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide is underlain by DNA interchain cross-linking.

Abstract.Currently, chemical bifunctional cross-linkers are regarded as promising therapeutic agents capable of affecting cell metabolism. Depending on the nature of the active groups and on the length of their mediating spacer, these cross-linkers have been shown to influence mitochondrial functions, the cell cycle and cell death. The current study was aimed to assay cellular effects of a cross-linker with ‘zero’-length spacer, 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide (EDC). When added to cultures of transformed cells, EDC induced a G2/M blockade followed by cell death. Analysis of the molecular targets revealed that alteration of the cell cycle was caused by EDC-induced interchain cross-linking within double-stranded DNA. Administration of EDC to animals with experimental tumors increased their life span. The analysis of tumor cells from EDC-treated mice showed up-regulation of p21/WAF1, disturbance of tumor cell cytokinesis and, hence, cell death. Thus, both in vitro and in vivo, EDC exhibits cytotoxic activity, which may be of potential therapeutic use.

Development of a competitive double antibody lateral flow assay for the detection of antibodies specific to glycoprotein B of Aujeszky's disease virus in swine sera

Three lateral flow assays (LFAs) for the detection of antibodies against glycoprotein B (gB) of Aujeszkys disease virus (ADV) in swine sera: a competitive double antibody sandwich LFA without a preincubation step (CDAS-gB-LFA), a CDAS-gB-LFA with a preincubation step (pCDAS-gB-LFA), and a competitive direct gB-LFA have been developed and were compared with each other and with a gB-ELISA. The assays are based on monoclonal antibodies to immunodominant epitopes of ADV gB. The pCDAS-gB-LFA proved to be the most specific and sensitive assay to detect antibodies directed to ADV gB. The specificity and sensitivity of the pCDAS-gB-LFA with the use of an LFA reader for test line intensity measurements were 97.6 and 94.9%, respectively. The lower diagnostic sensitivity of the pCDAS-gB-LFA compared to a gB-ELISA reflects its reduced analytical sensitivity, which was shown in titration experiments with positive sera. The pCDAS-gB-LFA, using the reader-based and visual detection modes, showed good agreement in respect to specificity; however, the LFA reader detection provided a higher diagnostic and analytical sensitivity compared to visual detection. The developed pCDAS-gB-LFA is a rapid, sensitive, and specific method for the detection of antibodies to ADV gB and can be used for screening ADV-infected swine in unvaccinated herds.

Cell death induced by chemical homobifunctional cross-linkers: Cross-linker induced apoptosis

Physical association of proteins that underlies cytotoxic signal induction and transduction suggests a possibility of regulating cell response by modifying protein-protein interactions. For protein complexing, chemical cross-linking agents have been traditionally used. However, the ability of various cross-linkers to induce and modify cell responses, cell death in particular, is still obscure. We have undertaken the investigation to test the apoptosis-inducing and modifying properties of the homobifunctional cross-linkers-dimethyl suberimidate (DMS) and 1,5-bis(succinimido-oxycarbonyloxy)pentane (BSOCOP). The functional groups of these cross-linkers are different but both are able to interact with available amino groups. It was shown that bifunctional cross-linkers, unlike their monofunctional analogues, are capable of inducing cell death in transformed cells, thus indicating the crucial role of cross-linking in cell killing. DMS- and BSOCOP-treated cells were shown to undergo cell death by apoptosis, though the signaling pathways were distinct. DMS inhibited bcl-X(L) and bak but not bax gene expression, while BSOCOP potentiated bax mRNA synthesis immediately after application. Cell pre-incubation with DMS, but not with BSOCOP, resulted in an increasing sensitivity to TNF, although activities of anti-Fas cytotoxic antibodies were then inhibited. Thus, this study has demonstrated for the first time that chemical cross-linkers are capable of inducing apoptosis by themselves and modifying the TNF-dependent and Fas-mediated cell death that may have potential therapeutic significance.

A sensitive and specific lateral flow assay for rapid detection of antibodies against glycoprotein B of Aujeszky's disease virus

A direct double antibody lateral flow assay (DDA-gB-LFA) for the detection of antibodies against the glycoprotein B (gB) of Aujeszkys disease virus (ADV) in swine sera was developed. A native ADV gB was used for the preparation of a conjugate with colloidal gold particles and the immobilization on the strip membrane. The gB purified from ADV virions by immunoaffinity chromatography retained its native epitope structure after adsorption on the nitrocellulose membrane and the surface of colloidal gold particles. The diagnostic specificity and sensitivity of the DDA-gB-LFA were evaluated using 236 field swine sera. The diagnostic specificity and sensitivity of the DDA-gB-LFA compared to a commercially available gB-based ELISA were 98.0% and 98.6%, respectively, when determined with the use of the reader-detection mode, and 98.0% and 93.5%, respectively, when determined using visual detection. The DDA-gB-LFA provides a rapid, sensitive, and specific determination of ADV gB-directed antibodies in sera and can be used for the detection of ADV-exposed swine.

Cell surface heparan sulfate proteoglycans are involved in the binding of Hsp90α and Hsp90β to the cell plasma membrane.

Extracellular membrane-bound and secreted heat shock protein 90 (Hsp90) is known to be involved in cell motility and invasion. The mechanism of Hsp90 anchoring to the plasma membrane remains obscure. We showed that treatment of human glioblastoma A-172 and fibrosarcoma HT1080 cells with sodium chlorate, heparinase, and heparin causes a prominent loss of 2 Hsp90 cytosolic isoforms, Hsp90α and Hsp90β, from the cell surface and strongly inhibits the binding of exogenous Hsp90 to cells. We revealed that Hsp90α and Hsp90β are partly colocalized with heparan sulfate proteoglycans (HSPGs) on the cell surface and that this colocalization was sensitive to heparin. The results demonstrate that cell surface HSPGs are involved in the binding/anchoring of Hsp90α and Hsp90β to the plasma membrane.