Open AccessHIV-1 Frameshift RNA-Targeted Triazoles Inhibit Propagation of Replication-Competent and Multi-Drug-Resistant HIV in Human Cells
Author(s) -
Thomas A. Hilimire,
Jeffrey M. Chamberlain,
Viktoriya Anokhina,
Ryan P. Bennett,
Oliver Swart,
Jason R. Myers,
John M. Ashton,
Ryan A. Stewart,
Aaron L. Featherston,
Kathleen M. Gates,
Eric D. Helms,
Harold C. Smith,
Stephen Dewhurst,
Benjamin L. Miller
Publication year - 2017
Publication title -
acs chemical biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.899
H-Index - 111
eISSN - 1554-8937
pISSN - 1554-8929
DOI - 10.1021/acschembio.7b00052
Subject(s) - rna , rna interference , frameshift mutation , human immunodeficiency virus (hiv) , biology , virology , in vitro , viral replication , virus , drug discovery , small interfering rna , gene , genetics , biochemistry , phenotype
The HIV-1 frameshift-stimulating (FSS) RNA, a regulatory RNA of critical importance in the virus' life cycle, has been posited as a novel target for anti-HIV drug development. We report the synthesis and evaluation of triazole-containing compounds able to bind the FSS with high affinity and selectivity. Readily accessible synthetically, these compounds are less toxic than previously reported olefin congeners. We show for the first time that FSS-targeting compounds have antiviral activity against replication-competent HIV in human cells, including a highly cytopathic, multidrug-resistant strain. These results support the viability of the HIV-1 FSS RNA as a therapeutic target and more generally highlight opportunities for synthetic molecule-mediated interference with protein recoding in a wide range of organisms.
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