Asymmetric Synthesis of Chiral Organofluorine Compounds:  Use of Nonracemic Fluoroiodoacetic Acid as a Practical Electrophile and Its Application to the Synthesis of Monofluoro Hydroxyethylene Dipeptide Isosteres within a Novel Series of HIV Protease Inhibitors

Andrew G. Myers; J. Kent Barbay; Boyu Zhong

doi:10.1021/ja010113y

Abstract

Two stereoselective routes to a series of diastereomeric inhibitors of HIV protease, monofluorinated analogues of the Merck HIV protease inhibitor indinavir, are described. The two routes feature stereoselective construction of the fluorinated core subunits by asymmetric alkylation reactions. The first-generation syntheses were based on the conjugate addition of the lithium enolate derived from pseudoephedrine alpha-fluoroacetamide to nitroalkene 12, a modestly diastereoselective transformation. A more practical second-generation synthetic route was developed that is based on a novel method for the asymmetric synthesis of organofluorine compounds, by enolate alkylation using optically active fluoroiodoacetic acid as the electrophile in combination with a chiral amide enolate. Resolution of fluoroiodoacetic acid with ephedrine provides either enantiomeric form of the electrophile in > or = 96% ee. Alkylation reactions with this stable and storable chiral fluorinated precursor are shown to proceed in a highly stereospecific manner. With the development of substrate-controlled syn- or anti-selective reductions of alpha-fluoro ketones 44 and 45 (diastereomeric ratios 12:1-84:1), efficient and stereoselective routes to each of the four targeted inhibitors were achieved. The optimized synthetic route to the most potent inhibitor (syn,syn-4, K(i) = 2.0 nM) proceeded in seven steps (87% average yield per step) from aminoindanol hydrocinnamide 40 and (S)-fluoroiodoacetic acid, and allowed for the preparation of more than 1 g of this compound. The inhibition of HIV-1 protease by each of the fluorinated inhibitors was evaluated in vitro, and the variation of potency as a function of inhibitor stereochemistry is discussed.

Keywords

ChemistryDiastereomerStereochemistryAlkylationStereoselectivityElectrophileEnantiomerEnantioselective synthesisChiral auxiliaryHIV-1 proteaseCombinatorial chemistryProteaseOrganic chemistryEnzyme

Affiliated Institutions

Harvard University US

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Publication Info

Year: 2001
Type: article
Volume: 123
Issue: 30
Pages: 7207-7219
Citations: 140
Access: Closed

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Asymmetric Synthesis of Chiral Organofluorine Compounds: Use of Nonracemic Fluoroiodoacetic Acid as a Practical Electrophile and Its Application to the Synthesis of Monofluoro Hydroxyethylene Dipeptide Isosteres within a Novel Series of HIV Protease Inhibitors

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APA Style

                            
                                    Andrew G. Myers, 
                                
                                    J. Kent Barbay, 
                                
                                    Boyu Zhong
                                
                            (2001). 
                            Asymmetric Synthesis of Chiral Organofluorine Compounds:  Use of Nonracemic Fluoroiodoacetic Acid as a Practical Electrophile and Its Application to the Synthesis of Monofluoro Hydroxyethylene Dipeptide Isosteres within a Novel Series of HIV Protease Inhibitors. 
                            Journal of the American Chemical Society
                            , 123
                            (30)
                            , 7207-7219.
                            https://doi.org/10.1021/ja010113y

Identifiers

DOI: 10.1021/ja010113y