2-Deoxyglycosylation towards more effective and bioavailable neuroprotective molecules inspired by nature

Author:

Dias Catarina12,Matos Ana M.123,Blásquez-Sanchez Maria T.12,Calado Patrícia12,Martins Alice12,Dätwyler Philipp4,Ernst Beat4,Macedo M. Paula35,Colabufo Nicola6,Rauter Amélia P.12

Affiliation:

1. Centro de Química e Bioquímica, Faculdade de Ciências , Universidade de Lisboa, Ed. C8, Campo Grande , 1749-016 Lisboa , Portugal

2. Centro de Química Estrutural, Faculdade de Ciências , Universidade de Lisboa, Ed. C8, Campo Grande , 1749-016 Lisboa , Portugal

3. Centro de Estudos de Doenҫas Crónicas (CEDOC), Chronic Disease Research Center, NOVA Medical School/Faculdade de Ciências Médicas , Universidade Nova de Lisboa , Lisboa , Portugal

4. Department of Pharmaceutical Sciences, Pharmacenter , University of Basel , Klingelbergstrasse 50 , CH-4056 Basel , Switzerland

5. Department of Medical Sciences, Institute of Biomedicine , University of Aveiro , Aveiro , Portugal

6. Università degli Studi di Bari, Biofordrug , Via Edoardo Orabona, 4 , 70125 Bari , Italy

Abstract

Abstract The neuroprotective role of natural polyphenols is well established but phenolics poor water solubility affects their bioavailability and bioactivity. Aiming to overcome this issue, we were encouraged to investigate the 2-deoxyglycosylation of natural or nature inspired neuroprotective molecules, using glycals as easily accessed glycosyl donors. This robust methodology allowed the generation of a set of new resveratrol and caffeic acid ester glycosides, envisioning more effective and bioavailable compounds. Resveratrol 2-deoxyglycosides were more effective at protecting the neuronal cells from peroxide-induced cytotoxicity than resveratrol itself, while the caffeic acid ester glycoside also showed extraordinary neuroprotection activity. Coefficient partition measurements demonstrated the moderate lipophilicity of resveratrol glycosides, which Log D values are typical of a central nervous system (CNS) drug and ideal for blood-brain barrier (BBB) penetration. Passive permeation assessed by the parallel artificial membrane permeability assay (PAMPA) revealed that 2,6-dideoxy-l-arabino-hexopyranosides were more effective than 2-deoxy-d-arabino-hexopyranosides. The lack of toxicity of the neuroprotective glycosides and their promising physicochemical properties revealed the usefulness of sugar coupling towards the modulation of natural product properties and bioactivity.

Publisher

Walter de Gruyter GmbH

Subject

General Chemical Engineering,General Chemistry

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