Frontiers in Pharmacology (Mar 2023)

Innovative, rapid, high-throughput method for drug repurposing in a pandemic—A case study of SARS-CoV-2 and COVID-19

  • Shaibu Oricha Bello,
  • Shaibu Oricha Bello,
  • Shaibu Oricha Bello,
  • Abdulmajeed Yunusa,
  • Abdulmajeed Yunusa,
  • Adamu Ahmed Adamu,
  • Adamu Ahmed Adamu,
  • Mustapha Umar Imam,
  • Mustapha Umar Imam,
  • Muhammad Bashir Bello,
  • Muhammad Bashir Bello,
  • Abdulmalik Shuaibu,
  • Abdulmalik Shuaibu,
  • Ehimario Uche Igumbor,
  • Ehimario Uche Igumbor,
  • Zaiyad Garba Habib,
  • Zaiyad Garba Habib,
  • Mustapha Ayodele Popoola,
  • Chinwe Lucia Ochu,
  • Chinwe Lucia Ochu,
  • Aishatu Yahaya Bello,
  • Yusuf Yahaya Deeni,
  • Yusuf Yahaya Deeni,
  • Yusuf Yahaya Deeni,
  • Ifeoma Okoye

DOI
https://doi.org/10.3389/fphar.2023.1130828
Journal volume & issue
Vol. 14

Abstract

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Several efforts to repurpose drugs for COVID-19 treatment have largely either failed to identify a suitable agent or agents identified did not translate to clinical use. Reasons that have been suggested to explain the failures include use of inappropriate doses, that are not clinically achievable, in the screening experiments, and the use of inappropriate pre-clinical laboratory surrogates to predict efficacy. In this study, we used an innovative algorithm, that incorporates dissemination and implementation considerations, to identify potential drugs for COVID-19 using iterative computational and wet laboratory methods. The drugs were screened at doses that are known to be achievable in humans. Furthermore, inhibition of viral induced cytopathic effect (CPE) was used as the laboratory surrogate to predict efficacy. Erythromycin, pyridoxine, folic acid and retapamulin were found to inhibit SARS-CoV-2 induced CPE in Vero cells at concentrations that are clinically achievable. Additional studies may be required to further characterize the inhibitions of CPE and the possible mechanisms.

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