Protease Cleavage Leads to Formation of Mature Trimer Interface in HIV-1 Capsid

Meng, X and Zhao, G and Yufenyuy, E and Ke, D and Ning, J and DeLucia, M and Ahn, J and Gronenborn, AM and Aiken, C and Zhang, P (2012) Protease Cleavage Leads to Formation of Mature Trimer Interface in HIV-1 Capsid. PLoS Pathogens, 8 (8). ISSN 1553-7366

Preview	PDF Published Version Available under License : See the attached license file. Download (2MB) | Preview
	Plain Text (licence) Available under License : See the attached license file. Download (1kB)

Abstract

During retrovirus particle maturation, the assembled Gag polyprotein is cleaved by the viral protease into matrix (MA), capsid (CA), and nucleocapsid (NC) proteins. To form the mature viral capsid, CA rearranges, resulting in a lattice composed of hexameric and pentameric CA units. Recent structural studies of assembled HIV-1 CA revealed several inter-subunit interfaces in the capsid lattice, including a three-fold interhexamer interface that is critical for proper capsid stability. Although a general architecture of immature particles has been provided by cryo-electron tomographic studies, the structural details of the immature particle and the maturation pathway remain unknown. Here, we used cryo-electron microscopy (cryoEM) to determine the structure of tubular assemblies of the HIV-1 CA-SP1-NC protein. Relative to the mature assembled CA structure, we observed a marked conformational difference in the position of the CA-CTD relative to the NTD in the CA-SP1-NC assembly, involving the flexible hinge connecting the two domains. This difference was verified via engineered disulfide crosslinking, revealing that inter-hexamer contacts, in particular those at the pseudo three-fold axis, are altered in the CA-SP1-NC assemblies compared to the CA assemblies. Results from crosslinking analyses of mature and immature HIV-1 particles containing the same Cys substitutions in the Gag protein are consistent with these findings. We further show that cleavage of preassembled CA-SP1-NC by HIV-1 protease in vitro leads to release of SP1 and NC without disassembly of the lattice. Collectively, our results indicate that the proteolytic cleavage of Gag leads to a structural reorganization of the polypeptide and creates the three-fold interhexamer interface, important for the formation of infectious HIV-1 particles. © 2012 Meng et al.

---

Share

Citation/Export:	Select format... Citation - Text Citation - HTML Endnote BibTex Dublin Core OpenURL MARC (ISO 2709) METS MODS EP3 XML Reference Manager Refer
Social Networking:	Share |

---

Details

Item Type:	Article
Status:	Published
Creators/Authors:	Creators Email Pitt Username ORCID Meng, X Zhao, G goz1@pitt.edu GOZ1 Yufenyuy, E Ke, D Ning, J jin7@pitt.edu JIN7 DeLucia, M mld80@pitt.edu MLD80 Ahn, J jia12@pitt.edu JIA12 Gronenborn, AM amg100@pitt.edu AMG100 Aiken, C Zhang, P PEZ7@pitt.edu PEZ7
Contributors:	Contribution Contributors Name Email Pitt Username ORCID Editor Young, John A. T. UNSPECIFIED UNSPECIFIED UNSPECIFIED
Date:	1 August 2012
Date Type:	Publication
Journal or Publication Title:	PLoS Pathogens
Volume:	8
Number:	8
DOI or Unique Handle:	10.1371/journal.ppat.1002886
Schools and Programs:	School of Medicine > Structural Biology
Refereed:	Yes
ISSN:	1553-7366
Other ID:	NLM PMC3426514
PubMed Central ID:	PMC3426514
PubMed ID:	22927821
Date Deposited:	18 Oct 2012 21:04
Last Modified:	04 Feb 2019 15:58
URI:	http://d-scholarship.pitt.edu/id/eprint/15891

---

Metrics

Monthly Views for the past 3 years

Plum Analytics

Altmetric.com

---

Actions (login required)

View Item