Molecules (Jun 2021)

Anti-Inflammatory, Antiallergic, and COVID-19 Main Protease (M<sup>pro</sup>) Inhibitory Activities of Butenolides from a Marine-Derived Fungus <i>Aspergillus terreus</i>

  • Ibrahim Seyda Uras,
  • Sherif S. Ebada,
  • Michal Korinek,
  • Amgad Albohy,
  • Basma S. Abdulrazik,
  • Yi-Hsuan Wang,
  • Bing-Hung Chen,
  • Jim-Tong Horng,
  • Wenhan Lin,
  • Tsong-Long Hwang,
  • Belma Konuklugil

DOI
https://doi.org/10.3390/molecules26113354
Journal volume & issue
Vol. 26, no. 11
p. 3354

Abstract

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In December 2020, the U.K. authorities reported to the World Health Organization (WHO) that a new COVID-19 variant, considered to be a variant under investigation from December 2020 (VUI-202012/01), was identified through viral genomic sequencing. Although several other mutants were previously reported, VUI-202012/01 proved to be about 70% more transmissible. Hence, the usefulness and effectiveness of the newly U.S. Food and Drug Administration (FDA)-approved COVID-19 vaccines against these new variants are doubtfully questioned. As a result of these unexpected mutants from COVID-19 and due to lack of time, much research interest is directed toward assessing secondary metabolites as potential candidates for developing lead pharmaceuticals. In this study, a marine-derived fungus Aspergillus terreus was investigated, affording two butenolide derivatives, butyrolactones I (1) and III (2), a meroterpenoid, terretonin (3), and 4-hydroxy-3-(3-methylbut-2-enyl)benzaldehyde (4). Chemical structures were unambiguously determined based on mass spectrometry and extensive 1D/2D NMR analyses experiments. Compounds (1–4) were assessed for their in vitro anti-inflammatory, antiallergic, and in silico COVID-19 main protease (Mpro) and elastase inhibitory activities. Among the tested compounds, only 1 revealed significant activities comparable to or even more potent than respective standard drugs, which makes butyrolactone I (1) a potential lead entity for developing a new remedy to treat and/or control the currently devastating and deadly effects of COVID-19 pandemic and elastase-related inflammatory complications.

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