[Dimeric bisbenzimidazoles suppress the herpes simplex virus and human cytomegalovirus infections in cell сultures]

DNA sequence-specific ligands. XVIII. Synthesis, physico-chemical properties; genetic, virological, and biochemical studies of fluorescent dimeric bisbenzimidazoles DBPA(n)

A set of AT-specific fluorescent dimeric bisbenzimidazoles DBPA(n) with linkers of different lengths bound to DNA in the minor groove were synthesized and their genetic, virological, and biochemical studies were performed. The DBPA(n) were shown to be effective inhibitors of the histon-like protein H-NS, a regulator of the DNA transcription factor, as well as of the Aliivibrio logei Quorum Sensing regulatory system in E. coli cells. Their antiviral activity was tested in model cell lines infected with herpes simplex virus type I. Also, it was found that DBPA(n) could inhibit catalytic activities of HIV-1 integrase at low micromolar concentrations. All of the dimeric bisbenzimidazoles DBPA(n) manifested fluorescent properties, were well soluble in water, nontoxic up to concentrations of 200 µM, and could penetrate into nuclei followed by binding to DNA.

[Mesenchymal stem cells enhance immune response and protect mice against lethal herpes viral infection.]

The objective of this study was to evaluate immunoregulatory and protective potential of mesenchymal stem cells (MSC) in a mouse model of lethal HSV1 infection. MSC were isolated from bone marrow of DBA mice and cultured in flasks with DMEM containing 10% FBS, insulin, transferrin, selenite, fbroblast growth factor, glutaminе and gentamicin. Antiviral activity was tested on HSV1-infected Vero cells. In vivo experiments were performed on DBA mice divided into 5 groups (10 animals each): group 1, intact (naïve) mice; group 2, intravenous (iv) MSC injection; group 3, ntraperitoneal infection with 20 LD50 HSV1 followed by MSC injection; group 4, HSV1 infection followed by acyclovir (ACV) injection; group 5, HSV1 infection and iv injection of saline. Isolated cells were consistent with MSC morphologically, by adhesive ability and surface receptors. Conditioned media from MSC collected after 4-5 passages inhibited HSV1 infection in vitro by 64-70% and contained IL-6 and TNF-α, whose concentrations were 5- and 20-fold higher, respectively, than in the control. MSC and ACV injections protected 70% and 60% of DBA mice, respectively, compared with the control (group 5, 10% survival). High activity of virus neutralizing anti-HSV1 antibodies and activation of T cell proliferation were observed in survived mice from group 3. Serum levels of IL-6 and TNF-α in these mice were lower and that of INF-γ much higher than in agonizing animals of this group (Р<0.05). These fndings indicate that MSC therapy is a prospective approach to the development of new effective management of generalized HSV1 infection.

DNA sequence-specific ligands. XVII. Synthesis, spectral properties, virological and biochemical studies of fluorescent dimeric bisbenzimidazoles DBA(n)

A series of DNA minor groove binding fluorescent dimeric bisbenzimidazoles DBA(n) bearing linkers of various length were synthesized and their biochemical and antiviral activities were evaluated. Their antiviral activity was assessed in model cell systems infected with human herpes simplex virus (HSV-1) and cytomegalovirus (CMV). Compounds DBA(1) and DBA(7) demonstrated in vitro inhibitory properties towards HSV-1, and DBA(7) completely blocked the viral infection. Compound DBA(11) displayed the in vitro therapeutic activity towards both HSV-1 and CMV. All of the DBA(n) could fluoresce, were well soluble in water, not cytotoxic to a concentration of 240 µM, penetrated well into cell nuclei by binding to DNA and could inhibit topo-I at low micromolecular concentrations.