Roland Joseph Billedeau

Novel indolactam-based inhibitors of matrix metalloproteinases

Abstract Potent collagenase inhibitors incorporating a novel indolactam macrocycle, which are accessible by the intramolecular alkylation of N-t-Boc-L-Trp-NH(CH 2 ) 6 OTs under phase transfer conditions, show enhanced activity compared to their acyclic analogs.

Solid-phase synthesis of Di- and tripeptidic hydroxamic acids as inhibitors of procollagen C-proteinase

A solid-phase approach to the rapid synthesis of di- and tripeptide-like hydroxamic acids is presented. These compounds are shown to be potent inhibitors of procollagen C-proteinase (PCP).

3-Amino-pyrazolo[3,4-d]pyrimidines as p38α kinase inhibitors: Design and development to a highly selective lead

Learnings from previous Roche p38-selective inhibitors were applied to a new fragment hit, which was optimized to a potent, exquisitely selective preclinical lead with a good pharmacokinetic profile.

SYNTHESIS OF HETEROARYL-FUSED PYRAZOLES AS P38 KINASE INHIBITORS

The synthesis of pyrazolo-pyridine, pyrimidine, pyrazine and pyridazine heterocycles is described. In addition, we report the utilization of 2,4-difluorophenoxide as a leaving group, to facilitate formation of the desired pyrazole adducts.

A novel series of IKKβ inhibitors part I: Initial SAR studies of a HTS hit.

A novel series of (E)-1-((2-(1-methyl-1H-imidazol-5-yl) quinolin-4-yl) methylene) thiosemicarbazides was discovered as potent inhibitors of IKKβ. In this Letter we document our early efforts at optimization of the quinoline core, the imidazole and the semithiocarbazone moiety. Most potency gains came from substitution around the 6- and 7-positions of the quinoline ring. Replacement of the semithiocarbazone with a semicarbazone decreased potency but led to some measurable exposure.

A novel series of IKKβ inhibitors part II: description of a potent and pharmacologically active series of analogs.

A novel series of (E)-1-((2-(1-methyl-1H-imidazol-5-yl) quinolin-4-yl) methylene) thiosemicarbazides was discovered as potent inhibitors of IKKβ. In this Letter we document our efforts at further optimization of this series, culminating in 2 with submicromolar potency in a HWB assay and efficacy in a CIA mouse model.

Mitigation of reactive metabolite formation for a series of 3-amino-2-pyridone inhibitors of Bruton’s tyrosine kinase (BTK)

Reactive metabolites have been putatively linked to many adverse drug reactions including idiosyncratic toxicities for a number of drugs with black box warnings or withdrawn from the market. Therefore, it is desirable to minimize the risk of reactive metabolite formation for lead molecules in optimization, in particular for non-life threatening chronic disease, to maximize benefit to risk ratio. This article describes our effort in addressing reactive metabolite issues for a series of 3-amino-2-pyridone inhibitors of BTK, e.g. compound 1 has a value of 459pmol/mg protein in the microsomal covalent binding assay. Parallel approaches were taken to successfully resolve the issues: establishment of a predictive screening assay with correlation association of covalent binding assay, identification of the origin of reactive metabolite formation using MS/MS analysis of HLM as well as isolation and characterization of GSH adducts. This ultimately led to the discovery of compound 7 (RN941) with significantly reduced covalent binding of 26pmol/mg protein.