Acetylation of the influenza A virus polymerase subunit PA in the N-terminal domain positively regulates its endonuclease activity.

The post-translational acetylation of lysine residues is found in many nonhistone proteins and is involved in a wide range of biological processes. Recently, we showed that the nucleoprotein of the influenza A virus is acetylated by histone acetyltransferases (HATs), a phenomenon that affects viral transcription. Here, we report that the PA subunit of influenza A virus RNA-dependent RNA polymerase is acetylated by the HATs, P300/CREB-binding protein-associated factor (PCAF), and general control nonderepressible 5 (GCN5), resulting in accelerated endonuclease activity. Specifically, the full-length PA subunit expressed in cultured 293T cells was found to be strongly acetylated. Moreover, the partial recombinant protein of the PA N-terminal region containing the endonuclease domain was also acetylated by PCAF and GCN5 in vitro, which facilitated its endonuclease activity. Mass spectrometry analyses identified K19 as a candidate acetylation target in the PA N-terminal region. Notably, the substitution of the lysine residue at position 19 with glutamine, a mimic of the acetyl-lysine residue, enhanced its endonuclease activity in vitro; this point mutation also accelerated influenza A virus RNA-dependent RNA polymerase activity in the cell. Our findings suggest that PA acetylation is important for the regulation of the endonuclease and RNA polymerase activities of the influenza A virus.

Acetylation of lysine residues in the recombinant nucleoprotein and VP40 matrix protein of Zaire Ebolavirus by eukaryotic histone acetyltransferases.

Acetylation of histones and other proteins plays crucial roles in transcriptional regulation, chromatin organization, and other biological processes. It has been recently reported that the nucleoprotein (NP) of influenza virus is acetylated in infected cells, and this modification contributes to the RNA polymerization activity of the virus. As the influenza virus, the Ebolavirus contains single-stranded negative-sense RNA as its viral genome, which interacts with NP and other viral proteins. In this study, we performed a series of biochemical experiments and revealed that the recombinant Ebolavirus NP and the viral matrix protein VP40, which binds with NP, were acetylated by eukaryotic histone acetyltransferases, such as P300/CREB-binding protein (P300/CBP) and P300/CBP-associated factor (PCAF), in vitro. Mass spectrometry was used to identify the lysine residues that were potential acetylation targets in NP and VP40. The identified lysine residues in NP were located in the RNA-binding cleft and the VP35-binding domain. Potentially acetylated lysine targets in VP40 were identified in the basic patch, which is necessary for constructing oligomers. These results suggest that the acetylation of these lysine residues is involved in the interactions between viral proteins.