| Literature DB >> 25173853 |
Paola Vianello1, Oronza A Botrugno2, Anna Cappa2, Giuseppe Ciossani3, Paola Dessanti2, Antonello Mai4, Andrea Mattevi5, Giuseppe Meroni2, Saverio Minucci6, Florian Thaler7, Marcello Tortorici3, Paolo Trifiró2, Sergio Valente4, Manuela Villa2, Mario Varasi2, Ciro Mercurio2.
Abstract
Histone demethylase KDM1A (also known as LSD1) has become an attractive therapeutic target for the treatment of cancer as well as other disorders such as viral infections. We report on the synthesis of compounds derived from the expansion of tranylcypromine as a chemical scaffold for the design of novel demethylase inhibitors. These compounds, which are substituted on the cyclopropyl core moiety, were evaluated for their ability to inhibit KDM1A in vitro as well as to function in cells by modulating the expression of Gfi-1b, a well recognized KDM1A target gene. The molecules were all found to covalently inhibit KDM1A and to become increasingly selective against human monoamine oxidases MAO A and MAO B through the introduction of bulkier substituents on the cyclopropylamine ring. Structural and biochemical analysis of selected trans isomers showed that the two stereoisomers are endowed with similar inhibitory activities against KDM1A, but form different covalent adducts with the FAD co-enzyme.Entities:
Keywords: Antiproliferation; Epigenetics; Histone lysine demethylases; Tranylcypromine; X-ray crystallography
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Year: 2014 PMID: 25173853 DOI: 10.1016/j.ejmech.2014.08.068
Source DB: PubMed Journal: Eur J Med Chem ISSN: 0223-5234 Impact factor: 6.514