Identification Of The Initial Nucleocapsid Recognition Element In The Hiv-1 Rna Packaging Signal

Selective packaging of the HIV-1 genome during virus assembly is mediated by interactions between the dimeric 5'-leader of the unspliced viral RNA and the nucleocapsid (NC) domains of a small number of assembling viral Gag polyproteins. Here, we show that the dimeric 5 '-leader contains more than two dozen NC binding sites with affinities ranging from 40 nM to 1.4 mu M, and that all high-affinity sites (K-d less than or similar to 400 nM) reside within a-150-nt region of the leader sufficient to promote RNA packaging (core encapsida-tion signal, psi(CES)). The four initial binding sites with highest affinity reside near two symmetrically equivalent three-way junction structures. Unlike the other high-affinity sites, which bind NC with exothermic energetics, binding to these sites occurs endothermically due to concomitant unwinding of a weakly base-paired [UUUU]:[GGAG] helical element. Mutations that stabilize base pairing within this el-ement eliminate NC binding to this site and severely impair RNA packaging into virus-like particles. NMR studies reveal that a recently discovered small-molecule inhibitor of HIV-1 RNA packaging that appears to function by stabilizing the structure of the leader binds directly to the [UUUU]:[GGAG] helix. Our findings suggest a sequential NC binding mechanism for Gag-genome assembly and identify a potential RNA Achilles' heel to which HIV therapeutics may be targeted.