.InnovativeapproachesareneededtocreatetherapeuticsthattargetHIV.Existingdrugscanprolong patientlifespanbytargetingmultiplefacetsofthevirallifecycle,butnext-generationtherapiesareneededthat actonnewtargets?especiallythosethatresistmutation?toimprovelong-termtherapeuticcomplianceand outcome.HIV-1TARRNAisavalidateddrugtargetthatresistsmutationstointeractwiththeviralproteinTat, thus giving rise to an RNA-protein complex essential for proviral transcription and HIV-1 propagation. So far, TAR has evaded discovery of compounds with sufficient affinity and selectivity to warrant pharmaceutical development. To address this challenge, we undertook a ?semi-design and protein evolution? approach that yielded many novel, high-affinity (KDs ~ 1.3 to 0.5 nM) TAR Binding Proteins (TBPs) using yeast display maturation.Wethendeterminedthe1.80resolutionco-crystalstructureofonevariant,TBP6.7,incomplex withTAR,revealingthatthemajorbindinginterfaceconsistsofevolvedloop?2-?3,whichreadsouttheTAR RNAmajorgroove.WehypothesizethatcyclicpeptidescomprisingtheTBP6.7?2-?3loop,orotherTBPloops evolved in our lab, will be entry points to create a novel class of TAR binders. Indeed, the TBP6.7 ?2-?3 hairpinretainsaffinityandspecificityforTARwhenfusedtothesmallproteinSUMO,signifyingthatthe?2-?3 loopisnecessaryandsufficientforTARrecognition.Structuralidentificationofthe?-hairpinmotif,andouruse ofsemi-designandevolutionmakeourapproachfundamentallydifferentfromprioreffortstoblocktheTat-TAR interaction, while providing a robust experimental premise to pursue our aims:
(Aim 1) Validate the observed TBP6.7-TAR interface and determine additional novel co-crystal structures of other TBPs evolved in our lab;? (Aim2)synthesizeandoptimizecyclicpeptidesderivedfromAim1thatbindTARandinhibititsinteractionwith Tat;?(Aim3)TestcyclicpeptidesfromAim2usingviralinfectivityassaystoinvestigatemechanismsofaction, therapeutic indices, and pharmacological properties in animals. To our knowledge, no other group has used protein evolution and structural biology to develop HIV-1 TAR-targeted reagents. We are a team of experts, comprising two P.I.s, with strong records in protein evolution, peptide-based drug discovery, HIV therapeutic discovery, measuring cell penetration and toxicity of biologics (McNaughton), and structural biology of therapeutically-relevant RNAs, protein-RNA complexes, and biophysical analysis of protein-RNA interactions (Wedekind), as well as two collaborators: Harold Smith (University of Rochester), a leader in drug discovery anddevelopment,andCEOofOyaGenInc.,aprivatecompanydevelopinganti-HIVdrugs,andDanGustafson (Colorado State University), a clinician and pharmacologist with expertise in measuring pharmacological profilesoftherapeutics.Weareuniquelyqualifiedandwellsuitedtoperformthiswork.High-valueoutcomes include: (i) identification of novel lead inhibitors of HIV, and (ii) validation of our ?semi-design? and structural approach,whichhasthepotentialforsustainedimpactonthedrugdiscoveryandinhibitordesignfields.

Public Health Relevance

. Next-generation HIV-1 therapies are needed that act on novel, mutation-resistant targets. HIV-1 TARRNAexhibitsthesedesirablepropertiesbuthaseludedconventionaltherapeuticdevelopmentschemes. Using an innovative ?semi-design? protein-evolution approach coupled with structural biology, we identified a small?-hairpinloopthatservesasauniqueplatformuponwhichwewilldevelopanewclassofcyclicpeptide therapeuticsthatbindTAR,therebyblockingessentialHIV-1propagationpathways.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
1R01GM123864-01
Application #
9348794
Study Section
AIDS Discovery and Development of Therapeutics Study Section (ADDT)
Program Officer
Sakalian, Michael
Project Start
2017-09-30
Project End
2021-07-31
Budget Start
2017-09-30
Budget End
2018-07-31
Support Year
1
Fiscal Year
2017
Total Cost
Indirect Cost
Name
Colorado State University-Fort Collins
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
785979618
City
Fort Collins
State
CO
Country
United States
Zip Code
80523
Belashov, Ivan A; Crawford, David W; Cavender, Chapin E et al. (2018) Structure of HIV TAR in complex with a Lab-Evolved RRM provides insight into duplex RNA recognition and synthesis of a constrained peptide that impairs transcription. Nucleic Acids Res 46:6401-6415
Bjerke, Jennifer N; Beardslee, Patrick C; McNaughton, Brian R (2018) Recent Advances in CRISPR Base Editing: From A to RNA. Biochemistry 57:886-887