Diffuse intrinsic pontine glioma is an aggressive pediatric cancer for which no effective chemotherapeutic drugs exist. Analysis of the genomic landscape of this disease has led to the identification of the serine/threonine kinase ALK2 as a potential target for therapeutic intervention. In this work, we adopted an open science approach to develop a series of potent type I inhibitors of ALK2 which are orally bio-available and brain-penetrant. Initial efforts resulted in the discovery of M4K2009 , an analogue of the previously reported ALK2 inhibitor LDN-214117 . Although highly selective for ALK2 over the TGF-βR1 receptor ALK5, M4K2009 is also moderately active against the hERG potassium channel. Varying the substituents of the trimethoxyphenyl moiety gave rise to an equipotent benzamide analogue M4K2149 with reduced off-target affinity for the ion channel. Additional modifications yielded 2-fluoro-6-methoxybenzamide derivatives ( 26a–c ), which possess high inhibitory activity against ALK2, excellent selectivity, and superior pharmacokinetic profiles.
The serine/threonine kinase CK2 modulates the activity of more than 300 proteins and thus plays a crucial role in various physiological and pathophysiological processes including neurodegenerative disorders of the central nervous system and cancer. The enzymatic activity of CK2 is controlled by the equilibrium between the heterotetrameric holoenzyme CK2α 2 β 2 and its monomeric subunits CK2α and CK2β. A series of) was prepared in an one-pot, three-component Levy reaction. The stereochemistry of the tetracyclic compounds was analyzed. Additionally, the chemically labile anhydride structure of the furocarbazoles 3 was replaced by a more stable imide (9) and N-methylimide (10) substructure. The enantiomer (À )-3 a (K i = 4.9 μM) of the lead compound (+)-3 a (K i = 31 μM) showed a more than sixfold increased inhibition of the CK2α/CK2β interaction (protein-protein interaction inhibition, PPII) in a microscale thermophoresis (MST) assay. However, (À )-3 a did not show an increased enzyme inhibition of the CK2α 2 β 2 holoenzyme, the CK2α subunit or the mutated CK2α' C336S subunit in the capillary electrophoresis assay. In the pyrrolocarbazole series, the imide (À )-9 a (K i = 3.6 μM) and the N-methylimide (+)-10 a (K i = 2.8 μM) represent the most promising inhibitors of the CK2α/CK2β interaction. However, neither compound could inhibit enzymatic activity. Unexpectedly, the racemic tetracyclic pyrrolocarbazole (�)-12, with a carboxy moiety in the 4-position, displays the highest CK2α/CK2β interaction inhibition (K i = 1.8 μM) of this series of compounds.
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