The Potent Anti-HIV Activity of CXCL12γ Correlates with Efficient CXCR4 Binding and Internalization

We previously demonstrated that the naturally occurring splice variant stromal cell-derived factor 1γ/CXCL12γ is the most potent CXCL12 isoform in blocking X4 HIV-1, with weak chemotactic activity. A conserved BBXB domain (B for basic and X for any residue) located in the N terminus (24 KHLK27 ) is found in all six isoforms of CXCL12. To determine whether the potent antiviral activity of CXCL12γ is due to the presence of the extra C-terminal BBXB domains, we mutated each domain individually as well as in combination. Although binding of CXCL12γ to heparan sulfate proteoglycan (HSPG) was 10-fold higher than that observed with CXCL12α, the results did not demonstrate a direct correlation between HSPG binding and the potent antiviral activity. CXCL12γ mutants lacking the conserved BBXB domain (designated γB1) showed increased binding to HSPG but reduced anti-HIV activity. In contrast, the mutants lacking the C-terminal second and/or third BBXB domain but retaining the conserved domain (designated B2, B3, and B23) showed decreased binding to HSPG but increased anti-HIV activity. The B2, B3, and B23 mutants were associated with enhanced CXCR4 binding, receptor internalization, and restored chemotaxis. Internalization of CXCR4 was more potent with CXCL12γ than with CXCL12α and was significantly reduced when the conserved BBXB domain was mutated. We concluded that the observed potent anti-HIV-1 activity of CXCL12γ is due to increased affinity for CXCR4 and to efficient receptor internalization.