Resumen:
Background: HIV-1 R5 viruses cause most of the AIDS cases worldwide and are preferentially
transmitted compared to CXCR4-using viruses. Furthermore, R5 viruses vary extensively in
capacity to infect macrophages and highly macrophage-tropic variants are frequently identified in
the brains of patients with dementia. Here, we investigated the sensitivity of R5 envelopes to a
range of inhibitors and antibodies that block HIV entry. We studied a large panel of R5 envelopes,
derived by PCR amplification without culture from brain, lymph node, blood and semen. These R5
envelopes conferred a wide range of macrophage tropism and included highly macrophage-tropic
variants from brain and non-macrophage-tropic variants from lymph node.
Results: R5 macrophage-tropism correlated with sensitivity to inhibition by reagents that inhibited
gp120:CD4 interactions. Thus, increasing macrophage-tropism was associated with increased
sensitivity to soluble CD4 and to IgG-CD4 (PRO 542), but with increased resistance to the antiCD4 monoclonal antibody (mab), Q4120. These observations were highly significant and are
consistent with an increased affinity of envelope for CD4 for macrophage-tropic envelopes. No
overall correlations were noted between R5 macrophage-tropism and sensitivity to CCR5
antagonists or to gp41 specific reagents. Intriguingly, there was a relationship between increasing macrophage-tropism and increased sensitivity to the CD4 binding site mab, b12, but decreased
sensitivity to 2G12, a mab that binds a glycan complex on gp120.
Conclusion: Variation in R5 macrophage-tropism is caused by envelope variation that
predominantly influences sensitivity to reagents that block gp120:CD4 interactions. Such variation
has important implications for therapy using viral entry inhibitors and for the design of envelope
antigens for vaccines