SBIR-STTR Award

Capsid assembly inhibitors for the treatment of AIDS
Award last edited on: 8/8/2011

Sponsored Program
SBIR
Awarding Agency
NIH : NIAID
Total Award Amount
$597,665
Award Phase
2
Solicitation Topic Code
856
Principal Investigator
Atul Agarwal

Company Information

Achillion Pharmaceuticals Inc

300 George Street
New Haven, CT 06511
   (203) 624-7000
   info@achillion.com
   www.achillion.com
Location: Single
Congr. District: 03
County: New Haven

Phase I

Contract Number: 1R43AI064090-01
Start Date: 3/15/2005    Completed: 2/28/2007
Phase I year
2005
Phase I Amount
$296,258
Current HIV-1 therapy suffers from inadequate viral load suppression due to poor compliance, resistance, and interactions with other drugs and can lead to spread of drug-resistant strains. The current drug cocktails need to include inhibitors of viral components that are likely to slow resistance development. One such target is the HIV-1 capsid, an essential viral protein, where mutations are lethal or lead to production of non-infectious viral particles. Discovery of compounds that affect the assembly of structural proteins is challenging due to lack of a biochemical assay that can be adopted for high throughput screening of large compound libraries. We have recently reported an inhibitor of capsid assembly that reduced viral infectivity by ca. 95%. Cap-1 (ACH-1033940) was identified by combining the Computational Chemistry, NMR, and Virology efforts. Phase I of this proposal includes identification of a potent capsid assembly inhibitor (EC50 <10 mu/M, therapeutic index >10) as well as discovery of additional potent and drug like capsid ligands. The Phase I goal will be accomplished using a dual approach of rationally designing and synthesizing focused libraries of ACH-0133940 analogs and Virtual Screening of proprietary and commercial compound libraries to identify novel capsid ligands. The potential ligands will be screened for capsid binding by NMR and for inhibition of HIV by in vitro antiviral assays. Resistance induction studies will be carried out to confirm that inhibition of HIV infectivity is due to the inhibition of capsid assembly. Phase II of the project will entail further lead optimization and identification of development candidate(s).

Public Health Relevance Statement:


Project Terms:
nuclear magnetic resonance spectroscopy; drug design /synthesis /production; AIDS therapy; antiAIDS agent; ligand; virus protein; virus replication; human immunodeficiency virus 1; capsid; combinatorial chemistry; therapy design /development

Phase II

Contract Number: 5R43AI064090-02
Start Date: 3/15/2005    Completed: 2/28/2007
Phase II year
2006
Phase II Amount
$301,407
Current HIV-1 therapy suffers from inadequate viral load suppression due to poor compliance, resistance, and interactions with other drugs and can lead to spread of drug-resistant strains. The current drug cocktails need to include inhibitors of viral components that are likely to slow resistance development. One such target is the HIV-1 capsid, an essential viral protein, where mutations are lethal or lead to production of non-infectious viral particles. Discovery of compounds that affect the assembly of structural proteins is challenging due to lack of a biochemical assay that can be adopted for high throughput screening of large compound libraries. We have recently reported an inhibitor of capsid assembly that reduced viral infectivity by ca. 95%. Cap-1 (ACH-1033940) was identified by combining the Computational Chemistry, NMR, and Virology efforts. Phase I of this proposal includes identification of a potent capsid assembly inhibitor (EC50 <10 mu/M, therapeutic index >10) as well as discovery of additional potent and drug like capsid ligands. The Phase I goal will be accomplished using a dual approach of rationally designing and synthesizing focused libraries of ACH-0133940 analogs and Virtual Screening of proprietary and commercial compound libraries to identify novel capsid ligands. The potential ligands will be screened for capsid binding by NMR and for inhibition of HIV by in vitro antiviral assays. Resistance induction studies will be carried out to confirm that inhibition of HIV infectivity is due to the inhibition of capsid assembly. Phase II of the project will entail further lead optimization and identification of development candidate(s).

Public Health Relevance Statement:


Project Terms:
therapy design /development; combinatorial chemistry; capsid; human immunodeficiency virus 1; virus replication; virus protein; ligands; antiAIDS agent; AIDS therapy; drug design /synthesis /production; nuclear magnetic resonance spectroscopy