Artículos de revistas
Antioxidant properties of flavonoid metal complexes and their potential inclusion in the development of novel strategies for the treatment against neurodegenerative diseases
Date
2021Registration in:
Biomedicine & Pharmacotherapy 143 (2021) 112236
10.1016/j.biopha.2021.112236
Author
Rodríguez Arce, Esteban Alexander
Saldías, Marianela
Institutions
Abstract
The increased oxidative stress in the acceleration of the aging process and development of the neuronal disorder
are the common feature detected in neurodegenerative illness, such as Alzheimer’s disease, Parkinson’s disease,
and Amyotrophic lateral sclerosis. Searching for new treatment against these diseases, the inclusion of exogenous
antioxidant agents has shown good results. Flavonoids are polyphenols compounds present in plants, fruits and
vegetables that exhibit potent antioxidant and biological properties, which are related to their chemical structure
that to confer an excellent radical scavenging ability. The design of metal-flavonoid complexes allows to obtain
compounds with improved biological and physicochemical properties, generating important increase of the
flavonoid antioxidant properties. This evidence we motive to propose that antioxidant properties of the metal
flavonoids compounds can play an important role in the design of potential novel therapeutic strategies. This
review presents the structure-activity relationship on the antioxidant properties of three series of metal-flavonoid
complexes: M-(quercetin), M-(morin), and M-(rutin). In general, we observed that the coordination sites, the
metal ion type used, and the molar ratio metal:flavonoid present in the complexes, are important factors for to
increase the antioxidant activity. On these evidences we motive to propose that the development of metalflavonoid
compounds is a potentially viable approach for combating neurodegenerative diseases.