Probing the Peptidylglycine α‐Hydroxylating Monooxygenase Active Site with Novel 4‐Phenyl‐3‐butenoic Acid Based Inhibitors |
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| Authors: | Emma Langella Dr. Sébastien Pierre Dr. Wadih Ghattas Dr. Michel Giorgi Dr. Marius Réglier Dr. Michele Saviano Dr. Luciana Esposito Dr. Renaud Hardré Dr. |
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| Affiliation: | 1. Istituto di Biostrutture e Bioimmagini, CNR via Mezzocannone 16, 80134 Napoli (Italy), Fax: (+39)?081‐253‐4574;2. Institut des Sciences Moléculaires de Marseille, équipe BiosCiences, UMR‐CNRS 6263, Aix‐Marseille Université av. Escadrille Normandie‐Niemen, 13397 Marseille Cedex 20 (France), Fax: (+33)?4‐9128‐8440;3. Spectropole, FR1739‐CNRS, Aix‐Marseille Université av. Escadrille Normandie‐Niemen, 13397 Marseille Cedex 20 (France) |
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| Abstract: | Specific inhibition of the copper‐containing peptidylglycine α‐hydroxylating monooxygenase (PHM), which catalyzes the post‐translational modification of peptides involved in carcinogenesis and tumor progression, constitutes a new approach for combating cancer. We carried out a structure–activity study of new compounds derived from a well‐known PHM substrate analogue, the olefinic compound 4‐phenyl‐3‐butenoic acid (PBA). We designed, synthesized, and tested various PBA derivatives both in vitro and in silico. We show that it is possible to increase PBA affinity for PHM by appropriate functionalization of its aromatic nucleus. Compound 2 d , for example, bears a meta‐benzyloxy substituent, and exhibits better inhibition features (Ki=3.9 μM , kinact/Ki=427 M ?1 s?1) than the parent PBA (Ki=19 μM , kinact/Ki=82 M ?1 s?1). Docking calculations also suggest two different binding modes for PBA derivatives; these results will aid in the development of further PHM inhibitors with improved features. |
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| Keywords: | 4‐phenyl‐3‐butenoic acid computer chemistry docking inhibitors monooxygenases |
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