The aglycons of the most abundant anthocyanins in food, cyanidin (cy) and delphinidin (del), were found to inhibit the growth of human tumor cells in vitro in the micromolar range, whereas malvidin (mv), a typical anthocyanidin in grapes, was less active. The aglycons preferentially inhibited the growth of the human vulva carcinoma cell line A431, overexpressing the epidermal growth-factor receptor (EGFR). The glycosides cyanidin-3-beta-D-galactoside (cy-3-gal, idaein) and malvidin-3-beta-D-glucoside (mv-3-glc, oenin) did not affect tumor cell growth up to 100 microM. The tyrosine kinase activity of the EGFR, isolated from A431 cells, was potently inhibited by cy and del. Mv and the glycosides cy-3-gal and mv-3-glc were inactive up to 100 microM. In intact cells the influence of anthocyanin treatment on downstream signaling cascades was investigated by measuring the phosphorylation of the transcription factor Elk-1. A431 cells were transiently transfected with a luciferase reporter gene construct whose expression is controlled by MAP kinase pathway dependent phosphorylation of a GAL4-Elk-1 fusion protein. We found that cy and del inhibited the activation of the GAL4-Elk-1 fusion protein in the concentration range where growth inhibition was observed. Thus, the anthocyanidins cy and del are potent inhibitors of the EGFR, shutting off downstream signaling cascades. These effects might contribute substantially to the growth-inhibitory properties of these natural food constituents.
6-Alkyl-12-formyl-5,6-dihydroindolo[2,1-alpha]isoquinolines have been shown to inhibit the growth of human mammary carcinoma cells by an unknown mode of action. One of the possible molecular targets is the tubulin system which is involved in cell division. A number of 5,6-dihydroindolo[2,1-alpha]isoquinolines with methoxy or hydroxy groups in positions 3, 9, and/or 10 and various functional groups such as formyl, acetyl, cyano, alkylimino, and alkylamino in position 12 were synthesized and evaluated for both inhibition of tubulin polymerization and cytostatic activity in MDA-MB 231 and MCF-7 human breast cancer cells. In the tubulin polymerization assay, only hydroxy derivatives were active, whereas both the hydroxy derivatives and some of the methoxy compounds inhibited cell growth. In order to establish a correlation between the inhibition of tubulin polymerization and cytostatic activity in the hydroxy series, two of the most active racemates were separated into the enantiomers. In both assays, the relative potencies of the hydroxy derivatives were in a similar order. Highest activity was found for the (+)-isomers of 6-propyl- (6b) and 6-butyl-12-formyl-5,6-hydro-3,9-dihydroxyindolo[2,1-alpha]isoquino line (6c) with IC50 values of 11 +/- 0.4 and 3.1 +/- 0.4 microM, respectively, for the polymerization of tubulin at 37 degrees C (colchicine: 2.1 +/- 0.1 microM). The active hydroxy derivatives displaced 40-70% of [3H]colchicine from its binding site in the tubulin at concentrations 10-fold higher than that of colchicine. The data suggest that hydroxy-substituted indolo[2,1-alpha]isoquinolines bind to the colchicine-binding site and inhibit the polymerization of tubulin. This action can be assumed to be responsible for the cytostatic activity of the hydroxy derivatives and might also contribute to the antitumor effect of the corresponding methyl ethers.
The aim of this study was the identification of the essential structural elements in the 12-formyl-5,6-dihydroindolo[2, 1-a]isoquinoline system required for the inhibition of tubulin polymerization which is understood to be the predominant mode of action of this class of cytostatics. Since 2-phenylindole forms the main fragment of this tetracycle, it was used as the basic structure and modified with respect to the number and positions of the oxygen functions in the aromatic rings. Further modifications related to the nitrogen, which was both replaced by oxygen and sulfur and alkylated. All derivatives were tested for cytostatic activity in human breast cancer cells (MDA-MB 231, MCF-7) and inhibition of tubulin polymerization. The spectrum of activity ranged from inactive to IC50 values of 35 nM (cell growth inhibition) and 1.5 microM (tubulin polymerization), respectively, for the most active derivative 3e (3-formyl-6-methoxy-2-(4-methoxyphenyl)indole). Although the correlation between antiproliferative activity and inhibition of tubulin polymerization was not very pronounced, all of the potent cytostatic agents in this study disrupted microtubule assembly completely at the standard concentration of 40 microM. By fluorescence microscopy it was demonstrated that the derivative 3e degrades the cytoskeleton in a similar fashion as colchicine does leading to the condensation of the microtubules around the nucleus after treatment. The comparison between hydroxy and methoxy derivatives revealed a striking difference between the 2-phenylindole derivatives and the indoloisoquinolines. In the 2-phenylindole series, the methoxy compounds were much more effective than the free phenols, whereas in the tetracyclic system the effect of the hydroxy derivatives exceeded that of the methylated compounds by 1 order of magnitude. Preliminary studies on the binding mode showed that both the 2-phenylindole derivatives and the indoloisoquinolines bind to the colchicine site on tubulin.
A number of 2-phenylindole derivatives with one hydroxy group in the meta or para position of the phenyl ring and a second one in position 5, 6, or 7 of the indole nucleus were synthesized. In addition, different alkyl groups were introduced into positions 1 and 3 of the heterocycle. The influence of these structural variations on the binding affinity for the calf uterine estrogen receptor was studied. A prerequisite for the binding is the presence of an alkyl group at the nitrogen. Favorable are a hydroxy group located in the para position of the phenyl ring and short alkyl chains both in position 1 and 3 of the indole. The highest relative binding affinity (RBA) values (e.g., 33 for 20b, 21 for 24b, 23 for 35b) are close to that of hexestrol (RBA = 25, estradiol = 100). Depending on the positions of the oxygen functions and size of the alkyl residues, the indole derivatives behaved as strong estrogens (20c, 24c, 35c) or impeded estrogens with antagonistic activity (23c, 29c, 30c, 31c, 40c, 44c) in the immature mouse. Some of these derivatives (20c, 23c, 24c, 29c, 30c, 31c) were tested for their inhibitory effect on dimethylbenzanthracene-induced hormone-dependent mammary tumors of the rat. Both types exhibited a strong growth inhibition with a reduction of the average tumor area at appropriate dosage. A mode of action involving the estrogen receptor system is assumed.
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