Multiple Interactions across the Surface of the gp120 Core Structure Determine the Global Neutralization Resistance Phenotype of Human Immunodeficiency Virus Type 1

Bouma, Peter; Leavitt, Maria G.; Zhang, Peng Fei; Sidorov, Igor A.; Dimitrov, Dimiter S.; Quinnan, Gerald V.

doi:10.1128/jvi.77.14.8061-8071.2003

Cited by 18 publications

(11 citation statements)

References 50 publications

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“…In both assays, m9 exhibited the highest potency, with IC 90 s ranging from 4 mg/ml to 25 mg/ml, which was, on average, two-to threefold lower than the IC 90 for scFv X5; the inhibitory activity of m6 was, on average, comparable to that of scFv X5 in these assays ( Table 1). Note that for all tested isolates in the PBMC assay, scFv X5 exhibited higher potency than Fab X5 and IgG1 X5 as has been demonstrated recently for other isolates; 12 further, we will compare only scFv X5 with m6 and m9.…”

Section: Potent Neutralizing Activity Of M6 and M9 Against Selected Imentioning

confidence: 53%

Improved Breadth and Potency of an HIV-1-Neutralizing Human Single-chain Antibody by Random Mutagenesis and Sequential Antigen Panning

Zhang

Shu

Rudolph³

et al. 2004

Journal of Molecular Biology

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Section: Potent Neutralizing Activity Of M6 and M9 Against Selected Imentioning

confidence: 53%

Improved Breadth and Potency of an HIV-1-Neutralizing Human Single-chain Antibody by Random Mutagenesis and Sequential Antigen Panning

Zhang

Shu

Rudolph³

et al. 2004

Journal of Molecular Biology

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“…It is of interest that the V1V2 and V3 changes we examined did not overlap any of the binding sites of the MAbs studied. A likely explanation is therefore conformational changes within the MAb binding sites (including CD4BS) induced by the V1V2 and V3 changes, similar to what has been previously shown (5). Another explanation is that modified V1V2 and V3 can interact with residues that are close to these binding sites and that modify antibody recognition.…”

mentioning

confidence: 84%

Intrapatient Alterations in the Human Immunodeficiency Virus Type 1 gp120 V1V2 and V3 Regions Differentially Modulate Coreceptor Usage, Virus Inhibition by CC/CXC Chemokines, Soluble CD4, and the b12 and 2G12 Monoclonal Antibodies

Nabatov

Pollakis

Linnemann

et al. 2004

J Virol

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We studied human immunodeficiency virus type 1 (HIV-1) chimeric viruses altering in their gp120 V1V2 and V3 envelope regions to better map which genetic alterations are associated with specific virus phenotypes associated with HIV-1 disease progression. The V1V2 and V3 regions studied were based on viruses isolated from an individual with progressing HIV-1 disease. Higher V3 charges were linked with CXCR4 usage, but only when considered within a specific V1V2 and V3 N-linked glycosylation context. When the virus gained R5X4 dual tropism, irrespective of its V3 charge, it became highly resistant to inhibition by RANTES and highly sensitive to inhibition by SDF-1␣. R5 viruses with higher positive V3 charges were more sensitive to inhibition by RANTES, while R5X4 dualtropic viruses with higher positive V3 charges were more resistant to inhibition by SDF-1␣. Loss of the V3 N-linked glycosylation event rendered the virus more resistant to inhibition by SDF-1␣. The same alterations in the V1V2 and V3 regions influenced the extent to which the viruses were neutralized with soluble CD4, as well as monoclonal antibodies b12 and 2G12, but not monoclonal antibody 2F5. These results further identify a complex set of alterations within the V1V2 and V3 regions of HIV-1 that can be selected in the host via alterations of coreceptor usage, CC/CXC chemokine inhibition, CD4 binding, and antibody neutralization.Human immunodeficiency virus type 1 (HIV-1) belongs to the family of lentiviruses that cause slow degenerative diseases (16,17, 36). The high rate of mutation associated with HIV-1 allows for the generation of viruses that can evade the host immune responses and that give rise to variant biological properties, such as cell tropism. HIV-1 predominantly enters the cell types that it infects through an initial interaction between the gp120 envelope of the virus and the CD4 molecule, followed by an interaction with a specific CC/CXC chemokine receptor, thereby mediating membrane fusion and viral entry (3,42). Although a multitude of coreceptors can be utilized by HIV-1, the two most significant for virus transmission and pathogenesis are the CC chemokine receptor CCR5 and the CXC chemokine receptor CXCR4, respectively (2, 57). The preferred phenotypic classifications for HIV-1 are R5 for isolates using CCR5, X4 for those using CXCR4, and R5X4 for those capable of using both coreceptors (3). The association of X4 variants with disease progression and the maintenance of R5 variants throughout infection suggest that X4 viruses are either a cause of or evolve in response to progressive immunosuppression, while R5 variants make up the reservoir responsible for persistent infection (45,46,48,52). Detection of X4 viruses is also predictive of rapid CD4 cell decline (9, 28).Although X4 isolates can occasionally be detected early, they usually appear later in infection and are associated with progression to AIDS (10, 49).The CC chemokines RANTES, MIP-1␣, and MIP-1␤, the natural ligands for the CCR5 chemokine receptor, and SDF-1␣, the na...

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“…Substitutions at residues 165 to 167 during the adaptation of various HIV-1 strains to replication in vitro have been reported; the adaptation is associated with an increase of the positive charge of this amino acid motif (1,13,39,52,57,63). In our present study, the amino acid change at 166/167 in the V2 region in passaged MOKW viruses with KD-247 was RD to KN, again increasing the positive charge.…”

Section: Discussionmentioning

confidence: 99%

Impact of V2 Mutations on Escape from a Potent Neutralizing Anti-V3 Monoclonal Antibody during In Vitro Selection of a Primary Human Immunodeficiency Virus Type 1 Isolate

Shibata

Yoshimura

Honda

et al. 2007

J Virol

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KD-247, a humanized monoclonal antibody to an epitope of gp120-V3 tip, has potent cross-neutralizing activity against subtype B primary human immunodeficiency virus type 1 (HIV-1) isolates. To assess how KD-247 escape mutants can be generated, we induced escape variants by exposing bulked primary R5 virus, MOKW, to increasing concentrations of KD-247 in vitro. In the presence of relatively low concentrations of KD-247, viruses with two amino acid mutations (R166K/D167N) in V2 expanded, and under high KD-247 pressure, a V3 tip substitution (P313L) emerged in addition to the V2 mutations. However, a virus with a V2 175P mutation dominated during passaging in the absence of KD-247. Using domain swapping analysis, we demonstrated that the V2 mutations and the P313L mutation in V3 contribute to partial and complete resistance phenotypes against KD-247, respectively. To identify the V2 mutation responsible for the resistance to KD-247, we constructed pseudoviruses with single or double amino acid mutations in V2 and measured their sensitivity to neutralization. Interestingly, the neutralization phenotypes were switched, so that amino acid residue 175 (Pro or Leu) located in the center of V2 was exchanged, indicating that the amino acid at position 175 has a crucial role, dramatically changing the Env oligomeric state on the membrane surface and affecting the neutralization phenotype against not only anti-V3 antibody but also recombinant soluble CD4. These data suggested that HIV-1 can escape from anti-V3 antibody attack by changing the conformation of the functional envelope oligomer by acquiring mutations in the V2 region in environments with relatively low antibody concentrations.The envelope protein (Env) of human immunodeficiency virus type 1 (HIV-1) presents on the virus surface as "spikes" composed of trimers comprising three gp120-gp41 complexes (6,32,33). Among the regions that induce the neutralization antibody (NAb) response, the third variable domain (V3 loop) of gp120 is considered one of the major targets of the host immune response (23, 69). It has been estimated that as much as half of the antibody response against HIV-1 Env in patient serum is directed against the V3 region (43). A recent crystallographic study revealed that the V3 loop contains features that are essential for coreceptor binding and that the extended nature and antibody accessibility of V3 are associated with its immunodominance (20).HIV-1 primary isolates are relatively resistant to neutralization by NAbs and recombinant soluble CD4 (rsCD4) compared with variants selected for growth in permanent cell lines (42,52,55). Studies addressing differences between neutralization-sensitive and -resistant variants have revealed the involvement of several mechanisms that underlie the neutralization resistance of primary isolates, including the occlusion of epitopes within the oligomer, extensive glycosylation, and extension of variable loops from the surface of the complex, as well as steric and conformational blocking of receptor binding sites ...

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Multiple Interactions across the Surface of the gp120 Core Structure Determine the Global Neutralization Resistance Phenotype of Human Immunodeficiency Virus Type 1

Cited by 18 publications

References 50 publications

Improved Breadth and Potency of an HIV-1-Neutralizing Human Single-chain Antibody by Random Mutagenesis and Sequential Antigen Panning

Improved Breadth and Potency of an HIV-1-Neutralizing Human Single-chain Antibody by Random Mutagenesis and Sequential Antigen Panning

Intrapatient Alterations in the Human Immunodeficiency Virus Type 1 gp120 V1V2 and V3 Regions Differentially Modulate Coreceptor Usage, Virus Inhibition by CC/CXC Chemokines, Soluble CD4, and the b12 and 2G12 Monoclonal Antibodies

Impact of V2 Mutations on Escape from a Potent Neutralizing Anti-V3 Monoclonal Antibody during In Vitro Selection of a Primary Human Immunodeficiency Virus Type 1 Isolate

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