Preclinical Screening Platform Identifies Azatadine‐Dimaleate as a Potent Repurposed Therapeutic Against SARS‐CoV‐2 Infection
Ahlam Ali, David Courtney, Lindsay Broadbent, Parul Sharma, Connor G. G. Bamford, Sheerien Manzoor, Olivier Touzelet, Conall McCaughey, Adam Kirby, Eleanor Bentley, Anja Kipar, Ken I. Mills, James P. Stewart, Ultan F. Power

TL;DR
A drug called Azatadine-Dimaleate was found to strongly block SARS-CoV-2 infection in multiple tests and could be a promising treatment, especially when combined with Remdesivir.
Contribution
Azatadine-Dimaleate is identified as a potent repurposed antiviral with consistent efficacy across in vitro, ex vivo, and in vivo models.
Findings
Azatadine-Dimaleate reduced SARS-CoV-2 replication by ~5,000-fold in epithelial cultures and lowered viral titers significantly.
Combining Azatadine-Dimaleate with Remdesivir enhanced antiviral activity, reducing the EC50 of both drugs by over 60%.
In mice, Azatadine-Dimaleate reduced weight loss, viral loads, and lung antigen expression compared to controls.
Abstract
The emergence of SARS‐CoV‐2 posed a major global public health threat, necessitating urgent development of therapeutics. Despite vaccine availability, continuous emergence of viral variants with enhanced transmissibility and immune escape capabilities, and consequential impacts on health services, requires effective antiviral therapeutics. Drug repurposing offers an expeditious strategy to identify therapeutics with established safety profiles. We implemented a comprehensive three‐tiered validation approach, screening 2,570 compounds against SARS‐CoV‐2 in vitro, followed by ex vivo validation in well‐differentiated primary human bronchial epithelial cell (WD‐PBEC) cultures, and rigorous in vivo assessment. This methodical progression identified Azatadine‐Dimaleate, a H1‐receptor antagonist, as an exceptional candidate with consistent efficacy across all systems. Azatadine‐Dimaleate…
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Taxonomy
TopicsCOVID-19 Clinical Research Studies · Pharmacological Receptor Mechanisms and Effects · SARS-CoV-2 and COVID-19 Research
