Determinants Flanking the CD4 Binding Loop Modulate Macrophage Tropism of Human Immunodeficiency Virus Type 1 R5 Envelopes

Human immunodeficiency virus type 1 R5 viruses vary extensively in phenotype. Thus, R5 envelopes (env) in the brain tissue of individuals with neurological complications are frequently highly macrophage-tropic. Macrophage tropism correlates with the capacity of the envelope to exploit low CD4 levels for infection. In addition, the presence of an asparagine at residue 283 within the CD4 binding site has been associated with brain-derived envelopes, increased env-CD4 affinity, and enhanced macrophage tropism. Here, we identify additional envelope determinants of R5 macrophage tropism. We compared highly macrophage-tropic (B33) and non-macrophage-tropic (LN40) envelopes from brain and lymph node specimens of one individual. We first examined the role of residue 283 in macrophage tropism. Introduction of N283 into LN40 (T283N) conferred efficient macrophage infectivity. In contrast, substitution of N283 for the more conserved threonine in B33 had little effect on macrophage infection. Thus, B33 carried determinants for macrophage tropism that were independent of N283. We prepared chimeric B33/LN40 envelopes and used site-directed mutagenesis to identify additional determinants. The determinants of macrophage tropism that were identified included residues on the CD4 binding loop flanks that were proximal to CD4 contact residues and residues in the V3 loop. The same residues affected sensitivity to CD4-immunoglobulin G inhibition, consistent with an altered env-CD4 affinity. We predict that these determinants alter exposure of CD4 contact residues. Moreover, the CD4 binding loop flanks are variable and may contribute to a general mechanism for protecting proximal CD4 contact residues from neutralizing antibodies. Our results have relevance for env-based vaccines that will need to expose critical CD4 contact residues to the immune system.Human immunodeficiency virus type 1 (HIV-1) requires interactions between viral envelope glycoproteins and cell surface CD4 and coreceptors to trigger fusion and entry into cells. HIV-1 R5 viruses that specifically use CCR5 as a coreceptor are those predominantly transmitted (3). Yet, our knowledge of R5 virus variation in different biological properties is still limited. In vivo, HIV-1 infection is limited mostly to cells that express CD4 and appropriate coreceptors. Thus, HIV-1 infects CD4⁺ T cells, monocyte/macrophage lineage cells, and dendritic cells. CCR5 is expressed on each of these cell lineages, although on T cells, CCR5 is restricted mainly to RO45⁺ memory cells (1, 16). Early in infection, R5 viruses target and decimate mucosal CD4⁺ memory T cells (2, 18, 26). R5 viruses are also predominant in tissues in which monocyte/macrophage lineage cells are prevalent, and several reports have described the presence of highly macrophage-tropic R5 viruses in brain tissue (11, 12, 20, 22). Previously, we used PCR to amplify HIV-1 envelope genes directly from patient tissues. We found that R5 virus envelopes amplified from brain tissue frequently conferred highly efficient infection of macrophages, while the majority of those from lymph nodes, blood, and semen infected macrophages inefficiently (20, 22). Although those studies examined relatively few infected individuals, they demonstrated over 1,000-fold variation in macrophage-tropic HIV-1 R5 viruses. Such variation is likely to have a significant impact on transmission and pathogenesis.The envelope (env) determinants of R5 macrophage-tropic strains are poorly understood. Several studies have shown that highly macrophage-tropic brain envelopes are able to exploit low levels of CD4 on macrophages for infection, consistent with an enhanced interaction between gp120 and CD4. Dunfee et al. reported that an asparagine residue at position 283 in the C2 part of the CD4 binding site was present in 41% of envelope sequences from brain tissue specimens of patients with HIV-associated dementia and in only 8% of envelopes from non-HIV-associated dementia brain tissue (8). The same study showed that the presence of N283 (rather than the more conserved T283) led to an increased affinity of gp120 for CD4, probably because the side chain of asparagine could more readily form a hydrogen bond with Q40 on CD4. However, our previous data showed that N283 is not the only determinant of macrophage infectivity, since several macrophage-tropic R5 envelopes from brain and semen specimens lacked N283, while non-macrophage-tropic envelopes from lymph node specimens carrying N283 were identified (22). Dunfee et al. also reported that a glycosylation site at residue 386, close to the CD4 binding loop, influenced exposure of the CD4 binding site and had an impact on macrophage tropism and sensitivity to the CD4 binding site antibody b12 (9). We have recently confirmed a role for N386 in resistance to the CD4 binding site monoclonal antibody (MAb) b12. However, resistance was dependent on the presence of a proximal residue, R373, which acted together with N386 to block b12 (7).Here, we have further investigated envelope determinants of macrophage tropism by preparing chimeric envelopes from highly macrophage-tropic and non-macrophage-tropic R5 envelopes from brain and lymph node specimens from the same subject. We show that R5 macrophage tropism is controlled by several determinants in gp120 that are focused on amino acids flanking the CD4 binding loop, with a contribution from residues in the V3 loop.