F.K.M. Schur scite author profile

Immature HIV-1 assembles at and buds from the plasma membrane before proteolytic cleavage of the viral Gag polyprotein induces structural maturation. Maturation can be blocked by maturation inhibitors (MIs), thereby abolishing infectivity. The CA (capsid) and SP1 (spacer peptide 1) region of Gag is the key regulator of assembly and maturation and is the target of MIs. We applied optimized cryo-electron tomography and subtomogram averaging to resolve this region within assembled immature HIV-1 particles at 3.9 angstrom resolution and built an atomic model. The structure reveals a network of intra- and intermolecular interactions mediating immature HIV-1 assembly. The proteolytic cleavage site between CA and SP1 is inaccessible to protease. We suggest that MIs prevent CA-SP1 cleavage by stabilizing the structure, and MI resistance develops by destabilizing CA-SP1.

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Inositol phosphates are assembly co-factors for HIV-1

Dick

Zadrozny

et al. 2018

Nature

221

358

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A short, 14-amino-acid segment called SP1, located in the Gag structural protein, has a critical role during the formation of the HIV-1 virus particle. During virus assembly, the SP1 peptide and seven preceding residues fold into a six-helix bundle, which holds together the Gag hexamer and facilitates the formation of a curved immature hexagonal lattice underneath the viral membrane. Upon completion of assembly and budding, proteolytic cleavage of Gag leads to virus maturation, in which the immature lattice is broken down; the liberated CA domain of Gag then re-assembles into the mature conical capsid that encloses the viral genome and associated enzymes. Folding and proteolysis of the six-helix bundle are crucial rate-limiting steps of both Gag assembly and disassembly, and the six-helix bundle is an established target of HIV-1 inhibitors. Here, using a combination of structural and functional analyses, we show that inositol hexakisphosphate (InsP6, also known as IP) facilitates the formation of the six-helix bundle and assembly of the immature HIV-1 Gag lattice. IP makes ionic contacts with two rings of lysine residues at the centre of the Gag hexamer. Proteolytic cleavage then unmasks an alternative binding site, where IP interaction promotes the assembly of the mature capsid lattice. These studies identify IP as a naturally occurring small molecule that promotes both assembly and maturation of HIV-1.

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F.K.M. Schur

An atomic model of HIV-1 capsid-SP1 reveals structures regulating assembly and maturation

Inositol phosphates are assembly co-factors for HIV-1

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