Regions in β-Chemokine Receptors CCR5 and CCR2b That Determine HIV-1 Cofactor Specificity

Rucker, Joseph; Samson, Michel; Doranz, Benjamin J.; Libert, Frédérick; Berson, Joanne F.; Yi, Yanjie; Smyth, Robert J.; Collman, Ronald G.; Broder, Christopher C.; Vassart, Gilbert; Doms, Robert W.; Parmentier, Marc

doi:10.1016/s0092-8674(00)81364-1

Cited by 294 publications

(342 citation statements)

References 40 publications

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“…In addition, we used a singlestep entry assay that has a definite linear range and that may be more accurate than a syncytium forming assay for quantifying the ability of different receptors to support HIV-1 envelope-mediated membrane fusion. Other data in Rucker et al (42) indicate that HIV-1 envelope glycoprotein-induced syncytium formation is sensitive to modifications of the CCR5 N terminus. This conclusion is supported in this study with a receptor whose expression and structural integrity are verified.…”

Section: Chemokine Signaling and Hiv-1 Entry On Ccr5 6856 Discussionmentioning

confidence: 90%

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HIV-1 Entry and Macrophage Inflammatory Protein-1β-mediated Signaling Are Independent Functions of the Chemokine Receptor CCR5

Farzan

Choe

Martin

et al. 1997

Journal of Biological Chemistry

177

106

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The human immunodeficiency virus type 1 (HIV-1) requires the presence of specific chemokine receptors in addition to CD4 to enter its target cell. The chemokine receptor CCR5 is used by macrophage-tropic strains of HIV-1, which predominate during the asymptomatic stages of infection. Here we investigate whether the ability of CCR5 to signal in response to its ␤-chemokine ligands is necessary or sufficient for viral entry. Three CCR5 mutants with little or no ability to mobilize calcium in response to macrophage inflammatory protein-1␤ could nonetheless support HIV-1 entry and the early steps in the virus life cycle with efficiencies comparable with those of wild-type CCR5. Conversely, a chimeric receptor with the N terminus of CCR2 replacing that of CCR5 responded to macrophage inflammatory protein-1␤ and MCP-1 but did not efficiently support viral entry. These results demonstrate that chemokine signaling and HIV-1 entry are separable functions of CCR5 and that only viral entry requires the N-terminal domain of CCR5.

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Section: Chemokine Signaling and Hiv-1 Entry On Ccr5 6856 Discussionmentioning

confidence: 90%

“…Rucker et al (42) have used constructs similar to 2M5 and observed HIV fusion activity comparable with that of wild-type CCR5. Several possibilities could account for this inconsistency with our data.…”

Section: Chemokine Signaling and Hiv-1 Entry On Ccr5 6856 Discussionmentioning

confidence: 99%

HIV-1 Entry and Macrophage Inflammatory Protein-1β-mediated Signaling Are Independent Functions of the Chemokine Receptor CCR5

Farzan

Choe

Martin

et al. 1997

Journal of Biological Chemistry

177

106

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“…The aim was to identify CCR5 mutants that still supported HIV-1 entry, but that were less sensitive, or insensitive, to TAK-779 inhibition. We first evaluated wellcharacterized alanine-replacement mutants of the extracellular domain of CCR5 (30,31), because the gp120-binding site maps to this region, in particular, the Nt (30,31,(35)(36)(37)(38). However, alanine substitutions of residues in the extracellular domain had little or no effect on the antiviral activity of TAK-779; the mutant receptors still supported HIV-1 entry and were still sensitive to TAK-779 (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…In contrast, small molecule inhibitors of HIV-1 entry by means of CXCR4 block the binding of mAb 12G5 to ECL-2 of CXCR4 (21)(22)(23). A further complexity is that mutagenesis studies have implicated the CCR5 Nt as being critical for gp120 binding (30,31,(35)(36)(37)(38), yet alanine substitutions in the Nt have, paradoxically, no effect on the antiviral action of TAK-779. One interpretation of the ligand binding experiments is that there is more overlap between the binding sites for TAK-779 and gp120 than there is between the TAK-779 binding site and the mAb epitopes.…”

Section: Discussionmentioning

confidence: 99%

A binding pocket for a small molecule inhibitor of HIV-1 entry within the transmembrane helices of CCR5

Dragic

Trkola²,

Thompson³

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

415

370

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HIV-1 entry into CD4 ؉ cells requires the sequential interactions of the viral envelope glycoproteins with CD4 and a coreceptor such as the chemokine receptors CCR5 and CXCR4. A plausible approach to blocking this process is to use small molecule antagonists of coreceptor function. One such inhibitor has been described for CCR5: the TAK-779 molecule. To facilitate the further development of entry inhibitors as antiviral drugs, we have explored how TAK-779 acts to prevent HIV-1 infection, and we have mapped its site of interaction with CCR5. We find that TAK-779 inhibits HIV-1 replication at the membrane fusion stage by blocking the interaction of the viral surface glycoprotein gp120 with CCR5. We could identify no amino acid substitutions within the extracellular domain of CCR5 that affected the antiviral action of TAK-779. However, alanine scanning mutagenesis of the transmembrane domains revealed that the binding site for TAK-779 on CCR5 is located near the extracellular surface of the receptor, within a cavity formed between transmembrane helices 1, 2, 3, and 7.

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“…The more distal regions of the V3 loop and bridging sheet are thought to interact with the ECLs of CCR5, with ECL2 representing a key determinant (10,12,20,28). Given the sequence variability inherent in the gp120 subunit, it is perhaps not surprising that there is some degree of plasticity in these interactions, as evidenced by the fact that mutations introduced into CCR5 can have markedly different effects on virus infection depending on the virus strain being examined (20,44). Thus, there is some variability in the relative importance of the CCR5 NЈ-terminal domain and ECL2 in supporting infection by different HIV-1 strains (41).…”

Section: Discussionmentioning

confidence: 99%

HIV-1 Resistance to CCR5 Antagonists Associated with Highly Efficient Use of CCR5 and Altered Tropism on Primary CD4 ⁺ T Cells

Pfaff

Wilen

Harrison

et al. 2010

J Virol

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We previously reported on a panel of HIV-1 clade B envelope (Env) proteins isolated from a patient treated with the CCR5 antagonist aplaviroc (APL) that were drug resistant. These Envs used the APL-bound conformation of CCR5, were cross resistant to other small-molecule CCR5 antagonists, and were isolated from the patient's pretreatment viral quasispecies as well as after therapy. We analyzed viral and host determinants of resistance and their effects on viral tropism on primary CD4 ؉ T cells. The V3 loop contained residues essential for viral resistance to APL, while additional mutations in gp120 and gp41 modulated the magnitude of drug resistance. However, these mutations were context dependent, being unable to confer resistance when introduced into a heterologous virus. The resistant virus displayed altered binding between gp120 and CCR5 such that the virus became critically dependent on the N terminus of CCR5 in the presence of APL. In addition, the drug-resistant Envs studied here utilized CCR5 very efficiently: robust virus infection occurred even when very low levels of CCR5 were expressed. However, recognition of drug-bound CCR5 was less efficient, resulting in a Entry of human immunodeficiency virus (HIV) into target cells is a complex, multistep process that is initiated by interactions between the viral envelope (Env) protein gp120 and the host cell receptor CD4, which trigger conformational changes in gp120 that form and orient the coreceptor binding site (9,24). Upon binding to coreceptor, which is either CCR5 or CXCR4 for primary HIV isolates, Env undergoes further conformational changes resulting in insertion of the gp41 fusion peptide into the host cell membrane and gp41-mediated membrane fusion (8,15,26). Targeting stages of the HIV entry process with antiretroviral drugs is a productive method of inhibiting HIV replication, as demonstrated by the potent antiviral effects of small-molecule CCR5 antagonists and fusion inhibitors (23,35,49). As with other antiretroviral drugs, HIV can develop resistance to entry inhibitors, and a detailed understanding of viral and host determinants of resistance will be critical to the optimal clinical use of these agents.The coreceptor binding site that is induced by CD4 engagement consists of noncontiguous regions in the bridging sheet and V3 loop of gp120 (4,18,42,43,50). Interactions between gp120 and CCR5 occur in at least two distinct areas: (i) the bridging sheet and the stem of the V3 loop interact with sul-

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Regions in β-Chemokine Receptors CCR5 and CCR2b That Determine HIV-1 Cofactor Specificity

Cited by 294 publications

References 40 publications

HIV-1 Entry and Macrophage Inflammatory Protein-1β-mediated Signaling Are Independent Functions of the Chemokine Receptor CCR5

HIV-1 Entry and Macrophage Inflammatory Protein-1β-mediated Signaling Are Independent Functions of the Chemokine Receptor CCR5

A binding pocket for a small molecule inhibitor of HIV-1 entry within the transmembrane helices of CCR5

HIV-1 Resistance to CCR5 Antagonists Associated with Highly Efficient Use of CCR5 and Altered Tropism on Primary CD4 ⁺ T Cells

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Regions in β-Chemokine Receptors CCR5 and CCR2b That Determine HIV-1 Cofactor Specificity

Cited by 294 publications

References 40 publications

HIV-1 Entry and Macrophage Inflammatory Protein-1β-mediated Signaling Are Independent Functions of the Chemokine Receptor CCR5

HIV-1 Entry and Macrophage Inflammatory Protein-1β-mediated Signaling Are Independent Functions of the Chemokine Receptor CCR5

A binding pocket for a small molecule inhibitor of HIV-1 entry within the transmembrane helices of CCR5

HIV-1 Resistance to CCR5 Antagonists Associated with Highly Efficient Use of CCR5 and Altered Tropism on Primary CD4 + T Cells

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Product

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HIV-1 Resistance to CCR5 Antagonists Associated with Highly Efficient Use of CCR5 and Altered Tropism on Primary CD4 ⁺ T Cells