Bruton's tyrosine kinase (BTK), a nonreceptor tyrosine kinase, is a member of the Tec family of kinases. BTK plays an essential role in B cell receptor (BCR)-mediated signaling as well as Fcγ receptor signaling in monocytes and Fcε receptor signaling in mast cells and basophils, all of which have been implicated in the pathophysiology of autoimmune disease. As a result, inhibition of BTK is anticipated to provide an effective strategy for the clinical treatment of autoimmune diseases such as lupus and rheumatoid arthritis. This article details the structure-activity relationships (SAR) leading to a novel series of highly potent and selective carbazole and tetrahydrocarbazole based, reversible inhibitors of BTK. Of particular interest is that two atropisomeric centers were rotationally locked to provide a single, stable atropisomer, resulting in enhanced potency and selectivity as well as a reduction in safety liabilities. With significantly enhanced potency and selectivity, excellent in vivo properties and efficacy, and a very desirable tolerability and safety profile, 14f (BMS-986142) was advanced into clinical studies.
Structure−activity relationships in a series of (2-oxo-1,4-benzodiazepin-3-yl)-succinamides identified highly potent inhibitors of γ-secretase mediated signaling of Notch1/2/3/4 receptors. On the basis of its robust in vivo efficacy at tolerated doses in Notch driven leukemia and solid tumor xenograft models, 12 (BMS-906024) was selected as a candidate for clinical evaluation.
In sharp contrast to a previously reported series of 6-anilino imidazopyridazine based Tyk2 JH2 ligands, 6-((2oxo-N1-substituted-1,2-dihydropyridin-3-yl)amino)imidazo-[1,2-b]pyridazine analogs were found to display dramatically improved metabolic stability. The N1-substituent on 2-oxo-1,2dihydropyridine ring can be a variety of alkyl, aryl, and heteroaryl groups, but among them, 2-pyridyl provided much enhanced Caco-2 permeability, attributed to its ability to form intramolecular hydrogen bonds. Further structure−activity relationship studies at the C3 position led to the identification of highly potent and selective Tyk2 JH2 inhibitor 6, which proved to be highly effective in inhibiting IFNγ production in a rat pharmacodynamics model and fully efficacious in a rat adjuvant arthritis model.
Factor XIa (FXIa) is an enzyme in
the coagulation cascade thought
to amplify thrombin generation but has a limited role in hemostasis.
From preclinical models and human genetics, an inhibitor of FXIa has
the potential to be an antithrombotic agent with superior efficacy
and safety. Reversible and irreversible inhibitors of FXIa have demonstrated
excellent antithrombotic efficacy without increased bleeding time
in animal models (WeitzJ. I.ChanN. C.
Weitz, J. I.
Chan, N. C.
Arterioscler. Thromb.
Vasc. Biol.201939712).
Herein, we report the discovery of a novel series of macrocyclic FXIa
inhibitors containing a pyrazole P2′ moiety. Optimization of
the series for (pharmacokinetic) PK properties, free fraction, and
solubility resulted in the identification of milvexian (BMS-986177/JNJ-70033093, 17, FXIa K
i = 0.11 nM) as a clinical candidate for the
prevention and treatment of thromboembolic disorders, suitable for
oral administration.
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