Black carp RNF135 enhances RIG-I-mediated antiviral signaling by facilitating its oligomerization

Abstract

RNF135, also known as RIPLET, plays a crucial role in facilitating RIG-I signaling in mammals. However, the function and regulatory mechanism of RNF135 in teleosts remain much to be elucidated. In this study, RNF135 homolog of black carp (bcRNF135) has been cloned and identified. The coding sequence (CDS) of bcRNF135 gene comprises 1221 nucleotides, encoding a protein of 407 amino acids. Immunoblotting (IB) and immunofluorescence (IF) assays identified that bcRNF135 is approximately 50 kDa and localized in the cytoplasm. qRT-PCR demonstrated that bcRNF135 mRNA levels were increased in host cells following SVCV infection and poly (I:C) stimulation. Co-expressed bcRNF135 obviously enhanced the induced transcription of IFN promoters by bcRIG-I in reporter assay, as well as improved bcRIG-I triggered antiviral response. Notably, bcRNF135 knockdown reduced the antiviral ability of host cells and increased virus replication. Co-immunoprecipitation (Co-IP) assays and IF assays confirmed that bcRNF135 interacted with bcRIG-I. Moreover, SDD-AGE revealed that bcRNF135 promotes the oligomerization of bcRIG-I, a process critical for RIG-I activation. Overall, our data conclude that bcRNF135 enhances bcRIG-I-mediated antiviral signaling by facilitating its ubiquitination and oligomerization, enriching our understanding of RIG-I regulation in teleost innate immunity.