Carolyn Luscombe

A novel Hepatitis C virus p7 ion channel inhibitor, BIT225, inhibits bovine viral diarrhea virus in vitro and shows synergism with recombinant interferon-α-2b and nucleoside analogues

The novel small molecule, BIT225 (N-[5-(1-methyl-1H-pyrazol-4-yl)-napthalene-2-carbonyl]-guanidine: CAS No. 917909-71-8), was initially identified using a screening strategy designed to detect inhibitors of Hepatitis C virus (HCV) p7 ion channel activity. Here we report that BIT225 has potent stand-alone antiviral activity against the HCV model pestivirus bovine viral diarrhea virus (BVDV) with an IC(50) of 314nM. Combinations of BIT225 with recombinant interferon alpha-2b (rIFNalpha-2b) show synergistic antiviral action against BVDV and the synergy is further enhanced by addition of ribavirin. Synergy was also observed between BIT225 and two nucleoside analogues known to inhibit the HCV RNA-dependent RNA polymerase. BIT225 has successfully completed a phase Ia dose escalating, single dose safety trial in healthy volunteers and a phase Ib/IIa trial to evaluate the safety and pharmacokinetics of repeated dosing for selected doses of BIT225 in HCV-infected persons. A modest, but statistically significant drop in patient viral load was detected over the 7 days of dosing (ref. www.biotron.com.au). Given the critical role of the p7 protein in the HCV life cycle and pathogenicity, our data indicate that molecules like BIT225, representing a new class of antiviral compounds, may be developable for therapeutic use against HCV infection, either as monotherapy, or in combination with other HCV drugs.

Long‐term ganciclovir chemotherapy for congenital duck hepatitis B virus infection in vivo: Effect on intrahepatic‐viral DNA, RNA, and protein expression

Long‐term antiviral chemotherapy using the nucleoside analogue ganciclovir was undertaken with the aim of eliminating hepadnaviral covalently closed circular (CCC) DNA from the livers of ducks that were congenitally infected with the duck hepatitis B virus (DHBV). Twenty‐ four weeks of ganciclovir therapy caused a substantial reduction in viremia, intrahepatic viral DNA replicative intermediates, and viral core proteins. Unfortunately, ganciclovir therapy did not substantially affect CCC DNA or viral RNA levels, and the treatment resulted in an increase in the intrahepatic expression of the viral envelope proteins, pre‐S and S. By the completion of therapy, the viral envelope proteins had assembled into large aggregates within the cytoplasm of most hepatocytes. Viral replication in the bile duct epithelial cells and in the extrahepatic sites was likewise not affected by long‐term ganciclovir therapy. In conclusion, 24 weeks of ganciclovir therapy decreased most viral replication markers within the liver, except for those of viral CCC DNA, RNA, and envelope proteins. Long‐term therapeutic strategies using nucleoside analogs such as ganciclovir should be used with caution in chronic hepatitis B virus (HBV) infection. The careful monitoring of serum and hepatic markers of viral replication may therefore be important to avoid possible toxic consequences, such as the selective accumulation of viral proteins.

Antiviral Efficacy of the Novel Compound BIT225 against HIV-1 Release from Human Macrophages

ABSTRACT Building on previous findings that amiloride analogues inhibit HIV-1 replication in monocyte-derived macrophages (MDM), Biotron Limited has generated a library of over 300 small-molecule compounds with significant improvements in anti-HIV-1 activity. Our lead compound, BIT225, blocks Vpu ion channel activity and also shows anti-HIV-1 activity, with a 50% effective concentration of 2.25 ± 0.23 μM (mean ± the standard error) and minimal in vitro toxicity (50% toxic concentration, 284 μM) in infected MDM, resulting in a selectivity index of 126. In this study, we define the antiretroviral efficacy of BIT225 activity in macrophages, which are important drug targets because cells of the monocyte lineage are key reservoirs of HIV-1, disseminating virus to the peripheral tissues as they differentiate into macrophages. In assays with acutely and chronically HIV-1Ba-L-infected MDM, BIT225 resulted in significant reductions in viral integration and virus release as measured by real-time PCR and a reverse transcriptase (RT) activity assay at various stages of monocyte-to-macrophage differentiation. Further, the TZM-bl assay showed that the de novo virus produced at low levels in the presence of BIT225 was less infectious than virus produced in the absence of the compound. No antiviral activity was observed in MDM chronically infected with HIV-2, which lacks Vpu, confirming our initial targeting of and screening against this viral protein. The activity of BIT225 is post-virus integration, with no direct effects on the HIV-1 enzymes RT and protease. The findings of this study suggest that BIT225 is a late-phase inhibitor of the viral life cycle, targeting Vpu, and is a drug capable of significantly inhibiting HIV-1 release from both acute and chronically infected macrophages.

Inhibition of duck hepatitis B virus DNA replication by antiviral chemotherapy with ganciclovir-nalidixic acid.

The aim of this study was to examine the effects of ganciclovir and nalidixic acid either alone or in combination on duck hepatitis B virus DNA replication in vivo with particular reference to production of viral supercoiled DNA and RNA. The most effective antiviral response was observed in the livers of ducks treated by the combination therapy for 28 days, which resulted in a substantial decrease in the amounts of viral supercoiled DNA, relaxed circular and single-stranded DNA, and also viral RNA. This combination treatment was not hepatotoxic over the study period.

Quantification of infectious duck hepatitis B virus by radioimmunofocus assay

A simple method is described for the precise quantification of infectious duck hepatitis B virus (DHBV) in cell culture, using a radioimmunofocus assay (RIFA). Primary duck hepatocyte cell cultures were infected with serial dilutions of viral samples as for a plaque assay, but then maintained with liquid overlay medium. After incubation for up to 14 days, cell monolayers were fixed with acetone, then stained with a monoclonal antibody to DHBV L protein followed by secondary antibody labelled with I. Foci of infection (representing individual infectious particles in the inoculum) were detected by autoradiography. The number of foci recovered was increased by addition of dimethyl sulphoxide to culture medium, but was not appreciably altered by the use of semi‐solid medium. The titre of virus suspensions determined by RIFA correlated well with titration in ducklings. The RIFA is a useful method for titration of DHBV, as it has a wide dynamic range and is well suited to parallel titration of large numbers of samples. This assay will have wide use for the analysis of DHBV growth kinetics, antiviral efficacy, and virus inactivation procedures. J. Med. Virol. 52:354–361, 1997.