Mutational pathways and genetic barriers to CXCR4-mediated entry by human immunodeficiency virus type 1

Huang, Wei; Frantzell, Arne; Toma, Jonathan; Fransen, Signe; Whitcomb, Jeannette M.; Stawiski, Eric; Petropoulos, Christos J.

doi:10.1016/j.virol.2010.09.026

Cited by 10 publications

(11 citation statements)

References 58 publications

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“…In particular, RMS showed that the V3 positions 5, 14, 19, 20, 21, 22, 24, 25 and 27 tightly interact with each other, thus forming a full interaction group significantly and strongly associated with CXCR4 usage. The presence of position 25 in this cluster is consistent with a recent study showing that basic amino acid substitutions at position 25 (R or K) alone are not sufficient to confer efficient CXCR4 usage [29]. Again, these results support that positions 11 and 25 alone are not sufficient to fully understand the mechanisms underlying different coreceptor usage, and highlight the association between multiple amino acid changes in V3 and efficient CXCR4 usage.…”

Section: Discussionsupporting

confidence: 90%

Identification and Structural Characterization of Novel Genetic Elements in the HIV-1 V3 Loop Regulating Coreceptor Usage

et al. 2011

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Background:The interaction between HIV-1 gp120 and CCR5 N terminus is critical for R5-virus entry and affects CCR5 antagonists' activity. Knowledge of how different genetic signatures of gp120 V3 domain effect the strength of this interaction is limited. Methods: HIV-1 coreceptor usage was assessed in 251 patients using enhanced-sensitivity Trofile assay and V3 sequencing plus tropism prediction by Geno2pheno algorithm. Bayesian partitional model and recursive model selection have been used to define V3 genetic determinants correlated with different coreceptor usage. Gp120 interaction with CCR5 N terminus was evaluated by docking-analysis/molecular-dynamic simulations starting from the model described previously. Results: Selected V3 genetic determinants (beyond known aminoacidic positions) significantly correlate with CCR5-or CXCR4-usage, and modulate gp120 affinity for CCR5 N terminus. This is the case for N5Y and N7K, absent in CCR5-using viruses and present in 4.5% and 6% of CXCR4-using viruses, respectively, and A19V, occurring in 2.6% of CCR5-using viruses and 22.0% of CXCR4-using viruses (P=10 -2 to 10 -7 ). Their presence determines a decreased affinity for CCR5 N terminus even stronger than that observed in the presence of the well-known mutation S11R (N5Y: -6.60 Kcal/mol; N7K: -5.40 Kcal/ mol; A19V: -5.60 Kcal/mol; S11R: -6.70 Kcal/mol; WT: -6.90 Kcal/mol). N7K significantly increases the distance between V3 position 7 and sulphotyrosine at CCR5 position 14 (crucial for binding to gp120; from 4.22 Å to 8.30 Å), thus abrogating the interaction between these two important residues. Conclusions: Key determinants for tropism within the V3 sequence, confirmed by structure-and by phenotypictropism, have been identified. This information can be used for a finer tuning of potential efficacy of CCR5-antagonists in clinical practice, and to provide molecular implications for design of new entry inhibitors.HIV-1 entry into host cells is a multistep process that requires coordinated interactions of the envelope glycoprotein gp120 with the CD4 receptor and with one of the chemokine receptors, CCR5 or CXCR4. Pure CCR5-tropic and pure CXCR4-tropic virus can use only the CCR5 and CXCR4 coreceptors to enter

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Section: Discussionsupporting

confidence: 90%

Identification and Structural Characterization of Novel Genetic Elements in the HIV-1 V3 Loop Regulating Coreceptor Usage

et al. 2011

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“…6A). Interestingly, none of the X4 sequences have positively charged amino acid R or K at V3 position 11 or 25, which are important for X4 usage in other HIV-1 subtypes (19–21). This implies different evolutionary pathway of coreceptor switching in CRF01_AE HIV-1.…”

Section: Resultsmentioning

confidence: 99%

“…The genetic features of the X4 variants in CRF01_AE cluster 4 are also different from previously found in other HIV-1 subtypes. In particular, none of the X4 sequences in CRF01_AE cluster 4 have positively charged amino acid (R or K) at V3 positions 11 or 25, which are key amino acids for X4 usage observed in other subtypes (19–21). Instead, all of them lost the V3 glycan (the N301 glycan), and nearly all have residue K at V3 position 7.…”

Section: Discussionmentioning

confidence: 99%

Rapid CD4 cell loss is caused by specific CRF01_AE cluster with V3 signatures favoring CXCR4 usage

Song¹,

Feng

et al. 2018

Preprint

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1HIV-1 evolved into various genetic subtypes and circulating recombinant forms (CRFs) 3 2 in the global epidemic, with the same subtype or CRF usually having similar phenotype. 3Being one of the world's major CRFs, CRF01_AE infection was reported to associate 3 4 with higher prevalence of CXCR4 (X4) viruses and faster CD4 decline. However, the 3 5 underlying mechanisms remain unclear. We identified eight phylogenetic clusters of 3 6 CRF01_AE in China and hypothesized that they may have different phenotypes. In the 3 7 national HIV molecular epidemiology survey, we discovered that people infected by 3 8 CRF01_AE cluster 4 had significantly lower CD4 count (391 vs. 470, p < 0.0001) and 3 9higher prevalence of predicted X4-using viruses (17.1% vs. 4.4%, p < 0.0001) 4 0 compared to those infected by cluster 5. In a MSM cohort, X4-using viruses were only 4 1 isolated from sero-convertors infected by cluster 4, which associated with rapid CD4 4 2 loss within the first year of infection (141 vs. 440, p = 0.01). Using co-receptor binding 4 3 model, we identified unique V3 signatures in cluster 4 that favor CXCR4 usage. We 4 4

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“…An accumulation of basic amino acid substitutions at specific positions in the V3 loop of SU is associated with the coreceptor switch, which is presumed to increase specificity or affinity for CXCR4 (Wilen et al 2011). There are other positions in Env but outside of V3 that also contribute to the X4 phenotype, but the specific contribution of these other sites is not clear (Hoffman et al 2002;Pastore et al 2006;Huang et al 2008Huang et al , 2011. There also seem to be differences among the subtypes for their propensity to evolve X4 variants, with X4 variants being more common in subtype D isolates (Tscherning et al 1998;Huang et al 2007).…”

Section: Target Cells T-cell Subsetsmentioning

confidence: 99%

HIV-1 Pathogenesis: The Virus

Swanstrom

Coffin

2012

Cold Spring Harbor Perspectives in Medicine

110

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Mutational pathways and genetic barriers to CXCR4-mediated entry by human immunodeficiency virus type 1

Cited by 10 publications

References 58 publications

Identification and Structural Characterization of Novel Genetic Elements in the HIV-1 V3 Loop Regulating Coreceptor Usage

Identification and Structural Characterization of Novel Genetic Elements in the HIV-1 V3 Loop Regulating Coreceptor Usage

Rapid CD4 cell loss is caused by specific CRF01_AE cluster with V3 signatures favoring CXCR4 usage

HIV-1 Pathogenesis: The Virus

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