核心概念
HCMV pUL71 protein contains a viral MIM2-like motif (vMIM2) that binds the VPS4A MIT domain, recruiting VPS4A to the cytoplasmic viral assembly compartment (cVAC) during HCMV infection.
摘要
The content describes how human cytomegalovirus (HCMV) exploits molecular mimicry to recruit the host cellular protein VPS4A, a key component of the ESCRT machinery, to sites of virus assembly.
Key highlights:
- HCMV pUL71 protein contains a short peptide motif in its C-terminal region that resembles the Type 2 MIT-Interacting Motif (MIM2) found in cellular ESCRT-III proteins. This viral MIM2-like motif (vMIM2) binds directly to the N-terminal MIT domain of VPS4A.
- Structural modeling and mutagenesis experiments confirm that the pUL71 vMIM2 binds the VPS4A MIT domain in a helix-plus-extended conformation, similar to how cellular MIM2 motifs interact.
- The pUL71 vMIM2 interaction with VPS4A is conserved across β-herpesviruses but not in α- or γ-herpesviruses, suggesting a specific role in cytomegalovirus biology.
- During HCMV infection, the pUL71 vMIM2 is required for recruitment of VPS4A to the cytoplasmic viral assembly compartment (cVAC), the site of secondary virus envelopment.
- However, disrupting the pUL71-VPS4A interaction does not significantly impact HCMV replication or virus particle production, suggesting the vMIM2-mediated recruitment of VPS4A is not essential for efficient virus assembly and release.
统计
"VPS4A accumulates at the cytoplasmic viral assembly complex (cVAC) of cells infected with human cytomegalovirus (HCMV), the site where nascent virus particles obtain their membrane envelope."
"Sequence analysis, deep-learning structure prediction, molecular dynamics and mutagenic analysis identify a short peptide motif in the C-terminal region of pUL71 that is necessary and sufficient for the interaction with VPS4A."
"Purified GST-pUL71(283–361) binds the VPS4A MIT domain with 2.84 ± 0.33 µM affinity, tighter than the 5.54 ± 1.10 µM interaction measured between VPS4A MIT and the CHMP6 MIM2."
"Umbrella sampling molecular dynamics simulations accurately predicted the effects of individual amino acid substitutions in the pUL71 vMIM2 on binding to the VPS4A MIT domain."
引用
"VPS4-recruitment via a vMIM2 represents a previously unknown mechanism of molecular mimicry in viruses, extending previous observations that herpesviruses encode proteins with structural and functional homology to cellular ESCRT-III components."
"The ability of molecular dynamics analysis to accurately predict VPS4A-binding behaviours of individual amino acid substitutions in the pUL71 peptide confirms the high quality of the pUL71(300–325):VPS4A MIT structural model."