Multiple residues in the extracellular domains of CCR3 are critical for coreceptor activity.

Human immunodeficiency virus type 1 (HIV-1) binds to the human CD4 (hCD4) and a coreceptor to enter permissive human cells. The chemokine receptors, hCCR5 and hCXCR4, are the primary coreceptors used by HIV-1 isolates in vivo, however, hCCR3 has been implicated as a coreceptor for HIV infection of the central nervous system. To determine the domains and amino acids important in hCCR3 coreceptor activity, chimeras between the permissive hCCR3 and the non-permissive rhesus macaque CCR3 (RhCCR3) were constructed and assessed for coreceptor activity for two R5 strains of HIV-1 (YU-2 and ADA) and one R5X4 strain (89.6). Even though three extracellular domains of CCR3 participated in coreceptor activity for the two R5 isolates (ECD-1, ECD-3, and ECD-4), for the R5X4 isolate, ECD-4, and to a lesser extent ECD-3, were critical for coreceptor activity. In addition, residues 13 and 20 in ECD-1, residue 179 in ECD-3, and residue in 271 in ECD-4 of CCR3 were identified for HIV-1 envelope-mediated entry for R5 isolates. In contrast, all the residues on ECD-4 appeared necessary for coreceptor activity for HIV-1(89.6). Therefore, multiple residues on multiple extracellular domains of hCCR3 are important for coreceptor activity for HIV-1.