Aframomum Melegueta Secondary Metabolites Exhibit Polypharmacology Against SARS-CoV-2 Drug Targets: in Vitro Validation of Furin Inhibition

Overview

Journal Phytother Res

Publisher Wiley

Date 2020 Sep 23

PMID 32964551

Citations 19

Authors

I Olaposi Omotuyi

Oyekanmi Nash

Basiru O Ajiboye

Victor O Olumekun

Babatunji E Oyinloye

Oludare T Osuntokun

Adebisi Olonisakin

A Olajide Ajayi

Olasehinde Olusanya

Funmilola S Akomolafe

Niyi Adelakun

Affiliations

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Abstract

COVID-19 pandemic is currently decimating the world's most advanced technologies and largest economies and making its way to the continent of Africa. Weak medical infrastructure and over-reliance on medical aids may eventually predict worse outcomes in Africa. To reverse this trend, Africa must re-evaluate the only area with strategic advantage; phytotherapy. One of the many plants with previous antiviral potency is against RNA viruses is Aframomum melegueta. In this study, one hundred (100) A. melegueta secondary metabolites have been mined and computational evaluated for inhibition of host furin, and SARS-COV-2 targets including 3C-like proteinase (M /3CL ), 2'-O-ribose methyltransferase (nsp16) and surface glycoprotein/ACE2 receptor interface. Silica-gel column partitioning of A. melegueta fruit/seed resulted in 6 fractions tested against furin activity. Diarylheptanoid (Letestuianin A), phenylpropanoid (4-Cinnamoyl-3-hydroxy-spiro[furan-5,2'-(1'H)-indene]-1',2,3'(2'H,5H)-trione), flavonoids (Quercetin, Apigenin and Tectochrysin) have been identified as high-binding compounds to SARS-COV-2 targets in a polypharmacology manner. Di-ethyl-ether (IC = 0.03 mg/L), acetone (IC = 1.564 mg/L), ethyl-acetate (IC = 0.382 mg/L) and methanol (IC = 0.438 mg/L) fractions demonstrated the best inhibition in kinetic assay while DEF, ASF and MEF completely inhibited furin-recognition sequence containing Ebola virus-pre-glycoprotein. In conclusion, A. melegueta and its secondary metabolites have potential for addressing the therapeutic needs of African population during the COVID-19 pandemic.

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