This study explored the key molecules and signal pathways in the pathogenesis of grass carp reovirus (GCRV). Using immunoprecipitation mass spectrometry and Co-IP validation, the protein CiANXA4 was identified which interacts indirectly with CiLGP2. CiANXA4 encodes 321 amino acids, including 4 ANX domains. To explore the role of CiANXA4 in the anti-GCRV immune response, we used overexpression and siRNA knockdown in cells. The results showed that overexpression of the CiANXA4 gene significantly increased the mRNA content of vp2 and vp7 in GCRV-infected cells, and the virus titer greatly increased. Knockdown of CiANXA4 significantly inhibited the mRNA levels of vp2 and vp7, and the protein levels of viral protein VP7 also significantly decreased. This suggests that CiANXA4 promotes viral proliferation. Further, we demonstrate that the ANX3 and ANX4 domains are key domains that limit CiANXA4 function by constructing domain-deletion mutants. Finally, we investigated the relationship between CiLGP2 and CiANXA4. RT-PCR and Western blot results showed that CiLGP2 mRNA and protein expression levels were not affected by CiANXA4 overexpression. In contrast, overexpression of CiLGP2 resulted in significant reductions in CiANXA4 mRNA and protein levels. This suggests that the function of CiANXA4 is restricted by CiLGP2, and CiANXA4 is a downstream molecule of CiLGP2. These results reveal that CiANXA4 plays a critical role in the anti-GCRV innate immune response of grass carp, and provides new targets and strategies to develop antiviral drugs and improve disease resistance in grass carp.
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