Hyo Young Chung scite author profile

HIV release requires TSG101, a cellular factor that sorts proteins into vesicles that bud into multivesicular bodies (MVB). To test whether other proteins involved in MVB biogenesis (the class E proteins) also participate in HIV release, we identified 22 candidate human class E proteins. These proteins were connected into a coherent network by 43 different protein-protein interactions, with AIP1 playing a key role in linking complexes that act early (TSG101/ESCRT-I) and late (CHMP4/ESCRT-III) in the pathway. AIP1 also binds the HIV-1 p6(Gag) and EIAV p9(Gag) proteins, indicating that it can function directly in virus budding. Human class E proteins were found in HIV-1 particles, and dominant-negative mutants of late-acting human class E proteins arrested HIV-1 budding through plasmal and endosomal membranes. These studies define a protein network required for human MVB biogenesis and indicate that the entire network participates in the release of HIV and probably many other viruses.

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Structural and Biochemical Studies of ALIX/AIP1 and Its Role in Retrovirus Budding

Fisher

Chung

Zhai

et al. 2007

Cell

292

576

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ALIX/AIP1 functions in enveloped virus budding, endosomal protein sorting, and many other cellular processes. Retroviruses, including HIV-1, SIV, and EIAV, bind and recruit ALIX through YPX n L late-domain motifs (X = any residue; n = 1-3). Crystal structures reveal that human ALIX is composed of an N-terminal Bro1 domain and a central domain that is composed of two extended three-helix bundles that form elongated arms that fold back into a ''V.'' The structures also reveal conformational flexibility in the arms that suggests that the V domain may act as a flexible hinge in response to ligand binding. YPX n L late domains bind in a conserved hydrophobic pocket on the second arm near the apex of the V, whereas CHMP4/ ESCRT-III proteins bind a conserved hydrophobic patch on the Bro1 domain, and both interactions are required for virus budding. ALIX therefore serves as a flexible, extended scaffold that connects retroviral Gag proteins to ESCRT-III and other cellular-budding machinery.

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Human ESCRT and ALIX proteins interact with proteins of the midbody and function in cytokinesis

Morita

Sandrin

Chung

et al. 2007

EMBO J

629

470

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TSG101 and ALIX both function in HIV budding and in vesicle formation at the multivesicular body (MVB), where they interact with other Endosomal Sorting Complex Required for Transport (ESCRT) pathway factors required for release of viruses and vesicles. Proteomic analyses revealed that ALIX and TSG101/ESCRT-I also bind a series of proteins involved in cytokinesis, including CEP55, CD2AP, ROCK1, and IQGAP1. ALIX and TSG101 concentrate at centrosomes and are then recruited to the midbodies of dividing cells through direct interactions between the central CEP55 'hinge' region and GPP-based motifs within TSG101 and ALIX. ESCRT-III and VPS4 proteins are also recruited, indicating that much of the ESCRT pathway localizes to the midbody. Depletion of ALIX and TSG101/ESCRT-I inhibits the abscission step of HeLa cell cytokinesis, as does VPS4 overexpression, confirming a requirement for these proteins in cell division. Furthermore, ALIX point mutants that block CEP55 and CHMP4/ESCRT-III binding also inhibit abscission, indicating that both interactions are essential. These experiments suggest that the ESCRT pathway may be recruited to facilitate analogous membrane fission events during HIV budding, MVB vesicle formation, and the abscission stage of cytokinesis.

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Structural and mechanistic studies of VPS4 proteins

Scott

Chung

Gonciarz-Swiatek

et al. 2005

EMBO J

200

355

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VPS4 ATPases function in multivesicular body formation and in HIV-1 budding. Here, we report the crystal structure of monomeric apo human VPS4B/SKD1 (hVPS4B), which is composed of five distinct elements: a poorly ordered N-terminal MIT domain that binds ESCRT-III substrates, large (mixed alpha/beta) and small (alpha) AAA ATPase domains that closely resemble analogous domains in the p97 D1 ATPase cassette, a three-stranded antiparallel beta domain inserted within the small ATPase domain, and a novel C-terminal helix. Apo hVPS4B and yeast Vps4p (yVps4p) proteins dimerized in solution, and assembled into larger complexes (10-12 subunits) upon ATP binding. Human and yeast adaptor proteins (LIP5 and yVta1p, respectively) bound the beta domains of the fully assembled hVPS4B and yVps4p proteins. We therefore propose that Vps4 proteins cycle between soluble, inactive low molecular weight complexes and active, membrane-associated double-ring structures that bind ATP and coassemble with LIP5/Vta1. Finally, HIV-1 budding was inhibited by mutations in a loop that projects into the center of the modeled hVPS4B rings, suggesting that hVPS4B may release the assembled ESCRT machinery by pulling ESCRT-III substrates up into the central pore.

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Human ESCRT and ALIX proteins interact with proteins of the midbody and function in cytokinesis

Morita¹,

Sandrin²,

Chung³

et al. 2012

153

270

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We wish to report that we have discovered an error in the AD-ROCK1 yeast two hybrid construct used in the experiment displayed in Figure 1D. This error introduced a stop codon after ROCK1 amino acid 123, so that the two hybrid interactions that we reported as being between TSG101 and full-length ROCK1 were actually between TSG101 and a truncated construct that expressed only the first 123 residues of ROCK1. This error does not affect the corresponding ROCK1-TSG101 co-immunoprecipitation experiment displayed in Figure 1B of the original paper. Based on the co-immunoprecipitation experiment, the conclusion that ROCK1 can interact with TSG101 stands.The authors apologize for any inconvenience caused.

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Hyo Young Chung

The Protein Network of HIV Budding

Structural and Biochemical Studies of ALIX/AIP1 and Its Role in Retrovirus Budding

Human ESCRT and ALIX proteins interact with proteins of the midbody and function in cytokinesis

Structural and mechanistic studies of VPS4 proteins

Human ESCRT and ALIX proteins interact with proteins of the midbody and function in cytokinesis

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