Issue 13, 2022

Click synthesis of novel dendronized curcumin and analogs. Strengthening of physicochemical properties toward biological applications

Abstract

Curcumin and its analogs, chalcones, and C5-monocarbonyl are molecules of great therapeutic potential, but their poor stability and hydrophobicity have hampered their extensive use in clinical trials. Therefore, significant efforts have been made in materials science to improve their physicochemical properties. In this study, we propose dendronization as a synthetic strategy to strengthen some physicochemical properties such as solubility and stability of curcumin and analogs, taking advantage of the click chemistry (CuAAC) to attach second-generation polyester dendrons to the unsaturated cores. The dendronization, with the subsequent formation of aromatic triazole groups as linkers, not only modified the solubility and stability of the molecular systems but also favored the diketo tautomeric form of curcumin, as demonstrated spectroscopically. This result is significant since the diketo tautomer, which preserves the antioxidant properties of curcumin, is the most biologically active form. The hydrophobic/hydrophilic balance, achieved after dendronization, allowed the solubilization of the chromophoric molecules in buffered solutions at relevant pH values (7.4 and 6.4). Furthermore, the stability of all molecules was also upgraded since UV-vis absorption spectra did not exhibit modified profiles after 7 days at physiologic pH. From photochemical stability experiments irradiating at 415 nm, the dendritic derivatives containing triazole linkers were more susceptible to being degraded. All derivatives exhibited emission properties according to the length of each conjugate fragment. Fluorescence experiments evidenced the role of dendrons in preventing emission quenching by aggregation and exhibited differentiated emission behavior depending on the linker type (triazole or ester) between the chromophoric core and the polyester dendrons.

Graphical abstract: Click synthesis of novel dendronized curcumin and analogs. Strengthening of physicochemical properties toward biological applications

Supplementary files

Article information

Article type
Paper
Submitted
10 Feb 2022
Accepted
21 Feb 2022
First published
04 Mac 2022

Org. Biomol. Chem., 2022,20, 2643-2650

Click synthesis of novel dendronized curcumin and analogs. Strengthening of physicochemical properties toward biological applications

C. Cruz-Hernández, D. A. García-Espinosa and P. Guadarrama, Org. Biomol. Chem., 2022, 20, 2643 DOI: 10.1039/D2OB00284A

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