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Julia Tree

and 11 more

Background and Purpose: Currently there are no licensed vaccines and limited antivirals for the treatment of COVID-19. Heparin (delivered systemically) is currently being used to treat anticoagulant anomalies in COVID-19 patients. In addition, in the UK, nebulised unfractionated heparin (UFH) is currently being trialled in COVID-19 patients as a potential treatment. A systematic comparison of the potential antiviral effect of various heparin preparations on live wild-type SARS-CoV-2, in vitro, is thus urgently needed. Experimental Approach: A range of heparin preparations both UFH (n=4) and low molecular weight heparins (LMWH) (n=3) of porcine or bovine origin were screened for antiviral activity against live SARS-CoV-2 (Victoria/01/2020) using a plaque reduction neutralisation assay and Vero E6 cells. ND50 values for each heparin were calculated using a mid-point probit analysis. Key Results: UFH had potent antiviral effects, with ND50 values of 12.5 and 23 μg/ml for two porcine mucosal UFH tested. Bovine mucosal UFH had similar antiviral effects although it was ~50% less active (ND50, 50-75 μg/ml). In contrast, LMWHs such as Clexane and Fragmin were markedly less active by ~100-fold (ND50 values of 2.6-6.8 mg/ml). Conclusions and Implications: This comparison of a panel of clinically relevant heparins, including the UFH preparation under trial in the UK, demonstrated that distinct products exhibit different degrees of antiviral activity against live SARS-CoV-2. Porcine mucosal UFH has the strongest antiviral activity followed by bovine mucosal UFH, whereas LMWHs had the lowest amount of antiviral activity (by 100-fold). Overall the data strongly support further clinical investigation of UFH as a potential treatment for patients with COVID-19.

Simon Cleary

and 8 more

The coronavirus disease 2019 (COVID-19) pandemic caused by SARS-CoV-2 infections has led to substantial unmet need for treatments, many of which will require testing in appropriate animal models of this disease. Vaccine trials are already underway, but there remains an urgent need to find other therapeutic approaches to either target SARS-CoV-2 or the complications arising from viral infection, particularly the dysregulated immune response and systemic complications which have been associated with progression to severe COVID-19. At the time of writing, in vivo studies of SARS-CoV-2 infection have been described using macaques, cats, ferrets, hamsters, and transgenic mice expressing human angiotensin I converting enzyme 2 (ACE2). These infection models have already been useful for studies of transmission and immunity, but to date only partially model the mechanisms implicated in human severe COVID-19. There is therefore an urgent need for development of animal models for improved evaluation of efficacy of drugs identified as having potential in the treatment of severe COVID-19. These models need to recapitulate key mechanisms of COVID-19 severe acute respiratory distress syndrome and reproduce the immunopathology and systemic sequelae associated with this disease. Here, we review the current models of SARS-CoV-2 infection and COVID-19-related disease mechanisms and suggest ways in which animal models can be adapted to increase their usefulness in research into COVID-19 pathogenesis and for assessing potential treatments.