Design, synthesis and multitarget biological profiling of second-generation anti-Alzheimer rhein

Design, synthesis and multitarget biological profiling of second-generation anti-Alzheimer rhein–huprine hybrids

Published:2017-06 Issue:10 Volume:9 Page:965-981
ISSN:1756-8919
Container-title:Future Medicinal Chemistry
language:en
Short-container-title:Future Medicinal Chemistry

Author:

Pérez-Areales Francisco Javier¹²,Betari Nibal¹,Viayna Antonio²³,Pont Caterina¹²,Espargaró Alba⁴,Bartolini Manuela⁵,De Simone Angela⁶,Rinaldi Alvarenga José Fernando³,Pérez Belén⁷,Sabate Raimon⁴,Lamuela-Raventós Rosa Maria³⁸,Andrisano Vincenza⁶,Luque Francisco Javier²³,Muñoz-Torrero Diego¹²

Affiliation:

1. Laboratory of Pharmaceutical Chemistry (CSIC Associated Unit), Faculty of Pharmacy & Food Sciences, University of Barcelona, Av. Joan XXIII 27–31, E-08028 Barcelona, Spain

2. Institute of Biomedicine (IBUB), University of Barcelona, E-08028 Barcelona, Spain

3. Department of Nutrition, Food Science & Gastronomy, Faculty of Pharmacy & Food Sciences, University of Barcelona, Av. Prat de la Riba 171, E-08921 Santa Coloma de Gramenet, Spain

4. Department of Pharmacy & Pharmaceutical Technology & Physical Chemistry, Faculty of Pharmacy & Food Sciences, University of Barcelona, Av. Joan XXIII 27–31, E-08028 Barcelona, Spain

5. Department of Pharmacy & Biotechnology, Alma Mater Studiorum University of Bologna, Via Belmeloro 6, I-40126 Bologna, Italy

6. Department for Life Quality Studies, University of Bologna, Corso d'Augusto 237, I-47921Rimini, Italy

7. Department of Pharmacology, Therapeutics & Toxicology, Autonomous University of Barcelona, E-08193 Bellaterra, Barcelona, Spain

8. CIBER 06/003 Physiopathology of Obesity & Nutrition (CIBEROBN), Institute of Health Carlos III, E-28029 Madrid, Spain

Abstract

Aim: Simultaneous modulation of several key targets of the pathological network of Alzheimer's disease (AD) is being increasingly pursued as a promising option to fill the critical gap of efficacious drugs against this condition. Materials & Methods: A short series of compounds purported to hit multiple targets of relevance in AD has been designed, on the basis of their distinct basicities estimated from high-level quantum mechanical computations, synthesized, and subjected to assays of inhibition of cholinesterases, BACE-1, and Aβ42 and tau aggregation, of antioxidant activity, and of brain permeation. Results: Using, as a template, a lead rhein–huprine hybrid with an interesting multitarget profile, we have developed second-generation compounds, designed by the modification of the huprine aromatic ring. Replacement by [1,8]-naphthyridine or thieno[3,2-e]pyridine systems resulted in decreased, although still potent, acetylcholinesterase or BACE-1 inhibitory activities, which are more balanced relative to their Aβ42 and tau antiaggregating and antioxidant activities. Conclusion: Second-generation naphthyridine- and thienopyridine-based rhein–huprine hybrids emerge as interesting brain permeable compounds that hit several crucial pathogenic factors of AD.

Publisher

Future Science Ltd

Subject

Drug Discovery,Pharmacology,Molecular Medicine

Link

http://www.future-science.com/doi/pdf/10.4155/fmc-2017-0049

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