Abstract
Analysis of CCR5 variants in human immunodeficiency virus, type 1 (HIV-1), high risk cohorts led to the identification of multiple single amino acid substitutions in the amino-terminal third of the HIV-1 co-receptor CCR5 suggesting the possibility of protective and permissive genotypes; unfortunately, the low frequency of these mutations did not led to correlation with function. Therefore, we used analytical methods to assess the functional and structural significance of six of these variant receptors in vitro. These studies showed three categories of effects on CCR5 function. 1) Mutations in the first extracellular domain of CCR5 severely reduce specific ligand binding and chemokine-induced chemotaxis. 2) An extracellular domain variant, A29S, when co-expressed with CD4, supported HIV-1 infection whereas the others do not. 3) The transmembrane region variants of CCR5 support monotropic HIV-1 infection that is blocked by addition of some receptor agonists. Mutations in the first and second transmembrane domains increase RANTES (regulated on activation normal T-cell expressed) binding affinity but did not affect MIP1beta binding affinity presumably based on differences in ligand-receptor interaction sites. Furthermore, the CCR5 transmembrane mutants do not respond to RANTES with the classical bell-shaped chemotactic response curve, suggesting that they are resistant to RANTES-induced desensitization. These data demonstrate that single amino acid changes in the extracellular domains of CCR5 can have profound effects on both HIV-1 co-receptor and specific ligand-induced functions, whereas mutations in the transmembrane domain only affect the response to chemokine ligands.
Highlights
Chemokine receptors are a subclass of seven transmembrane G-protein-coupled receptors, a number of which act as co-receptors with CD4 for HIV1 infection [1,2,3]
Data supporting an essential role for the chemokine receptors in HIV pathology comes from population genetic studies that have shown variants of CCR2 and CCR5 genes to reduce HIV susceptibility and/or progression to AIDS [12,13,14,15]
One modification of CCR5 is a deletion in the coding region of CCR5 that leads to a truncated nonfunctional receptor, the delta 32 mutant (CCR5⌬32), protects against infection in homozygous individuals, and delays onset of AIDS in heterozygous individuals [12, 16]
Summary
Vol 274, No 23, Issue of June 4, pp. 16228 –16234, 1999 Printed in U.S.A. Naturally Occurring CCR5 Extracellular and Transmembrane Domain Variants Affect HIV-1 Co-receptor and Ligand Binding Function*. The CCR5 transmembrane mutants do not respond to RANTES with the classical bell-shaped chemotactic response curve, suggesting that they are resistant to RANTESinduced desensitization These data demonstrate that single amino acid changes in the extracellular domains of CCR5 can have profound effects on both HIV-1 coreceptor and specific ligand-induced functions, whereas mutations in the transmembrane domain only affect the response to chemokine ligands. While these variants may affect the function of CCR5, population genetic analysis cannot tell us if these are likely to be protective changes To evaluate their role in chemokine receptor function and HIV-1 entry, we expressed individual variants in human embryonic kidney cells (HEK-293). We tested the ability of chemokines and a chemokine co-receptor-specific inhibitor, NSC 651016, to block HIV-1 infection of cells expressing these CCR5 variants
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