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Inhibition of HIV-1 Rev-RRE interaction by diphenylfuran derivatives

Overview of Ratmeyer L et al.

AuthorsRatmeyer L  Zapp ML  Green MR  Vinayak R  Kumar A  Boykin DW  Wilson WD  
AffiliationDepartment of Chemistry   Georgia State University   Atlanta 30303   USA.  
JournalBiochemistry
Year 1996

Abstract


The interactions between RNA structures, such as RRE in the HIV-1 genome, and proteins, such as Rev of HIV-1, are essential for efficient viral replication. Compounds that bind specifically to such RNAs and disrupt their protein complexes offer a novel mechanism for inhibition of replication of the virus. As a step in this approach, we have designed and characterized a series of synthetic diphenylfuran cations that selectively inhibit Rev binding to RRE. Fluorescence titrations and gel band-shift results indicate that the diphenylfurans bind to RRE and inhibit Rev complex formation in a structure-dependent manner. The derivative with the greatest affinity for RRE has an association constant of greater than 10(7) M-1 and inhibits formation of the Rev--RRE complex at concentrations below 1 microM. It binds to RRE considerably more strongly than it binds to simple RNA duplexes. Spectral changes and energy transfer results on complex formation suggest that the compound has a nonclassical intercalation binding mode. CD studies with modified RRE hairpins indicate that the active diphenylfurans bind at the structured internal loop of RRE and cause a conformational change. The most active diphenylfurans are tetracations that appear to bind to RRE by a threading intercalation mode and cause a conformational change in the RNA that is essential for inhibition of Rev complex formation with RRE.