Abstract

BackgroundGlycyrrhetinic acid (GA) derivatives had shown not only cytotoxicity but also could trigger apoptosis in various human cancer cell lines. Moreover, cinnamic acid (CA) and its phenolic analogues as potent antitumor agents were employed in the design of anti-tumor drugs. To further improve the anti-tumor activity of GA and CA derivatives, a series of novel compounds were designed and synthesized using GA and CA derivatives fragments.ResultsThe result showed that all the novel glycyrrhetinic acid-cinnamoyl (GA–CA) hybrids presented higher antitumor activity on the tumor cell lines of HepG2, HT-29, Hela and lower cytotoxicity on three non-tumor cells lines MDCK, HY926, H9C2 than the parent compounds (IC50 > 50 μM). It was worth noting that 8a had a superior cytotoxicity effect on Hela cells (IC50 = 8.54 μM) than on other cancer cell lines (IC50 > 15 μM). And it also indicated that 8a showed lower cytotoxicity (IC50 > 27 μM) towards MDCK, HY926 and H9C2 cells than cisplatin (DDP, IC50 < 10 μM). Moreover, according to the acute toxicity, it could be indicated that the LD50 of 8a exceeded 3.0 g/kg by oral administration in mice. The further research using Giemsa, H33342 staining, flow cytometric analysis and caspase-3 assay showed that 8a could cause Hela cell damage, nuclei lysis and apoptosis. In addition, the structure–activity relationships of these hybrids were briefly discussed.ConclusionsCompared with GA, target compounds demonstrated better anti-tumor activity, among which 8a was the most active one. What’s more, structure–activity relationship analysis also revealed that hybrids with trans olefinic bond group show higher antitumor activity than those without olefinic bond, such as 1a > 1b, 6a > 2b, 8a > 3b, 9a > 4b. In addition, it was found that the methoxy substituent might enhance selectivity of GA–CA hybrids towards regular non-cancerous cells MDCK, HY926 and H9C2, such as 4a, 6a, 7a, 8a. However, there might be less relationship between the cytotoxicity and the quantity, position of methoxy moiety. Hence, it is urgent need to synthesize efficient, low toxicity and multi-target anti-tumor compounds based on the structure combination principle.

Highlights

  • Glycyrrhetinic acid (GA) derivatives had shown cytotoxicity and could trigger apoptosis in various human cancer cell lines

  • To further improve the antitumor effect of GA and cinnamic acid (CA) derivatives and find a series of efficient, low toxicity, multi-target glycyrrhetinic acid-cinnamoyl (GA–CA) hybrids, we integrated the GA and CA derivatives fragments into one molecule via an ester bond based on structural combination principle

  • Our experimental findings suggested that all GA–CA hybrids showed better cytotoxicity than the parent materials in tested cancer cells

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Summary

Introduction

Glycyrrhetinic acid (GA) derivatives had shown cytotoxicity and could trigger apoptosis in various human cancer cell lines. Cinnamic acid (CA) and its phenolic analogues as potent antitumor agents were employed in the design of anti-tumor drugs. To further improve the anti-tumor activity of GA and CA derivatives, a series of novel compounds were designed and synthesized using GA and CA derivatives fragments. CA and its phenolic analogues were employed as the active scaffold in the design of anti-tumor drugs for their potent cytotoxicity [13, 18,19,20,21]. To further improve the antitumor effect of GA and CA derivatives and find a series of efficient, low toxicity, multi-target GA–CA hybrids, we integrated the GA and CA derivatives fragments into one molecule via an ester bond based on structural combination principle

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