37014-08-7Relevant articles and documents
SMALL MOLECULE PROSTAGLADIN TRANSPORT INHIBITORS
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, (2021/05/15)
The disclosure provides compounds of Formula 1, and the pharmaceutically acceptable salts thereof. The variables in Formula 1, e.g. X1-X5, A1, A2, and R1-R4 are described herein. Such compounds are useful as prostaglandin transport (PGT) inhibitors. The disclosure further includes pharmaceutical compositions comprising a compound of Formula 1 or salt thereof and methods of using compounds of Formula 1 and salts thereof to treat diseases and disorders mediated, at least in part, by prostaglandin levels or cyclooxygenase activity. Such diseases and disorders include painful and inflammatory conditions.
Discovery of Multitarget Agents Active as Broad-Spectrum Antivirals and Correctors of Cystic Fibrosis Transmembrane Conductance Regulator for Associated Pulmonary Diseases
Tassini, Sabrina,Sun, Liang,Lanko, Kristina,Crespan, Emmanuele,Langron, Emily,Falchi, Federico,Kissova, Miroslava,Armijos-Rivera, Jorge I.,Delang, Leen,Mirabelli, Carmen,Neyts, Johan,Pieroni, Marco,Cavalli, Andrea,Costantino, Gabriele,Maga, Giovanni,Vergani, Paola,Leyssen, Pieter,Radi, Marco
, p. 1400 - 1416 (2017/03/08)
Enteroviruses (EVs) are among the most frequent infectious agents in humans worldwide and represent the leading cause of upper respiratory tract infections. No drugs for the treatment of EV infections are currently available. Recent studies have also linked EV infection with pulmonary exacerbations, especially in cystic fibrosis (CF) patients, and the importance of this link is probably underestimated. The aim of this work was to develop a new class of multitarget agents active both as broad-spectrum antivirals and as correctors of the F508del-cystic fibrosis transmembrane conductance regulator (CFTR) folding defect responsible for >90% of CF cases. We report herein the discovery of the first small molecules able to simultaneously act as correctors of the F508del-CFTR folding defect and as broad-spectrum antivirals against a panel of EVs representative of all major species.
Probing the ATP-Binding Pocket of Protein Kinase DYRK1A with Benzothiazole Fragment Molecules
Rothweiler, Ulli,Stensen, Wenche,Brandsdal, Bj?rn Olav,Isaksson, Johan,Leeson, Frederick Alan,Engh, Richard Alan,Svendsen, John S. Mj?en
, p. 9814 - 9824 (2016/11/19)
DYRK1A has emerged as a potential target for therapies of Alzheimer's disease using small molecules. On the basis of the observation of selective DYRK1A inhibition by firefly d-luciferin, we have explored static and dynamic structural properties of fragment sized variants of the benzothiazole scaffold with respect to DYRK1A using X-ray crystallography and NMR techniques. The compounds have excellent ligand efficiencies and show a remarkable diversity of binding modes in dynamic equilibrium. Binding geometries are determined in part by interactions often considered "weak", including "orthogonal multipolar" types represented by, for example, F-CO, sulfur-aromatic, and halogen-aromatic interactions, together with hydrogen bonds that are modulated by variation of electron withdrawing groups. These studies show how the benzothiazole scaffold is highly promising for the development of therapeutic DYRK1A inhibitors. In addition, the subtleties of the binding interactions, including dynamics, show how full structural studies are required to fully interpret the essential physical determinants of binding.