Identification of Riluzole Derivatives as Novel Calmodulin Inhibitors with Neuroprotective Activity by a joint synthesis, biosensor, and computational guided strategy
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2024-04-17Autor
Baltasar Marchueta, Maider
Llona, Leire
Alicante Martínez, Sara
Barbolla Cuadrado, Iratxe
García Ibarlucea, Markel
Ramis Cortés, Rafael
Salomon, Ane Miren
Fundora Ortiz, Brenda
Araujo Lombraña, Ariane
Muguruza Montero, Arantza
Pérez Olea, Scarlett
Villanueva, Christian
Leonardo Liceranzu, Aritz
Arrasate Gil, Sonia
Sotomayor Anduiza, María Nuria
Villarroel, Alvaro
Bergara Jauregui, Aitor
Lete Expósito, María Esther
González Díaz, Humberto
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Biomedicine & Pharmacotherapy 174 : (2024) // Art. ID 116602
Resumen
The development of new molecules for the treatment of calmodulin related cardiovascular or neurodegenerative diseases is an interesting goal. In this work, we introduce a novel strategy with four main steps: (1) chemical synthesis of target molecules, (2) Förster Resonance Energy Transfer (FRET) biosensor development and in vitro biological assay of new derivatives, (3) Cheminformatics models development and in vivo activity prediction, and (4) Docking studies. This strategy is illustrated with a case study. Firstly, a series of 4-substituted Riluzole derivatives 1-3 were synthetized through a strategy that involves the construction of the 4-bromoriluzole framework and its further functionalization via palladium catalysis or organolithium chemistry. Next, a FRET biosensor for monitoring Ca2+-dependent CaM-ligands interactions has been developed and used for the in vitro assay of Riluzole derivatives. In particular, the best inhibition (80%) was observed for 4-methoxyphenylriluzole 2b. Besides, we trained and validated a new Networks Invariant, Information Fusion, Perturbation Theory, and Machine Learning (NIFPTML) model for predicting probability profiles of in vivo biological activity parameters in different regions of the brain. Next, we used this model to predict the in vivo activity of the compounds experimentally studied in vitro. Last, docking study conducted on Riluzole and its derivatives has provided valuable insights into their binding conformations with the target protein, involving calmodulin and the SK4 channel. This new combined strategy may be useful to reduce assay costs (animals, materials, time, and human resources) in the drug discovery process of calmodulin inhibitors.