Author: Oliver, Madeleine E.; Hinks, Timothy S. C.
Title: Azithromycin in viral infections Cord-id: iw6pdweh Document date: 2020_9_23
ID: iw6pdweh
Snippet: Azithromycin (AZM) is a synthetic macrolide antibiotic effective against a broad range of bacterial and mycobacterial infections. Due to an additional range of antiâ€viral and antiâ€inflammatory properties, it has been given to patients with the coronaviruses SARSâ€CoV or MERSâ€CoV. It is now being investigated as a potential candidate treatment for SARSâ€CoVâ€2 having been identified as a candidate therapeutic for this virus by both in vitro and in silico drug screens. To date there are n
Document: Azithromycin (AZM) is a synthetic macrolide antibiotic effective against a broad range of bacterial and mycobacterial infections. Due to an additional range of antiâ€viral and antiâ€inflammatory properties, it has been given to patients with the coronaviruses SARSâ€CoV or MERSâ€CoV. It is now being investigated as a potential candidate treatment for SARSâ€CoVâ€2 having been identified as a candidate therapeutic for this virus by both in vitro and in silico drug screens. To date there are no randomised trial data on its use in any novel coronavirus infection, although a large number of trials are currently in progress. In this review, we summarise data from in vitro, murine and human clinical studies on the antiâ€viral and antiâ€inflammatory properties of macrolides, particularly AZM. AZM reduces in vitro replication of several classes of viruses including rhinovirus, influenza A, Zika virus, Ebola, enteroviruses and coronaviruses, via several mechanisms. AZM enhances expression of antiâ€viral pattern recognition receptors and induction of antiâ€viral type I and III interferon responses. Of relevance to severe coronavirusâ€19 disease (COVIDâ€19), which is characterised by an overâ€exuberant innate inflammatory response, AZM also has antiâ€inflammatory properties including suppression of ILâ€1beta, ILâ€2, TNF and GMâ€CSF. AZM inhibits T cells by inhibiting calcineurin signalling, mammalian target of rapamycin activity and NFκB activation. AZM particularly targets granulocytes where it concentrates markedly in lysosomes, particularly affecting accumulation, adhesion, degranulation and apoptosis of neutrophils. Given its proven safety, affordability and global availability, tempered by significant concerns about antimicrobial stewardship, there is an urgent mandate to perform wellâ€designed and conducted randomised clinical trials.
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