Affiliation:
1. Sungkyunkwan University
2. Wilmer Eye Institute, Johns Hopkins University School of Medicine
3. Emory University and Georgia Institute of Technology
4. The University of Texas at Austin
5. University of Minnesota
6. University of Seoul
Abstract
Abstract
Acyl myricetins (monopropionyl-, dipropionyl-, and monooctanoyl-myricetin, termed as MP1, MP2, and MO1, respectively) were synthesized through enzymatic or non-enzymatic esterification reaction of myricetin aglycone. Structure study indicated the hydroxyl group at C4ʹ in B-ring was highly susceptible to acylation. Over its parental myricetin, acylated compounds showed enhanced lipophilicity (from 7.4- to 26.3-fold) and oxidative stability (from 1.9- to 3.1-fold) on the basis of logP and decay rate, respectively. MO1, presenting the physicochemical superiority compared to the others, provided lowest EC50 value of 2.51 µM on inhibition of neutrotransmitter release and high CC50 value of 58.96 µM, leading to widest therapeutic window. All myricetin esters did not show any irritation toxicity when assessed with a chicken embryo assay. This study describes information on acylation of myricetin that has not yet been explored, and suggests that MO1 has anti-neuroexocytotic potential for industrial application due to its enhanced biological properties.
Publisher
Research Square Platform LLC