The peptide hormone ghrelin is the endogenous ligand for the type 1a growth hormone secretagogue receptor (GHS-R1a) and the only currently known circulating appetite stimulant. GHS-R1a antagonism has therefore been proposed as a potential approach for obesity treatment. More recently, ghrelin has been recognized to also play a role in controlling glucose-induced insulin secretion, which suggests another possible benefit for a GHS-R1a antagonist, namely, the role as an insulin secretagogue with potential value for diabetes treatment. In our laboratories, piperidine-substituted quinazolinone derivatives were identified as a new class of small-molecule GHS-R1a antagonists. Starting from an agonist with poor oral bioavailability, optimization led to potent, selective, and orally bioavailable antagonists. In vivo efficacy evaluation of selected compounds revealed suppression of food intake and body weight reduction as well as glucose-lowering effects mediated by glucose-dependent insulin secretion.
By targeting the flap backbone of the BACE1 active site, we discovered 6-dimethylisoxazole-substituted biaryl aminothiazine 18 with 34-fold improved BACE1 inhibitory activity over the lead compound 1. The cocrystal structure of 18 bound to the active site indicated two hydrogen-bond interactions between the dimethylisoxazole and threonine 72 and glutamine 73 of the flap. Incorporation of the dimethylisoxazole substitution onto the related aminothiazine carboxamide series led to pyrazine-carboxamide 26 as a very potent BACE1 inhibitor (IC 50 < 1 nM). This compound demonstrated robust brain Aβ reduction in rat dose−response studies. Thus, compound 26 may be useful in testing the amyloid hypothesis of Alzheimer's disease.
Tumor
necrosis factor α (TNFα) is a soluble cytokine
that is directly involved in systemic inflammation through the regulation
of the intracellular NF-κB and MAPK signaling pathways. The
development of biologic drugs that inhibit TNFα has led to improved
clinical outcomes for patients with rheumatoid arthritis and other
chronic autoimmune diseases; however, TNFα has proven to be
difficult to drug with small molecules. Herein, we present a two-phase,
fragment-based drug discovery (FBDD) effort in which we first identified
isoquinoline fragments that disrupt TNFα ligand–receptor
binding through an allosteric desymmetrization mechanism as observed
in high-resolution crystal structures. The second phase of discovery
focused on the de novo design and optimization of
fragments with improved binding efficiency and drug-like properties.
The 3-indolinone-based lead presented here displays oral, in vivo efficacy in a mouse glucose-6-phosphate isomerase
(GPI)-induced paw swelling model comparable to that seen with a TNFα
antibody.
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