Mousepox in the C57BL/6 strain provides an improved model for evaluating anti-poxvirus therapies.

The intranasal lethal mousepox model employing the A/Ncr mouse strain is used to evaluate anti-orthopoxvirus therapies. These infections mimic large droplet transmission and result in 100% mortality within 7-10 days with as little as 1 PFU of ectromelia virus. Unlike the A/Ncr model, humans are less susceptible to lethal respiratory infections with variola virus and monkeypox virus as demonstrated by their lower mortality rates. In this study we show that a low dose intranasal infection of C57BL/6 mice results in 60-80% mortality and better models smallpox. Comparing CMX001 (HDP-cidofovir) efficacy in the A/Ncr strain and the C57BL/6 strain revealed that delayed treatment with CMX001 is more efficacious at preventing severe disease in the C57BL/6 strain. The increased efficacy of CMX001 in C57BL/6 over A/Ncr following an intranasal infection with ectromelia appears to be mediated by a stronger Th1 cell mediated response. Following footpad infection we show that the C57BL/6 strain has earlier and more robust transcriptional activity, Th1 cytokine secretions, antigen presenting activity and IFNgamma splenic CD8+ T cell responses as compared to the A/Ncr strain. As a result of the enhanced immune response in the C57BL/6 strain, non-lethal intradermal ectromelia infections can therapeutically protect up to 3 days following a homologous, lethal intranasal infection - much like how smallpox vaccination can protect humans for up to 4 days following intranasal variola infection.

Using biomarkers to stage disease progression in a lethal mousepox model treated with CMX001.

BACKGROUND: The emergence of human monkeypox and the potential use of recombinant variola and monkeypox viruses as biological terrorist agents have necessitated the development of therapeutic and prophylactic therapies. The primary, or index, cases of smallpox and/or human monkeypox will likely be identified by a characteristic rash. Effective biomarkers will be required to monitor disease progression, guide the choice of therapeutic intervention strategies and evaluate their efficacies. To address this we have evaluated several biomarkers of disease in a lethal mousepox model. METHODS: The efficacy of a single dose of a hexadecyloxypropyl ester of cidofovir (CMX001) at 20, 25 and 30 mg/kg doses administered on days 4, 5, 6 and 7 post-infection was evaluated in A/Ncr mice intranasally infected with low doses of ectromelia virus (<20 plaque-forming units). Mice were monitored for weight loss, blood interferon-gamma levels, alanine aminotransferase (ALT), aspartate aminotransferase, viral DNA copies and neutrophilia levels to stage disease progression. RESULTS: We have used these biomarkers to establish the optimal dosing regimen for treatment and reveal that a single dose of 25 mg/kg of CMX001 can be efficacious at treating lethal mousepox when administered on days 4 or 5 post-infection. This dose significantly reduces ALT, interferon-gamma and DNA copies found in the blood of infected animals. CONCLUSIONS: A single dose regimen of CMX001 is efficacious at treating mousepox. Disease progression and antiviral efficacy can be monitored using several biomarkers that could readily be used in the case of a human monkeypox or smallpox outbreak.

An immunosuppressed Syrian golden hamster model for SARS-CoV infection.

Several small animal models have been developed for the study of severe acute respiratory syndrome coronavirus (SARS-CoV) replication and pathogenesis. Syrian golden hamsters are among the best small animal models, though little clinical illness and no mortality are observed after virus infection. Cyclophosphamide was used to immunosuppress hamsters leading to a prolonged disease course and higher mortality after SARS-CoV infection. In addition, there was a significant weight loss, expanded tissue tropism, and increased viral pathology in the lung, heart, kidney, and nasal turbinate tissues. Infection with recombinant SARS-CoV viruses bearing disruptions in the gene 7 coding region showed no significant change in replication kinetics, tissue tropism, morbidity, or mortality suggesting that the ORF7a (7a) and ORF7b (7b) proteins are not required for virus replication in immunosuppressed hamsters. This modified hamster model may provide a useful tool for SARS-CoV pathogenesis studies, evaluation of antiviral therapy, and analysis of additional SARS-CoV mutants.

Efficacy of therapeutic intervention with an oral ether-lipid analogue of cidofovir (CMX001) in a lethal mousepox model.

In the 21st century we are faced with the potential use of natural or recombinant VARV and MPXV as biological weapons, and the emergence of human MPXV. Such an occurrences would require therapeutic and prophylactic intervention with antivirals. Cidofovir, an antiviral approved for the treatment of cytomegalovirus retinitis in AIDS patients, has activity against poxviruses, but must be administered intravenously and is associated with nephrotoxicity. An ether-lipid analogue of CDV, CMX001 (HDP-CDV), has potent antiviral activity against a range of DNA viruses including poxviruses, excellent oral bioavailability and minimal nephrotoxicity. CMX001 and CDV are equally efficacious at protecting mice from mortality following high ectromelia virus doses (10,000 x LD(50)) introduced by the intra-nasal route or small particle aerosol. Using CMX001 at a 10mg/kg dose followed by 2.5mg/kg doses every other-day for 14 days provided solid protection against mortality and weight loss following an intra-nasal challenge of (100-200) x LD(50) of ectromelia virus. Furthermore, complete protection against mortality was achieved when administration was delayed until as late as 5 days post-infection, which is 3-4 days prior to the death of the untreated controls. This therapeutic window would be equivalent to intervening during the rash stage of ordinary smallpox.