Abstract
Tyrosinases from both a commercial semi-purified Agaricus bisporus protein extract and directly isolated from white mushroom have been demonstrated to show antiviral activity against the Hepatitis C virus for the first time. The well-known tyrosinase from A. bisporus (TyrAB) of 45kDa and a newly discovered 50-kDa isoform from this tyrosinase (Tyr50kDa) have been tested. Cell toxicity and antiviral activity of tyrosinases in cultured Huh 5-2 liver tumor cells transfected with a replicon system (a plasmid that includes all non-structural Hepatitis C virus proteins and replicates autonomously) was determined. Native TyrAB was able to inhibit the replication of the hepatitis C virus without inducing toxicity in liver cells. In addition, the post-translational isoform of Tyr50kDa showed higher antiviral capacity than the former (up to 10 times greater), , also exhibiting 10 times higher activity than the commercial drug Ribavirin®. This antiviral activity was directly proportional to the enzymatic activity of tyrosinases, since no antiviral capacity was observed for the inactive enzymes. The tyrosinases could represent a new antiviral inhibition mechanism through a catalytic mechanism of selective hydroxylation of key role tyrosine residues in viral proteases. The tyrosinases directly extracted from fresh mushroom (containing both tyrosinases) showed similar antiviral activity and, therefore, might provide low-cost drugs for the treatment of hepatitis C.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
↵* e-mail: josempalomo{at}icp.csic.es, oabifra{at}unizar.es