Abstract
Hepatocellular carcinoma (HCC) is nowadays the sixth cause of tumour-related deceases worldwide, estimated to become the third in Western countries by 2030. New drugs for HCC treatment still have many adverse effects. Several lines of evidence indicate that plant metabolites offer concrete opportunities for developing new therapeutic strategies for many diseases, including cancer. We previously reported that ethyl acetate extract of a spontaneous edible plant harvested in Apulia, Crithmum maritimum, significantly inhibited cell growth in HCC cells. By 1H-NMR spectroscopy, here we show that Crithmum maritimum ethyl acetate extract counteracts the Warburg effect, by reducing intracellular lactate, inhibits protein anabolism, by decreasing amino acid level, and affects membrane biosynthesis by lowering choline and phosphocholine. Also, we observed an effect on lipid homeostasis, with a reduction in triglycerides, cholesterol, monounsaturated fatty acids (MUFA), and diunsaturated fatty acids (DUFA), and an increase in polyunsaturated fatty acids (PUFA). Taken together, these data demonstrate that Crithmum maritimum-induced cytostasis is exerted through a multi-effect action, targeting key metabolic processes in HCC cells. Overall, our findings highlight the role of Crithmum maritimum as a promising tool for the prevention and the improvement of the therapeutic options for HCC and other types of tumours.
Highlights
Characterised the effect of the ethyl acetate extract of Crithmum maritimum on the metabolic profile in two Hepatocellular carcinoma (HCC) cell lines, Huh[7] and HepG2, by analysing, with 1NMR-spectroscopy, cell pellets and cell culture media
We evaluated by 1H-NMR spectroscopy the effect of Crithmum maritimum ethyl acetate extract on metabolite profile in two HCC cell lines (Huh[7] and HepG2)
We have previously shown that Crithmum maritimum ethyl acetate extract exerts an evident cytostatic effect in HCC cell lines[9]
Summary
Characterised the effect of the ethyl acetate extract of Crithmum maritimum on the metabolic profile in two HCC cell lines, Huh[7] and HepG2, by analysing, with 1NMR-spectroscopy, cell pellets (aqueous and lipid fractions) and cell culture media. Our results show that ethyl acetate extract of Crithmum maritimum substantially changes the metabolic profile in both HCC cell lines. By using 1H-NMR, we analysed the metabolite profile of Crithmum maritimum powder and the other three fractions obtained by hexane, methanol, and ethanol extraction.
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