Abstract
We previously reported that the combinatorial use of T20 and T1144, the first and next generations of HIV fusion inhibitors, containing different functional domains resulted in synergistic anti-HIV-1 effect, but this effect diminished when T20 and T1144 were covalently linked together. To elucidate the mechanism underlying this synergistic anti-HIV-1 effect, we studied the interactions between T20 and T1144 either in a mixture state or in a covalently linked state. T20 alone in solution was largely featureless, while T1144 alone was in α-helical trimeric conformation. When mixed in solution, T20 and T1144 showed a loose and transient interaction, with a moderate 10% α-helical content increase, but this interaction was greatly enhanced in the linked state, and T20 and T1144 showed ∼100% α-helical content. These results suggested that the loose and transient interaction between T20 and T1144 may destabilize the T1144 trimer, which makes its otherwise shielded binding sites more accessible to N-terminal heptad repeat (NHR) and increases its associating rate, thus increasing its anti-HIV-1 potency against the temporarily exposed target in NHR and causing the synergistic anti-HIV-1 effect. However, the strong interaction between T20 and T1144 in the covalently linked state may shield their NHR-binding sites, resulting in reduction of the synergistic effect.