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Discovery and Characterization of Selective and Ligand-Efficient DYRK Inhibitors

Scott H. Henderson, F.J. Sorrell, James M. Bennett, Oleg Fedorov, Marcus T. Hanley, Paulo H. Godoi, Roberta Ruela de Sousa, Sean W. Robinson, Alexander Ashall-Kelly, Iva Navrátilová, Daryl S. Walter, Jonathan M. Elkins, Simon E. Ward

2021Journal of Medicinal Chemistry20 citationsDOIOpen Access PDF

Abstract

Dual-specificity tyrosine-regulated kinase 1A (DYRK1A) regulates the proliferation and differentiation of neuronal progenitor cells during brain development. Consequently, DYRK1A has attracted interest as a target for the treatment of neurodegenerative diseases, including Alzheimer’s disease (AD) and Down’s syndrome. Recently, the inhibition of DYRK1A has been investigated as a potential treatment for diabetes, while DYRK1A’s role as a mediator in the cell cycle has garnered interest in oncologic indications. Structure–activity relationship (SAR) analysis in combination with high-resolution X-ray crystallography leads to a series of pyrazolo[1,5-b]pyridazine inhibitors with excellent ligand efficiencies, good physicochemical properties, and a high degree of selectivity over the kinome. Compound 11 exhibited good permeability and cellular activity without P-glycoprotein liability, extending the utility of 11 in an in vivo setting. These pyrazolo[1,5-b]pyridazines are a viable lead series in the discovery of new therapies for the treatment of diseases linked to DYRK1A function.

Topics & Concepts

ChemistryCharacterization (materials science)Ligand (biochemistry)StereochemistryComputational biologyCombinatorial chemistryNanotechnologyBiochemistryBiologyReceptorMaterials scienceFungal Plant Pathogen ControlPlant tissue culture and regenerationPlant-Microbe Interactions and Immunity
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