Establishment of a Lethal Murine Coronavirus Pneumonia Model and Investigation of the Effects of Prior Checkpoint Inhibitor Therapy on Outcomes

Rationale: Immune stimulation with immune checkpoint inhibitors (ICIs) has emerged as a highly effective treatment for several cancer types. Research also suggests these agents may be therapeutic for viral infections. However, by interrupting inhibitory signaling pathways, ICIs can cause immune-related adverse events including pneumonitis. A critical question during the present SARS-CoV-2 pandemic has been whether prior ICI treatment aggravates or improves virus-associated lung injury. Methods: To address this question, we first developed a lethal coronavirus acute lung injury model in A/J mice by infecting them intratracheally (IT) with mouse hepatitis virus-1 (MHV-1), a betacoronavirus that can be studied at Biosafety Level-2 (Study-1). We then investigated the effects of anti-PD-L1 monoclonal antibody (anti-PD-L1mAb;clone 10F.9G2, Bio X Cell) pretreatment on outcomes with MHV-1 lung challenge (Study-2). Results: In Study 1 testing 8 increasing doses of virus [5 to 2000 plaque forming units (PFU)/mouse], IT administration of 12.5 (n=8), 25 (n=8), or 50 (n=16) PFU/mouse produced lethality rates closest to 50% (Figure A). At 14d, surviving mice receiving any of these three doses had decreased circulating lymphocyte and increased lavage lymphocyte percentages and protein concentrations compared to diluent-challenged control animals (p≤0.04 averaged across the three MHV doses). Experiments in noninfected animals showed that compared to isotype-mAb (control) treatment, 4 doses of anti-PD-L1mAb (300μg/mouse) administered intraperitoneally every 3d significantly reduced lung immune cell PD-L1 expression (normalized mean fluorescence intensity, p=0.04;Figure B) and produced anti-PD-L1mAb levels at 14d consistent with those measured in ICI-treated cancer patients ( 283.2 ± 112.4 ug/mL). Therefore, in Study 2, mice were treated with either isotype-mAb or anti-PD-L1mAb (300ug/mouse, every 3 days) starting 12d before and continuing until 3d after IT challenge with 25 or 50PFU/mouse of MHV-1 (Experiments 1 and 2 respectively). Compared to control animals [12 survivors of 12 total animals in Experiment 1 (100%), and 4 of 12 in Experiment-2 (33%)], survival was decreased with PD-L1-mAb in both experiments [11 of 12, (91%) and 2 of 12 (17%), respectively] but these survival differences were not significant (p>0.05) (Figure C). Conclusions: Intratracheal MHV-1 challenge in A/J mice produced lethality and late changes in circulating lymphocytes and lung lavage lymphocytes and protein that appear consistent with changes observed clinically with SARS-CoV2 infection. Prior treatment with anti-PD-L1mAb in this model did not improve and potentially aggravated the lethal effects of MHV-1, but requires further study.