biostudies-literatureEkanayaka PNational Research Foundation of KoreaKorea Research Institute of Bioscience and Biotechnology737031https://www.ebi.ac.uk/biostudies/studies/S-EPMC8639872biostudies-literatureUnknown123C protease (3C^pro), a chymotrypsin-like cysteine protease encoded by the foot-and-mouth disease virus (FMDV), plays an essential role in processing the FMDV P1 polyprotein into individual viral capsid proteins in FMDV replication. Previously, it has been shown that 3C^pro is involved in the blockage of the host type-I interferon (IFN) responses by FMDV. However, the underlying mechanisms are poorly understood. Here, we demonstrated that the protease activity of 3C^pro contributed to the degradation of RIG-I and MDA5, key cytosolic sensors of the type-I IFN signaling cascade in proteasome, lysosome and caspase-independent manner. And also, we examined the degradation ability on RIG-I and MDA5 of wild-type FMDV 3C^pro and FMDV 3C^pro C142T mutant which is known to significantly alter the enzymatic activity of 3C^pro. The results showed that the FMDV 3C^pro C142T mutant dramatically reduce the degradation of RIG-I and MDA5 due to weakened protease activity. Thus, the protease activity of FMDV 3C^pro governs its RIG-I and MDA5 degradation ability and subsequent negative regulation of the type-I IFN signaling. Importantly, FMD viruses harboring 3C^pro C142T mutant showed the moderate attenuation of FMDV in a pig model. In conclusion, our results indicate that a novel mechanism evolved by FMDV 3C^pro to counteract host type-I IFN responses and a rational approach to virus attenuation that could be utilized for future vaccine development.Frontiers in microbiologyFoot-and-Mouth Disease Virus 3C Protease Antagonizes Interferon Signaling and C142T Substitution Attenuates the FMD Virus.PMC8639872KGM99420112019R1A2C20082832021R1A6A1A030454952018M3A9H4079660Kim THLee JSPark JHWeeratunga PEkanayaka PChathuranga KLee HShin SHSubasinghe AfalseFoot-and-Mouth Disease Virus 3C Protease Antagonizes Interferon Signaling and C142T Substitution Attenuates the FMD Virus.3C protease (3C^pro), a chymotrypsin-like cysteine protease encoded by the foot-and-mouth disease virus (FMDV), plays an essential role in processing the FMDV P1 polyprotein into individual viral capsid proteins in FMDV replication. Previously, it has been shown that 3C^pro is involved in the blockage of the host type-I interferon (IFN) responses by FMDV. However, the underlying mechanisms are poorly understood. Here, we demonstrated that the protease activity of 3C^pro contributed to the degradation of RIG-I and MDA5, key cytosolic sensors of the type-I IFN signaling cascade in proteasome, lysosome and caspase-independent manner. And also, we examined the degradation ability on RIG-I and MDA5 of wild-type FMDV 3C^pro and FMDV 3C^pro C142T mutant which is known to significantly alter the enzymatic activity of 3C^pro. The results showed that the FMDV 3C^pro C142T mutant dramatically reduce the degradation of RIG-I and MDA5 due to weakened protease activity. Thus, the protease activity of FMDV 3C^pro governs its RIG-I and MDA5 degradation ability and subsequent negative regulation of the type-I IFN signaling. Importantly, FMD viruses harboring 3C^pro C142T mutant showed the moderate attenuation of FMDV in a pig model. In conclusion, our results indicate that a novel mechanism evolved by FMDV 3C^pro to counteract host type-I IFN responses and a rational approach to virus attenuation that could be utilized for future vaccine development.2021-01-01T00:00:00Z20212024-11-06T05:09:42.721Z2022-02-11T14:17:55.965ZS-EPMC86398723486785310.3389/fmicb.2021.737031