Efficacy of a brain-penetrant antiviral in lethal Venezuelan and eastern equine encephalitis mouse models.

Venezuelan and eastern equine encephalitis viruses (VEEV and EEEV, respectively) are mosquito-borne, neuroinvasive human pathogens for which no FDA-approved therapeutic exists. Besides the biothreat posed by these viruses when aerosolized, arthropod transmission presents serious health risks to humans, as demonstrated by the 2019 outbreak of EEE disease in the United States that resulted in 38 confirmed cases, 19 deaths, and neurological effects in survivors. Here, we describe the discovery of a 2-pyrrolidinoquinazolinone scaffold, efficiently synthesized in two to five steps, whose structural optimization resulted in profound antiviral activity. The lead quinazolinone, BDGR-49, potently reduced cellular VEEV and EEEV titers by >7 log at 1 µM and exhibited suitable intravenous and oral pharmacokinetic profiles in BALB/c mice to achieve excellent brain exposure. Outstanding in vivo efficacy was observed in several lethal, subcutaneous infection mouse models using an 8-day dosing regimen. Prophylactically administered BDGR-49 at 25 mg kg-1 per day fully protected against a 10× LD50 VEEV Trinidad donkey (TrD) challenge in BALB/c mice. Similarly, we observed 70% protection when 10× LD50 EEEV FL93-939-infected C57BL/6 mice were treated prophylactically with BDGR-49 at 50 mg kg-1 per day. Last, we observed 100% therapeutic efficacy when mice, challenged with 10× LD50 VEEV TrD, were dosed at 48 hours after infection with BDGR-49 at 25 mg kg-1 per day. Mouse brain viral titers at 96 hours after infection were reduced to values near the limit of detection. Collectively, these results underscore the substantial development potential of a well-tolerated, brain-penetrant lead compound that shows promise in preventing and treating encephalitic alphavirus disease.

Cardiopulmonary Injury in the Syrian Hamster Model of COVID-19.

The Syrian hamster has proved useful in the evaluation of therapeutics and vaccines for severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2). To advance the model for preclinical studies, we conducted serial sacrifice of lungs, large pulmonary vessels, and hearts from male and female Syrian hamsters for days 1-4, and 8 post-infection (dpi) following infection with a high dose of SARS-CoV-2. Evaluation of microscopic lung histopathology scores suggests 4 and 8 dpi as prime indicators in the evaluation of moderate pathology with bronchial hyperplasia, alveolar involvement and bronchiolization being key assessments of lung disease and recovery, respectively. In addition, neutrophil levels, red blood cell count and hematocrit showed significant increases during early infection. We present histological evidence of severe damage to the pulmonary vasculature with extensive leukocyte transmigration and the loss of endothelial cells and tunica media. Our evidence of endothelial and inflammatory cell death in the pulmonary vessels suggests endothelialitis secondary to SARS-CoV-2 epithelial cell infection as a possible determinant of the pathological findings along with the host inflammatory response. Lastly, pathological examination of the heart revealed evidence for intracardiac platelet/fibrin aggregates in male and female hamsters on 8 dpi, which might be indicative of a hypercoagulative state in these animals.

Efficacy and safety of topical selamectin to eradicate pinworm (Syphacia spp.) infections in rats (Rattus norvegicus) and mice (Mus musculus).

We evaluated the efficacy and safety of topical selamectin, a novel avermectin, in eliminating naturally acquired Syphacia muris infections in rats and S. obvelata infections in mice. S. muris-positive rats were assigned randomly to 4 groups: selamectin (0.6 mg/kg), selamectin (6.0 mg/kg), fenbendazole-medicated (150 ppm) chow, and untreated. S. obvelata-positive mice were allocated into 4 groups similar to those for rats. Animals not exposed to pinworm-contaminated bedding were designated as negative controls. Treatment success was assessed weekly by anal tape impressions and by necropsy examinations at the end of week 9. Evaluations of intestinal contents at necropsy revealed that, although safe, topical selamectin was 100% ineffective in eliminating Syphacia spp. infections in rats and mice. Treatment with fenbendazole-medicated chow resulted in negative anal tape impressions beginning at week 2 in rats and week 1 in mice. Negative anal tape impressions in fenbendazole-treated animals were confirmed by negative intestinal content evaluations. Of the 2 treatments evaluated, fenbendazole-medicated chow remains an effective and practical method to eliminate pinworm infections in mice and rats.