Real-time kinetics of HIV-1 Rev-Rev response element interactions. Definition of minimal binding sites on RNA and protein and stoichiometric analysis.

The kinetics of interaction between the human immunodeficiency virus-1 Rev protein and its RNA target, Rev response element (RRE) RNA was determined in vitro using a biosensor technique. Our results showed that the primary Rev binding site is a core stem-loop RNA molecule of 30 nucleotides that bound Rev at a 1:1 ratio, whereas the 244-nucleotide full-length RRE bound four Rev monomers. At high Rev concentrations, additional binding of Rev to RRE was observed with ratios of more than 10:1. Because RRE mutants that lacked the core binding site and were inactive in vivo bound Rev nonspecifically at these concentrations, the real stoichiometric ratio of Rev-RRE is probably closer to 4:1. Binding affinity of Rev for RRE was approximately 10(-10) M, whereas the affinity for the core RNA was about 10(-11) M, the difference being due to the contribution of low affinity binding sites on the RRE. Mathematical analysis suggested cooperativity of Rev binding, probably mediated by the Rev oligomerization domains. C-terminal deletions of Rev had no effect on RRE binding, but truncation of the N terminus by as few as 11 residues significantly reduced binding specificity. This method was also useful to rapidly evaluate the potential of aminoglycoside antibiotics, to inhibit the Rev-RRE interaction.