Diketoacid Inhibitors of HIV-1 Integrase: From L-708,906 to Raltegravir and Beyond
Author(s)
Beare, KD
Coster, MJ
Rutledge, PJ
Griffith University Author(s)
Year published
2012
Metadata
Show full item recordAbstract
HIV-1 integrase is one of the three viral enzymes essential to HIV replication. Consequently the development of therapeutics targeting this enzyme has been a major focus of antiretroviral research over the past two decades. Several classes of integrase inhibitors have been identified; of these the diketoacids (DKAs) show greatest promise: raltegravir (Merck & Co) has been approved by the US Food and Drug Administration (FDA) for HIV-1 therapy, while elvitegravir (Gilead Sciences/ Japan Tobacco) has reached phase III clinical trials. This review considers the development of DKA-based inhibitors from early screening studies ...
View more >HIV-1 integrase is one of the three viral enzymes essential to HIV replication. Consequently the development of therapeutics targeting this enzyme has been a major focus of antiretroviral research over the past two decades. Several classes of integrase inhibitors have been identified; of these the diketoacids (DKAs) show greatest promise: raltegravir (Merck & Co) has been approved by the US Food and Drug Administration (FDA) for HIV-1 therapy, while elvitegravir (Gilead Sciences/ Japan Tobacco) has reached phase III clinical trials. This review considers the development of DKA-based inhibitors from early screening studies through to the release of raltegravir. SAR data collated from numerous studies are compared and analysed, shedding light on the geometric and electronic requirements for effective binding to HIV-1 integrase. This information will in turn aid the rational design of future generations of integrase inhibitors.
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View more >HIV-1 integrase is one of the three viral enzymes essential to HIV replication. Consequently the development of therapeutics targeting this enzyme has been a major focus of antiretroviral research over the past two decades. Several classes of integrase inhibitors have been identified; of these the diketoacids (DKAs) show greatest promise: raltegravir (Merck & Co) has been approved by the US Food and Drug Administration (FDA) for HIV-1 therapy, while elvitegravir (Gilead Sciences/ Japan Tobacco) has reached phase III clinical trials. This review considers the development of DKA-based inhibitors from early screening studies through to the release of raltegravir. SAR data collated from numerous studies are compared and analysed, shedding light on the geometric and electronic requirements for effective binding to HIV-1 integrase. This information will in turn aid the rational design of future generations of integrase inhibitors.
View less >
Journal Title
Current Medicinal Chemistry
Volume
19
Issue
8
Subject
Medicinal and biomolecular chemistry
Biologically active molecules
Biochemistry and cell biology
Pharmacology and pharmaceutical sciences