Abstract
Introduction: Natural curcuminoids isolated from turmeric (Curcuma longa L.) have been limited in number and the amount of substrates evaluated in semi-synthetic processes and biological tests. Currently, potent anticancer activities of curcuminoids have garnered increased attention such that a greater number of synthetic procedures of curcumin analogues have been developed for further biological evaluations. The fluorine substituent of fluorinated compounds is important for biological responses. However, natural products bearing fluorine have rarely been found. In the study herein, we employed an aldol condensation between 4-hydroxy-3-methoxybenzaldehyde/3,4- difluorobenzaldehyde and pentane-2,4-dione to synthesize the desired curcumin (Cur) and 3,4- difluorinated curcumin (3,4-DFCur). Their half-maximal inhibitory concentration (IC50) values against HepG2, LU-1 and KB cancer cell lines were then assessed.
 Methods: Pentane-2,4-dione was converted to enol form by using B2O3 before carrying out C-C coupling reactions with benzaldehyde analogues under basic conditions. The water scavenger was added to the reaction to capture the produced water. The reaction mixture was stirred at 70 ◦C. The reaction progress was monitored by thin layer chromatography (TLC). Crude products were purified by flash column chromatography (CC; SiO2, eluent: HEX/EA = 9/1!7/3). The chemical structures of the desired products were elucidated by 1H, 13C-NMR, HSQC and MS spectra. The anticancer activities of Cur and 3,4- DFCur against HepG2, LU-1 and KB cancer cell lines were determined using MTT method.
 Results: Under reasonable reaction conditions, the yields for the coupling reactions were 53 and 72% for Cur and 3,4-DFCur, respectively. The stable enol tautomer of 1,3-diketone and the trans-configuration in a seven-carbon chain of product skeletons were assigned by 1H-NMR spectra. All synthesized products showed anticancer activities, with Cur exhibiting higher inhibitory activities when compared with 3,4-DFCur. Cur and 3,4-DFCur are Michael Acceptors; their cytotoxic activities could be attributed to the inhibition of glutathione S-transferase, a detoxification enzyme, by forming glutathionyl adducts. The decreased inhibitory capacities of 3,4-DFCur were due to the effect of fluorine which results in the unfavorable formation of reactive radicals and an increase in lipophilicity.
 Conclusions: Curcumin and 3,4-difluorinated curcumin were completely synthesized in 53% and 72% yields. The synthetic procedure is applicable for synthesizing curcumin derivatives bearing various substituents on the aromatic rings, i.e., not limited to methoxy (-OCH3) and hydroxy (- OH) groups. Unexpectedly, the presence of fluorines in 3,4-DFCur led to lower cytotoxic activities against cancer cell lines. Our results provide greater insight on the structure-activity relationship of curcumin analogues against cancer cell lines.
Highlights
Introduction: Natural curcuminoids isolated from turmeric (Curcuma longa L.) have been limited in number and the amount of substrates evaluated in semi-synthetic processes and biological tests
The desired Cur and 3,4-DFCur agents were synthesized in moderate yields by treatment of 4-hydroxy-3methoxybenzaldehyde or 3,4-difluorobenzaldehyde with pentane-2,4-dione in the presence of boron oxide, n-butylamine, and tri-n-butyl borate in ethyl acetate at 70 oC for 4-4.5 hours (Table 1)
The IC50 values are expressed as mean ± standard deviation (SD) of results from three replicates
Summary
Natural curcuminoids isolated from turmeric (Curcuma longa L.) have been limited in number and the amount of substrates evaluated in semi-synthetic processes and biological tests. We employed an aldol condensation between 4-hydroxy-3-methoxybenzaldehyde/3,4difluorobenzaldehyde and pentane-2,4-dione to synthesize the desired curcumin (Cur) and 3,4difluorinated curcumin (3,4-DFCur). Their half-maximal inhibitory concentration (IC50) values against HepG2, LU-1 and KB cancer cell lines were assessed. The anticancer activities of Cur and 3,4DFCur against HepG2, LU-1 and KB cancer cell lines were determined using MTT method. Curcumin (Cur), a ingredient isolated from turmeric (Curcuma longa L.), was studied as early as the 1940s This polyphenol was shown to have anti-inflammatory, antioxidant and wound-healing effects. Experimental findings on curcumin and pharmacophore modeling of its structure have revealed the substituents on
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