John W. Clader

Discovery of fused 5,6-bicyclic heterocycles as γ-secretase modulators

We herein report the discovery of four series of fused 5,6-bicyclic heterocycles as γ-secretase modulators. Synthesis and SAR of these series are discussed. These compounds represent a new class of γ-secretase modulators that demonstrate moderate to good in vitro potency in inhibiting Aβ(42) production.

Tricyclic sulfones as orally active γ-secretase inhibitors: Synthesis and structure–activity relationship studies

Tricyclic sulfones were designed as gamma-secretase inhibitors and found to have excellent potency. Extensive SAR shows that a large number of sulfonamides at position 7 of the tricycle are very well tolerated. Compounds such as 15a and 15c showed remarkable in vivo potency.

The discovery of fused oxadiazepines as gamma secretase modulators for treatment of Alzheimer’s disease

In an attempt to further improve overall profiles of the oxadiazine series of GSMs, in particular the hERG activity, conformational modifications of the core structure resulted in the identification of fused oxadiazepines such as 7i which had an improved hERG inhibition profile and was a highly efficacious GSM in vitro and in vivo in rats. These SAR explorations offer opportunities to identify potential drugs to treat Alzheimers disease.

Design and synthesis of tricyclic sulfones as γ-secretase inhibitors with greatly reduced Notch toxicity

A novel series of tricyclic gamma-secretase inhibitors was designed and synthesized via a conformational analysis of literature compounds. The preliminary results have shown that compounds in this new series have much improved in vitro potency and in vivo profiles. More importantly, they have greatly reduced Notch related toxicity that was associated with previous gamma-secretase inhibitors.

Design, synthesis, and structure-activity relationship studies of N-arylsulfonyl morpholines as γ-secretase inhibitors.

Design and synthesis of cis-2,6-disubstituted N-arylsulfonyl morpholines as novel γ-secretase inhibitors for the potential treatment of Alzheimers disease (AD) is reported. Several different small alkyl groups are installed on the left-hand side to lower the CYP3A4 liability while maintaining excellent in vitro potency.

Tetracyclic sulfones as potent γ-secretase inhibitors: Synthesis and structure–activity relationship studies

Complex tetracyclic sulfones were designed as gamma-secretase inhibitors and a stereoselective synthesis was achieved. Gamma-secretase activity was seen predominately in the (-) enantiomeric series. Compounds such as 2a and 2b showed remarkable in vitro and in vivo potency.

Structure activity relationship studies of tricyclic bispyran sulfone γ-secretase inhibitors.

An investigation is detailed of the structure activity relationships (SAR) of two sulfone side chains of compound (-)-1a (SCH 900229), a potent, PS1-selective γ-secretase inhibitor and clinical candidate for the treatment of Alzheimers disease. Specifically, 4-CF(3) and 4-Br substituted arylsulfone analogs, (-)-1b and (-)-1c, are equipotent to compound (-)-1a. On the right hand side chain, linker size and terminal substituents of the pendant sulfone group are also investigated.

Synthesis and SAR study of tricyclic sulfones as γ-secretase inhibitors: C-6 and C-8 positions.

SAR exploration at C-6 and C-8 positions of the tricyclic sulfone series was carried out. Several functional groups were found to be well tolerated at C-6 and C-8 positions. Selective combination of C-6 and C-8 modification resulted in new tricyclic sulfone analogs with efficacy in in vivo mouse Aβ(40) lowering model.

Iminopyrimidinones: A novel pharmacophore for the development of orally active renin inhibitors

The development of renin inhibitors with favorable oral pharmacokinetic profiles has been a longstanding challenge for the pharmaceutical industry. As part of our work to identify inhibitors of BACE1, we have previously developed iminopyrimidinones as a novel pharmacophore for aspartyl protease inhibition. In this letter we describe how we modified substitution around this pharmacophore to develop a potent, selective and orally active renin inhibitor.

Substituted 4-morpholine N-arylsulfonamides as γ-secretase inhibitors.

The design, synthesis, SAR, and biological profile of a substituted 4-morpholine sulfonamide series of γ-secretase inhibitors (GSIs) were described. In several cases, the resulting series of GSIs reduced CYP liabilities and improved γ-secretase inhibition activity compared to our previous research series. Selected compounds demonstrated significant reduction of amyloid-β (Aβ) after acute oral dosing in a transgenic animal model of Alzheimers disease (AD).