194605-54-4Relevant articles and documents
Demonstrating Ligandability of the LC3A and LC3B Adapter Interface
Hartmann, Markus,Huber, Jessica,Kramer, Jan S.,Heering, Jan,Pietsch, Larissa,Stark, Holger,Odadzic, Dalibor,Bischoff, Iris,Fürst, Robert,Schr?der, Martin,Akutsu, Masato,Chaikuad, Apirat,D?tsch, Volker,Knapp, Stefan,Biondi, Ricardo M.,Rogov, Vladimir V.,Proschak, Ewgenij
, p. 3720 - 3746 (2021/05/04)
Autophagy is the common name for a number of lysosome-based degradation pathways of cytosolic cargos. The key components of autophagy are members of Atg8 family proteins involved in almost all steps of the process, from autophagosome formation to their selective fusion with lysosomes. In this study, we show that the homologous members of the human Atg8 family proteins, LC3A and LC3B, are druggable by a small molecule inhibitor novobiocin. Structure-activity relationship (SAR) studies of the 4-hydroxy coumarin core scaffold were performed, supported by a crystal structure of the LC3A dihydronovobiocin complex. The study reports the first nonpeptide inhibitors for these protein interaction targets and will lay the foundation for the development of more potent chemical probes for the Atg8 protein family which may also find applications for the development of autophagy-mediated degraders (AUTACs).
Development of Dipeptidic hGPR54 Agonists
Doebelin, Christelle,Bertin, Isabelle,Schneider, Séverine,Schmitt, Martine,Bourguignon, Jean-Jacques,Ancel, Caroline,Simonneaux, Valerie,Simonin, Frédéric,Bihel, Frédéric
supporting information, p. 2147 - 2154 (2016/11/04)
A series of dipeptides were designed as potential agonists of the human KiSS1-derived peptide receptor (hGPR54). While the sequence Arg-Trp-NH2was the most efficient in terms of affinity, we established a convergent synthetic strategy to optimi
Alpha-helical mimetics
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, (2011/05/18)
Benzoyl urea derivatives that are alpha helical peptides mimetics that mimic BH3-only proteins, compositions containing them, their conjugation to cell-targeting-moieties, and their use in the regulation of cell death are disclosed. The benzoyl urea derivatives are capable of binding to and neutralizing pro-survival Bcl-2 proteins. Use of benzoyl urea derivatives in the treatment and/or prophylaxis of diseases or conditions associated with deregulation of cell death are also described.