Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.

Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.

Cytomegalovirus (CMV) infection causes birth defects and life-threatening complications in immunosuppressed patients. Lack of vaccine and need for more effective drugs have driven widespread ongoing therapeutic development efforts against human CMV (HCMV), mostly using murine CMV (MCMV) as the model...

Full description

Bibliographic Details
Main Authors: Wei Liu, Xinghong Dai, Jonathan Jih, Karen Chan, Phong Trang, Xuekui Yu, Rilwan Balogun, Ye Mei, Fenyong Liu, Z Hong Zhou
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-02-01
Series:PLoS Pathogens
Online Access:https://doi.org/10.1371/journal.ppat.1007615
id doaj-9f162cbda3494a6b9c7cd569d4eff963
record_format Article
spelling doaj-9f162cbda3494a6b9c7cd569d4eff9632021-04-21T17:11:10ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742019-02-01152e100761510.1371/journal.ppat.1007615Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.Wei LiuXinghong DaiJonathan JihKaren ChanPhong TrangXuekui YuRilwan BalogunYe MeiFenyong LiuZ Hong ZhouCytomegalovirus (CMV) infection causes birth defects and life-threatening complications in immunosuppressed patients. Lack of vaccine and need for more effective drugs have driven widespread ongoing therapeutic development efforts against human CMV (HCMV), mostly using murine CMV (MCMV) as the model system for preclinical animal tests. The recent publication (Yu et al., 2017, DOI: 10.1126/science.aam6892) of an atomic model for HCMV capsid with associated tegument protein pp150 has infused impetus for rational design of novel vaccines and drugs, but the absence of high-resolution structural data on MCMV remains a significant knowledge gap in such development efforts. Here, by cryoEM with sub-particle reconstruction method, we have obtained the first atomic structure of MCMV capsid with associated pp150. Surprisingly, the capsid-binding patterns of pp150 differ between HCMV and MCMV despite their highly similar capsid structures. In MCMV, pp150 is absent on triplex Tc and exists as a "Λ"-shaped dimer on other triplexes, leading to only 260 groups of two pp150 subunits per capsid in contrast to 320 groups of three pp150 subunits each in a "Δ"-shaped fortifying configuration. Many more amino acids contribute to pp150-pp150 interactions in MCMV than in HCMV, making MCMV pp150 dimer inflexible thus incompatible to instigate triplex Tc-binding as observed in HCMV. While pp150 is essential in HCMV, our pp150-deletion mutant of MCMV remained viable though with attenuated infectivity and exhibiting defects in retaining viral genome. These results thus invalidate targeting pp150, but lend support to targeting capsid proteins, when using MCMV as a model for HCMV pathogenesis and therapeutic studies.https://doi.org/10.1371/journal.ppat.1007615
collection DOAJ
language English
format Article
sources DOAJ
author Wei Liu
Xinghong Dai
Jonathan Jih
Karen Chan
Phong Trang
Xuekui Yu
Rilwan Balogun
Ye Mei
Fenyong Liu
Z Hong Zhou
spellingShingle Wei Liu
Xinghong Dai
Jonathan Jih
Karen Chan
Phong Trang
Xuekui Yu
Rilwan Balogun
Ye Mei
Fenyong Liu
Z Hong Zhou
Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.
PLoS Pathogens
author_facet Wei Liu
Xinghong Dai
Jonathan Jih
Karen Chan
Phong Trang
Xuekui Yu
Rilwan Balogun
Ye Mei
Fenyong Liu
Z Hong Zhou
author_sort Wei Liu
title Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.
title_short Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.
title_full Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.
title_fullStr Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.
title_full_unstemmed Atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.
title_sort atomic structures and deletion mutant reveal different capsid-binding patterns and functional significance of tegument protein pp150 in murine and human cytomegaloviruses with implications for therapeutic development.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2019-02-01
description Cytomegalovirus (CMV) infection causes birth defects and life-threatening complications in immunosuppressed patients. Lack of vaccine and need for more effective drugs have driven widespread ongoing therapeutic development efforts against human CMV (HCMV), mostly using murine CMV (MCMV) as the model system for preclinical animal tests. The recent publication (Yu et al., 2017, DOI: 10.1126/science.aam6892) of an atomic model for HCMV capsid with associated tegument protein pp150 has infused impetus for rational design of novel vaccines and drugs, but the absence of high-resolution structural data on MCMV remains a significant knowledge gap in such development efforts. Here, by cryoEM with sub-particle reconstruction method, we have obtained the first atomic structure of MCMV capsid with associated pp150. Surprisingly, the capsid-binding patterns of pp150 differ between HCMV and MCMV despite their highly similar capsid structures. In MCMV, pp150 is absent on triplex Tc and exists as a "Λ"-shaped dimer on other triplexes, leading to only 260 groups of two pp150 subunits per capsid in contrast to 320 groups of three pp150 subunits each in a "Δ"-shaped fortifying configuration. Many more amino acids contribute to pp150-pp150 interactions in MCMV than in HCMV, making MCMV pp150 dimer inflexible thus incompatible to instigate triplex Tc-binding as observed in HCMV. While pp150 is essential in HCMV, our pp150-deletion mutant of MCMV remained viable though with attenuated infectivity and exhibiting defects in retaining viral genome. These results thus invalidate targeting pp150, but lend support to targeting capsid proteins, when using MCMV as a model for HCMV pathogenesis and therapeutic studies.
url https://doi.org/10.1371/journal.ppat.1007615
work_keys_str_mv AT weiliu atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT xinghongdai atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT jonathanjih atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT karenchan atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT phongtrang atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT xuekuiyu atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT rilwanbalogun atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT yemei atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT fenyongliu atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
AT zhongzhou atomicstructuresanddeletionmutantrevealdifferentcapsidbindingpatternsandfunctionalsignificanceoftegumentproteinpp150inmurineandhumancytomegaloviruseswithimplicationsfortherapeuticdevelopment
_version_ 1714666515356188672

Similar Items