Mechulam A., Cerutti M., Pugniere M., Missé Dorothée, Gajardo J., Roquet F., Robinson J., Veas Francisco. (2005). Highly conserved beta 16/beta 17 beta-hairpin structure in human immunodeficiency virus type 1 YU2 gp120 is critical for CCR5 binding. Journal of Molecular Medicine, 83 (7), p. 542-552. ISSN 0946-2716.
Titre du document
Highly conserved beta 16/beta 17 beta-hairpin structure in human immunodeficiency virus type 1 YU2 gp120 is critical for CCR5 binding
Mechulam A., Cerutti M., Pugniere M., Missé Dorothée, Gajardo J., Roquet F., Robinson J., Veas Francisco
Source
Journal of Molecular Medicine, 2005,
83 (7), p. 542-552 ISSN 0946-2716
Whereas gp120 CD4-induced structures have been largely documented and at least in part elucidated by crystallization, information about gp120 coreceptor-induced structures remains incomplete despite numerous studies. In this work, mutations were carried out in a selected internal region of HIV-1/YU2 gp120, proximal to the CD4-binding site, because of its highly conserved nature among retroviruses and its high structural stability. The targeted residues, belonging to the beta 16/beta 17 beta-hairpin, modulate gp120 binding to CD4 and gp120-CD4 complex binding to CCR5. Thus, it appears that this gp120 structure acts as a hinge between the CD4-binding site and the putative coreceptor binding structure. Substitution of amino acid residues like E381A did not affect gp120 binding to CD4 and did not induce significant structural changes in gp120, as demonstrated by epitope analysis, BIACORE analysis, and circular dichroism. Nevertheless, E381 has a critical influence on the maintenance of CCR5 coreceptor binding by forming a salt bridge with K207. Another important element of the beta-hairpin in this interaction is the probable hydrophobic link between F383 and I420. Altogether, these results suggest that the beta-hairpin structure likely governs interactions between the surface of gp120 with native CCR5 or the CCR5 amino-terminal domain (CCR5-Nt). The mutations within the beta-hairpin had a direct effect on the proximal surface of the bridging sheet, the putative CCR5 surface, and the gp120 YU2 HIV-1-CD4 binding site. These results on the gp120-CCR5-Nt binding mechanism contribute to our understanding of CCR5 and HIV-1 gp120 association and HIV-1 entry; they may also contribute to designing novel inhibitors.
