Since the discovery of compound BIX01294 over 10 years ago, only a very limited number of nonquinazoline inhibitors of H3K9-specific methyltransferases G9a and G9a-like protein (GLP) have been reported. Herein, we report the identification of a novel chemotype for G9a/GLP inhibitors, based on the underinvestigated 2-alkyl-5-aminoand 2-aryl-5-amino-substituted 3H-benzo[e][1,4]diazepine scaffold. Our research efforts resulted in the identification 12a (EML741), which not only maintained the high in vitro and cellular potency of its quinazoline counterpart, but also displayed improved inhibitory potency against DNA methyltransferase 1, improved selectivity against other methyltransferases, low cell toxicity, and improved apparent permeability values in both parallel artificial membrane permeability assay (PAMPA) and blood−brain barrier-specific PAMPA, and therefore might potentially be a better candidate for animal studies. Finally, the co-crystal structure of GLP in complex with 12a provides the basis for the further development of benzodiazepine-based G9a/GLP inhibitors.
Inhibition of Carbonic Anhydrases (CAs) has been clinically exploited for many decades
for a variety of therapeutic applications. Within a research project aimed at developing
novel classes of CA inhibitors (CAIs) with a proper selectivity for certain isoforms, a
series of derivatives featuring the 2-substituted-benzimidazole-6-sulfonamide scaffold,
conceived as frozen analogs of Schiff bases and secondary amines previously reported in
the literature as CAIs, were investigated. Enzyme inhibition assays on physiologically
relevant human CA I, II, IX and XII isoforms revealed a number of potent CAIs, showing
promising selectivity profiles towards the transmembrane tumor-associated CA IX and XII
enzymes. Computational studies were attained to clarify the structural determinants behind
the activities and selectivity profiles of the novel inhibitors.
Protein arginine
methyltransferases (PRMTs) are important therapeutic
targets, playing a crucial role in the regulation of many cellular
processes and being linked to many diseases. Yet, there is still much
to be understood regarding their functions and the biological pathways
in which they are involved, as well as on the structural requirements
that could drive the development of selective modulators of PRMT activity.
Here we report a deconstruction–reconstruction approach that,
starting from a series of type I PRMT inhibitors previously identified
by us, allowed for the identification of potent and selective inhibitors
of PRMT4, which regardless of the low cell permeability show an evident
reduction of arginine methylation levels in MCF7 cells and a marked
reduction of proliferation. We also report crystal structures with
various PRMTs supporting the observed specificity and selectivity.
Protein lysine methyltransferases constitute a large family of epigenetic writers which catalyse the transfer of a methyl group from the cofactor S-adenosyl-L-methionine to histone and non-histone specific substrates. Alterations in...
Three consecutive once-weekly applications of BTDS 10 provided consistent and sustained delivery of buprenorphine. Steady-state plasma concentrations were reached within 48 hours of the first application of BTDS 10. Patch adhesion analysis confirmed the appropriateness of the seven-day application period. Overall, BTDS 10 was safe and well tolerated.
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