Protein acetylation, a crucial post-translational modification, plays a significant role in antiviral immunity of host and viral replication processes after infection. Our previous research showed that an acetyltransferase KAT2A significantly enhanced white spot syndrome virus (WSSV) replication in hematopoietic tissue (Hpt) cells from Cherax quadricarinatus, suggesting that alterations in intracellular acetylation states affect viral infection. Nevertheless, the mechanisms by which WSSV invasion regulates intracellular protein acetylation remain unexplored. To explore the connection between protein acetylation and WSSV infection, differentially acetylated proteins (DAcPs) were identified in Hpt cells during WSSV infection by proteomic analysis. The results revealed that 25 DAcPs were identified with primarily involving in transporter activity and proton ATPase activity complex during the early stage of WSSV infection, i.e., the intracellular transport of the virions. Furthermore, that 36 DAcPs associated with chromatin assembly and acetyltransferase complex were identified in the replication stage of WSSV infection, i.e., the process of extensive viral replication. Additionally, acetylation at the K27 and K36 sites of histone H3 was strongly activated during WSSV replication; similarly, the inhibition of histone acetylation by acetyltransferase inhibiter C646 significantly suppressed WSSV replication, implying that WSSV replication requires high levels of histone acetylation, while the acetylation at the K27 and K36 sites of histone H3 probably serves as critical viral regulatory targets. This study deepens the understanding of WSSV-host interaction, and lays the groundwork for future research into the relationship between protein acetylation and viral infection in crustaceans.
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