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ABSTRACT: CCR5 is the major HIV-1 entry coreceptor. RANTES/CCL5 analogs are more potent inhibitors of infection than native chemokines; one class activates and internalizes CCR5, one neither activates nor internalizes, and a third partially internalizes without activation. Here we show that mutations in CCR5 transmembrane domains differentially impact the activity of these three inhibitor classes, suggesting that the transmembrane region of CCR5, a key interaction site for inhibitors, is a sensitive molecular switch, modulating receptor activity.
Journal of Virology 07/2012; 86(18):10218-20. · 5.40 Impact Factor
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ABSTRACT: Viral resistance to small molecule allosteric inhibitors of CCR5 is well documented, and involves either selection of preexisting CXCR4-using HIV-1 variants or envelope sequence evolution to use inhibitor-bound CCR5 for entry. Resistance to macromolecular CCR5 inhibitors has been more difficult to demonstrate, although selection of CXCR4-using variants might be expected. We have compared the in vitro selection of HIV-1 CC1/85 variants resistant to either the small molecule inhibitor maraviroc (MVC) or the macromolecular inhibitor 5P12-RANTES. High level resistance to MVC was conferred by the same envelope mutations as previously reported after 16-18 weeks of selection by increasing levels of MVC. The MVC-resistant mutants were fully sensitive to inhibition by 5P12-RANTES. By contrast, only transient and low level resistance to 5P12-RANTES was achieved in three sequential selection experiments, and each resulted in a subsequent collapse of virus replication. A fourth round of selection by 5P12-RANTES led, after 36 weeks, to a "resistant" variant that had switched from CCR5 to CXCR4 as a coreceptor. Envelope sequences diverged by 3.8% during selection of the 5P12-RANTES resistant, CXCR4-using variants, with unique and critical substitutions in the V3 region. A subset of viruses recovered from control cultures after 44 weeks of passage in the absence of inhibitors also evolved to use CXCR4, although with fewer and different envelope mutations. Control cultures contained both viruses that evolved to use CXCR4 by deleting four amino acids in V3, and others that maintained entry via CCR5. These results suggest that coreceptor switching may be the only route to resistance for compounds like 5P12-RANTES. This pathway requires more mutations and encounters more fitness obstacles than development of resistance to MVC, confirming the clinical observations that resistance to small molecule CCR5 inhibitors very rarely involves coreceptor switching.
PLoS ONE 01/2011; 6(7):e22020. · 4.09 Impact Factor
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ABSTRACT: Coreceptor switching from CCR5 to CXCR4 is less common in subtype C HIV-1 infection than in subtype B for reasons that are unclear. We have examined sequential virus samples from a subtype C-infected child who had evidence of coreceptor switching.
To examine HIV-1 envelope evolution towards CXCR4 usage, env sequences were correlated with phenotypic characteristics determined by entry assays, as well as the ability to use alternative coreceptors such as FPRL1, CCR3, CCR8 and others. The value of a phenotype predictor based on V3 sequences was also assessed.
Ninety-three sequences revealed 3 distinct coexistent virus lineages and only some members of one lineage evolved to use CXCR4. These lineages also had diverse alternative coreceptor patterns including the ability to use FPRL1, CCR3, CCR8, APJ, CMKLR1, RDC-1, CXCR6, CCR1, GPCR1, GPR15 and CCR6. Coreceptor switching was associated with extensive and rapid sequence divergence in the V1/V2 region in addition to V3 changes. Furthermore, interlineage recombination within the C2 region resulted in low predictability of a V3 sequence-based phenotype algorithm, and highlighted the importance of V1/V2 and V3 sequences in coreceptor usage.
These results suggest that the evolution to coreceptor switching in subtype C infection requires more mutations than other subtypes, and this contributes to the reduced incidence of R5X4 viruses.
JAIDS Journal of Acquired Immune Deficiency Syndromes 10/2010; 56(1):9-15. · 4.43 Impact Factor
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ABSTRACT: Resistance of human immunodeficiency virus type 1 (HIV-1) to small-molecule CCR5 inhibitors is well demonstrated, but resistance to macromolecular CCR5 inhibitors (e.g., PSC-RANTES) that act by both CCR5 internalization and receptor blockade had not been reported until recently (3). The report of a single simian-human immunodeficiency virus SHIV(SF162-p3) variant with one V3 and one gp41 sequence change in gp160 that conferred both altered replicative fitness and resistance to PSC-RANTES was therefore surprising. We introduced the same two mutations into both the parental HIV-1(SF162) and the macaque-adapted SHIV(SF162-p3) and found minor differences in entry fitness but no changes in sensitivity to inhibition by either PSC-RANTES or the small-molecule allosteric inhibitor TAK-779. We attribute the earlier finding to confounding fitness effects with inhibitor sensitivity.
Journal of Virology 03/2010; 84(11):5842-5. · 5.40 Impact Factor
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ABSTRACT: Fitness epistasis, the interaction among alleles at different loci in their effects on fitness, has potentially important consequences for adaptive evolution. We investigated fitness epistasis among amino acids of a functionally important region of the human immunodeficiency virus type 1 (HIV-1) exterior envelope glycoprotein (gp120). Seven mutations putatively involved in the adaptation of the second conserved to third variable protein region (C2-V3) to the use of an alternative host-cell chemokine coreceptor (CXCR4) for cell entry were engineered singly and in combinations on the wild-type genetic background and their effects on viral infectivity were measured. Epistasis was found to be common and complex, involving not only pairwise interactions, but also higher-order interactions. Interactions could also be surprisingly strong, changing fitness by more than 9 orders of magnitude, which is explained by some single mutations being practically lethal. A consequence of the observed epistasis is that many of the minimum-length mutational trajectories between the wild type and the mutant with highest fitness on cells expressing the alternative coreceptor are selectively inaccessible. These results may help explain the difficulty of evolving viruses that use the alternative coreceptor in culture and the delayed evolution of this phenotype in natural infection. Knowledge of common, complex, and strong fitness interactions among amino acids is necessary for a full understanding of protein evolution.
Genetics 02/2010; 185(1):293-303. · 4.01 Impact Factor
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ABSTRACT: The envelope gene (env) of human immunodeficiency virus type 1 (HIV-1) undergoes rapid divergence from the transmitted sequence and increasing diversification during the prolonged course of chronic infection in humans. In about half of infected individuals or more, env evolution leads to expansion of the use of entry coreceptor from CCR5 alone to CCR5 and CXCR4. The stochastic nature of this coreceptor switch is not well explained by host selective forces that should be relatively constant between infected individuals. Moreover, differences in the incidence of coreceptor switching among different HIV-1 subtypes suggest that properties of the evolving virus population drive the switch. We evaluated the functional properties of sequential env clones from a patient with evidence of coreceptor switching at 5.67 years of infection. We found an abrupt decline in the ability of viruses to use CCR5 for entry at this time, manifested by a 1- to 2-log increase in susceptibility to CCR5 inhibitors and a reduced ability to infect cell lines with low CCR5 expression. There was an abnormally rapid 5.4% divergence in env sequences from 4.10 to 5.76 years of infection, with the V3 and V4/V5 regions showing the greatest divergence and evidence of positive selection. These observations suggest that a decline in the fitness of R5 virus populations may be one driving force that permits the emergence of R5X4 variants.
Journal of Virology 10/2008; 82(23):11758-66. · 5.40 Impact Factor
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ABSTRACT: The HIV shows an extraordinary degree of genetic diversity that in rare cases impacts on the efficacy of currently available
anti-retroviral therapies [1]. There is less information on how genetic variability might affect the efficacy of a newer class of anti-retrovirals, the
entry or fusion inhibitors. This group comprises a diverse collection of compounds that target both viral and host cell components
blocking virus attachment and/or fusion and preventing infection and viral integration. Available data suggests that almost
all genetic subtypes of HIV-1 engage the CD4 and coreceptor molecules. Thus entry inhibitors that target cellular proteins
are likely to be equally efficacious across genetic subtypes. However, the efficacy of those that target the viral envelope
glycoprotein is likely to be more impacted, given that as the envelope gene is the most variable of all HIV genes, showing
up to 30% difference within HIV-1 and up to 55% between HIV-1 and HIV-2 (www.hiv.lanl.gov). Most entry inhibitors have been
designed and tested based on HIV-1 subtype B viruses, and would therefore be expected to be most effective against viruses
of this genetic subtype. There are few studies that have specifically explored the phenotypic sensitivity of different HIV
subtypes to entry inhibitors. Since HIV-1 subtype C is now the most prevalent subtype globally, causing explosive epidemics
in southern Africa, Ethiopia, India and China, we focus our review primarily on viruses of this subtype.
08/2007: pages 119-131;
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ABSTRACT: The envelope genes of 23 subtype C viral isolates from five individuals with early HIV-1 infection, followed for 2-4 years, were sequenced, analyzed, and correlated to coreceptor usage. Isolates from three participants used the CCR5 coreceptor at all time points, with no significant adaptations in the variable loop lengths, predicted N-linked glycosylation sites, or predicted change in sensitivity to monoclonal antibodies with disease progression. However, two individuals, Du151 and Du179, who had previously been shown to be dually infected with two phylogenetically distinct subtype C strains, were able to use CXCR4 with disease progression. The intraperson genetic diversity was 9% for Du151 and 3% for Du179 compared to <2% for participants who did not undergo a coreceptor switch. In both cases this coreceptor switch was associated with specific amino acid changes in the crown, an increased net amino acid charge in the V3 loop, and an increase in the length of the V1 region.
AIDS Research and Human Retroviruses 02/2007; 23(2):316-21. · 2.25 Impact Factor
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ABSTRACT: In human immunodeficiency virus type 1 (HIV-1) subtype B infections, the emergence of viruses able to use CXCR4 as a coreceptor is well documented and associated with accelerated CD4 decline and disease progression. However, in HIV-1 subtype C infections, responsible for more than 50% of global infections, CXCR4 usage is less common, even in individuals with advanced disease. A reliable phenotype prediction method based on genetic sequence analysis could provide a rapid and less expensive approach to identify possible CXCR4 variants and thus increase our understanding of subtype C coreceptor usage. For subtype B V3 loop sequences, genotypic predictors have been developed based on position-specific scoring matrices (PSSM). In this study, we apply this methodology to a training set of 279 subtype C sequences of known phenotypes (228 non-syncytium-inducing [NSI] CCR5(+) and 51 SI CXCR4(+) sequences) to derive a C-PSSM predictor. Specificity and sensitivity distributions were estimated by combining data set bootstrapping with leave-one-out cross-validation, with random sampling of single sequences from individuals on each bootstrap iteration. The C-PSSM had an estimated specificity of 94% (confidence interval [CI], 92% to 96%) and a sensitivity of 75% (CI, 68% to 82%), which is significantly more sensitive than predictions based on other methods, including a commonly used method based on the presence of positively charged residues (sensitivity, 47.8%). A specificity of 83% and a sensitivity of 83% were achieved with a validation set of 24 SI and 47 NSI unique subtype C sequences. The C-PSSM performs as well on subtype C V3 loops as existing subtype B-specific methods do on subtype B V3 loops. We present bioinformatic evidence that particular sites may influence coreceptor usage differently, depending on the subtype.
Journal of Virology 06/2006; 80(10):4698-704. · 5.40 Impact Factor
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ABSTRACT: Enfuvirtide (ENF) is the first in a new class of antiretroviral agents targeting the fusion process of the viral life cycle. ENF is a synthetic 36-amino acid peptide that binds to the HR-1 region of gp41 preventing fusion of viral and cellular membranes. With the introduction of ENF there are now four classes of antiretrovirals each with distinct and different resistance pathways. Resistance to ENF among subtype B HIV-1 isolates is associated with amino acid changes mainly in the HR-1 region, although other regions of envelope have also been implicated. To determine whether subtype C viruses developed resistance mutations similar to subtype B viruses, 11 subtype C and 4 subtype B viruses were passaged in the presence of increasing concentrations of ENF. The subtype C isolates showed varying levels of replication at 1 microg/ml ENF by day 18, but by day 29 all replicated efficiently at 10 microg/ml ENF. All subtype C isolates showed evidence of genotypic changes in gp41 HR-1 following exposure to ENF that included G36S/E/D, I37T, V38M/A/L/E, N/S42D, N43K, L45R/M, and A50T/V. Three subtype C viruses had compensatory changes in the HR-2 region, which corresponds to the ENF sequence, and two isolates had changes in the V3 region. Mutational patterns among the four subtype B viruses were similar to those for subtype C and those previously published in the literature. These data indicate that in vitro resistance to ENF develops rapidly among HIV-1 subtype C isolates. In general, mutational patterns for subtype C were similar to those described for subtype B, suggesting that the mechanism of action for ENF is similar for HIV-1 subtype B and C isolates.
AIDS Research and Human Retroviruses 10/2005; 21(9):776-83. · 2.25 Impact Factor
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Tonie Cilliers,
Samantha Willey,
W Mathew Sullivan,
Trudy Patience,
Pavel Pugach, Mia Coetzer,
Maria Papathanasopoulos,
John P Moore,
Alexandra Trkola,
Paul Clapham,
Lynn Morris
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ABSTRACT: Two HIV-1 isolates (CM4 and CM9) able to use alternate HIV-1 coreceptors on transfected cell lines were tested for their sensitivity to inhibitors of HIV-1 entry on primary cells. CM4 was able to use CCR5 and Bob/GPR15 efficiently in transfected cells. The R5 isolate grew in Delta32/Delta32 CCR5 PBMC in the absence or presence of AMD3100, a CXCR4-specific inhibitor, indicating that it uses a receptor other than CCR5 or CXCR4 on primary cells. It was insensitive to the CCR5 entry inhibitors RANTES and PRO140, but was partially inhibited by vMIP-1, a chemokine that binds CCR3, CCR8, GPR15 and CXCR6. The coreceptor used by this isolate on primary cells is currently unknown. CM9 used CCR5, CXCR4, Bob/GPR15, CXCR6, CCR3, and CCR8 on transfected cells and was able to replicate in the absence or presence of AMD3100 in Delta32/Delta32 CCR5 PBMC. It was insensitive to eotaxin, vMIP-1 and I309 when tested individually, but was inhibited completely when vMIP-1 or I309 was combined with AMD3100. Both I309 and vMIP-1 bind CCR8, strongly suggesting that this isolate can use CCR8 on primary cells. Collectively, these data suggest that some HIV-1 isolates can use alternate coreceptors on primary cells, which may have implications for strategies that aim to block viral entry.
Virology 09/2005; 339(1):136-44. · 3.35 Impact Factor
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ABSTRACT: Human immunodeficiency virus type 1 (HIV-1) subtype C viruses with different coreceptor usage profiles were isolated from 29 South African patients with advanced AIDS. All 24 R5 isolates were inhibited by the CCR5-specific agents, PRO 140 and RANTES, while the two X4 viruses and the three R5X4 viruses were sensitive to the CXCR4-specific inhibitor, AMD3100. The five X4 or R5X4 viruses were all able to replicate in peripheral blood mononuclear cells that did not express CCR5. When tested using coreceptor-transfected cell lines, one R5 virus was also able to use CXCR6, and another R5X4 virus could use CCR3, BOB/GPR15, and CXCR6. The R5X4 and X4 viruses contained more-diverse V3 loop sequences, with a higher overall positive charge, than the R5 viruses. Hence, some HIV-1 subtype C viruses are able to use CCR5, CXCR4, or both CXCR4 and CCR5 for entry, and they are sensitive to specific inhibitors of entry via these coreceptors. These observations are relevant to understanding the rapid spread of HIV-1 subtype C in the developing world and to the design of intervention and treatment strategies.
Journal of Virology 05/2003; 77(7):4449-56. · 5.40 Impact Factor
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Helba Bredell,
Gillian Hunt,
Alison Casteling,
Tonie Cilliers,
Celia Rademeyer, Mia Coetzer,
Steven Miller,
David Johnson,
Caroline T Tiemessen,
Desmond J Martin,
Carolyn Williamson,
Lynn Morris
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ABSTRACT: HIV-1 subtype C accounts for the vast majority of infections in South Africa. However, increasingly non-C subtypes are being detected. Here we report 10 viruses that contain sequences that group with subtypes A, D, and G as well as CRF02_AG and 1 that could not be classified. Most of these individuals were from other countries in Africa. Some of these sequences were in combination with subtype C, possibly indicating local recombination events. Although there is no indication of endemic spread of these viruses, continued monitoring is warranted to track genetic changes, which may impact on diagnostic testing, therapeutic responses to antiretroviral therapies, and vaccine design.
AIDS Research and Human Retroviruses 07/2002; 18(9):681-3. · 2.25 Impact Factor
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ABSTRACT: CXCR4 coreceptor usage appears to occur less frequently among HIV-1 subtype C viruses. The aim of this study was to investigate the genetic determinants within the V3 region of subtype C isolates able to use CXCR4. Thirty-two subtype C isolates with known phenotypes (16 R5, 8 R5X4 and 8 X4 isolates) were assessed. A subtype C-specific V3 heteroduplex tracking assay (HTA) was used to determine sample complexity, and nucleotide sequencing analysis was used to compare characteristics associated with CCR5 and CXCR4-using isolates. There were sufficient genetic differences to discriminate between R5 viruses and those able to use CXCR4. In general, R5 isolates had an HTA mobility ratio >0.9 whereas CXCR4-using isolates were usually <0.9. Multiple bands were more frequently seen among the dualtropic isolates. Sequence analysis of the V3 region showed that CXCR4-using viruses were often associated with an increased positive amino acid charge, insertions and loss of a glycosylation site, similar to HIV-1 subtype B. In contrast, where subtype B consensus V3 has a GPGR crown motif irrespective of coreceptor usage, all 16 subtype C R5 viruses had a conserved GPGQ sequence at the tip of the loop, while 12 of the 16 (75%) CXCR4-using viruses had substitutions in this motif, most commonly arginine (R). These findings were confirmed using a larger published data set. We therefore suggest that changes within the crown motif of subtype C viruses might be an additional pathway to utilise CXCR4 and thus GPGQ may limit the potential for the development of X4 viruses.
Virology 356(1-2):95-105. · 3.35 Impact Factor
