Daniel Pettersen scite author profile

A class of novel oral fibrinolysis inhibitors has been discovered, which are lysine mimetics containing an isoxazolone as a carboxylic acid isostere. As evidenced by X-ray crystallography the inhibitors bind to the lysine binding site in plasmin thus preventing plasmin from binding to fibrin, hence blocking the protein−protein interaction. Optimization of the series, focusing on potency in human buffer and plasma clotlysis assays, permeability, and GABAa selectivity, led to the discovery of AZD6564 (19) displaying an in vitro human plasma clot lysis IC 50 of 0.44 μM, no detectable activity against GABAa, and with DMPK properties leading to a predicted dose of 340 mg twice a day oral dosing in humans.

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Direct Access to Enantiomerically Enriched α-Amino Phosphonic Acid Derivatives by Organocatalytic Asymmetric Hydrophosphonylation of Imines

Pettersen

Marcolini²,

Bernardi³

et al. 2006

J. Org. Chem.

142

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Phase‐Transfer‐Catalyzed Asymmetric Aza‐Henry Reaction Using N‐Carbamoyl Imines Generated In Situ from α‐Amido Sulfones

et al. 2005

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A general approach to the catalytic asymmetric aza‐Henry reaction has been developed. The combination of a commercially available phase‐transfer catalyst (PTC) with a base is able to promote the in situ formation of N‐carbamoyl imines from α‐amido sulfones and activate nitromethane towards the asymmetric addition reaction, thus furnishing N‐carbamoyl‐protected β‐nitroamines in good yields and with up to 98 % ee (see scheme; PG=protecting group).

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Recent advances for FLAP inhibitors

Pettersen

Davidsson

Whatling

2015

Bioorganic & Medicinal Chemistry Letters

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Organocatalytic Asymmetric Mannich Reactions with N‐Boc and N‐Cbz Protected α‐Amido Sulfones (Boc: tert‐Butoxycarbonyl, Cbz: Benzyloxycarbonyl)

Marianacci

Micheletti

Bernardi

et al. 2007

Chemistry A European J

115

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Different malonates and beta-ketoesters can react with N-tert-butoxycarbonyl- (N-Boc) and N-benzyloxycarbonyl- (N-Cbz) protected alpha-amido sulfones in an organocatalytic asymmetric Mannich-type reaction. The reaction makes use of a simple and easily obtained phase-transfer catalyst and proceeds under very mild and user-friendly conditions. The optimised protocol avoids the preparation and the isolation of the relatively unstable N-Boc and N-Cbz imines that are generated in situ from the bench-stable alpha-amido sulfones. The corresponding Mannich bases are generally obtained in good yields and enantioselectivities, and can be readily transformed into key compounds, such as optically active beta3-amino acids in one easy step. Enantioenriched N-Boc and N-Cbz protected beta-amino acids that are suitable for peptide synthesis are also available from the Mannich adducts through simple manipulations. Control experiments showed the dual role of the enolate-catalyst ion pair in this reaction, as well as the crucial role of the presence of water to achieve high enantioselectivities.

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