CryoET structures of immature HIV Gag reveal six-helix bundle

Luiza Mendonça; Dapeng Sun; Jiying Ning; Jiwei Liu; Abhay Kotecha; Mateusz Olek; Thomas Frosio; Xiaofeng Fu; Benjamin A. Himes; Alex B. Kleinpeter; Eric O. Freed; Jing Zhou; Christopher Aiken; Peijun Zhang

doi:10.1038/s42003-021-01999-1

CryoET structures of immature HIV Gag reveal six-helix bundle

Luiza Mendonça
, Dapeng Sun
, Jiying Ning
, Jiwei Liu
, Abhay Kotecha
, Mateusz Olek
, Thomas Frosio
, Xiaofeng Fu
, Benjamin A. Himes
, Alex B. Kleinpeter
, Eric O. Freed
, Jing Zhou
, Christopher Aiken
, Peijun Zhang

Research output: Contribution to journal › Article › peer-review

38 Scopus citations

Abstract

Gag is the HIV structural precursor protein which is cleaved by viral protease to produce mature infectious viruses. Gag is a polyprotein composed of MA (matrix), CA (capsid), SP1, NC (nucleocapsid), SP2 and p6 domains. SP1, together with the last eight residues of CA, have been hypothesized to form a six-helix bundle responsible for the higher-order multimerization of Gag necessary for HIV particle assembly. However, the structure of the complete six-helix bundle has been elusive. Here, we determined the structures of both Gag in vitro assemblies and Gag viral-like particles (VLPs) to 4.2 Å and 4.5 Å resolutions using cryo-electron tomography and subtomogram averaging by emClarity. A single amino acid mutation (T8I) in SP1 stabilizes the six-helix bundle, allowing to discern the entire CA-SP1 helix connecting to the NC domain. These structures provide a blueprint for future development of small molecule inhibitors that can lock SP1 in a stable helical conformation, interfere with virus maturation, and thus block HIV-1 infection.

Original language	English (US)
Article number	481
Journal	Communications biology
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s42003-021-01999-1
State	Published - Dec 2021
Externally published	Yes

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© 2021, The Author(s).

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title = "CryoET structures of immature HIV Gag reveal six-helix bundle",

abstract = "Gag is the HIV structural precursor protein which is cleaved by viral protease to produce mature infectious viruses. Gag is a polyprotein composed of MA (matrix), CA (capsid), SP1, NC (nucleocapsid), SP2 and p6 domains. SP1, together with the last eight residues of CA, have been hypothesized to form a six-helix bundle responsible for the higher-order multimerization of Gag necessary for HIV particle assembly. However, the structure of the complete six-helix bundle has been elusive. Here, we determined the structures of both Gag in vitro assemblies and Gag viral-like particles (VLPs) to 4.2 {\AA} and 4.5 {\AA} resolutions using cryo-electron tomography and subtomogram averaging by emClarity. A single amino acid mutation (T8I) in SP1 stabilizes the six-helix bundle, allowing to discern the entire CA-SP1 helix connecting to the NC domain. These structures provide a blueprint for future development of small molecule inhibitors that can lock SP1 in a stable helical conformation, interfere with virus maturation, and thus block HIV-1 infection.",

author = "Luiza Mendon{\c c}a and Dapeng Sun and Jiying Ning and Jiwei Liu and Abhay Kotecha and Mateusz Olek and Thomas Frosio and Xiaofeng Fu and Himes, \{Benjamin A.\} and Kleinpeter, \{Alex B.\} and Freed, \{Eric O.\} and Jing Zhou and Christopher Aiken and Peijun Zhang",

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year = "2021",

month = dec,

doi = "10.1038/s42003-021-01999-1",

language = "English (US)",

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AU - Mendonça, Luiza

AU - Sun, Dapeng

AU - Ning, Jiying

AU - Liu, Jiwei

AU - Kotecha, Abhay

AU - Olek, Mateusz

AU - Frosio, Thomas

AU - Fu, Xiaofeng

AU - Himes, Benjamin A.

AU - Kleinpeter, Alex B.

AU - Freed, Eric O.

AU - Zhou, Jing

AU - Aiken, Christopher

AU - Zhang, Peijun

PY - 2021/12

Y1 - 2021/12

N2 - Gag is the HIV structural precursor protein which is cleaved by viral protease to produce mature infectious viruses. Gag is a polyprotein composed of MA (matrix), CA (capsid), SP1, NC (nucleocapsid), SP2 and p6 domains. SP1, together with the last eight residues of CA, have been hypothesized to form a six-helix bundle responsible for the higher-order multimerization of Gag necessary for HIV particle assembly. However, the structure of the complete six-helix bundle has been elusive. Here, we determined the structures of both Gag in vitro assemblies and Gag viral-like particles (VLPs) to 4.2 Å and 4.5 Å resolutions using cryo-electron tomography and subtomogram averaging by emClarity. A single amino acid mutation (T8I) in SP1 stabilizes the six-helix bundle, allowing to discern the entire CA-SP1 helix connecting to the NC domain. These structures provide a blueprint for future development of small molecule inhibitors that can lock SP1 in a stable helical conformation, interfere with virus maturation, and thus block HIV-1 infection.

AB - Gag is the HIV structural precursor protein which is cleaved by viral protease to produce mature infectious viruses. Gag is a polyprotein composed of MA (matrix), CA (capsid), SP1, NC (nucleocapsid), SP2 and p6 domains. SP1, together with the last eight residues of CA, have been hypothesized to form a six-helix bundle responsible for the higher-order multimerization of Gag necessary for HIV particle assembly. However, the structure of the complete six-helix bundle has been elusive. Here, we determined the structures of both Gag in vitro assemblies and Gag viral-like particles (VLPs) to 4.2 Å and 4.5 Å resolutions using cryo-electron tomography and subtomogram averaging by emClarity. A single amino acid mutation (T8I) in SP1 stabilizes the six-helix bundle, allowing to discern the entire CA-SP1 helix connecting to the NC domain. These structures provide a blueprint for future development of small molecule inhibitors that can lock SP1 in a stable helical conformation, interfere with virus maturation, and thus block HIV-1 infection.

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CryoET structures of immature HIV Gag reveal six-helix bundle

Abstract

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