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Curcumine tegen darmkanker.*
Het kruid Curcumine, de gele worstelstok van de plant curcuma
longa, lijkt zeer effectief te zijn in de voorkoming en bestrijding van kanker.
Time- and dose-dependent
effects of curcumin on gene expression in human colon cancer cells
Marjan J van Erk, Eva Teuling, Yvonne
CM Staal, Sylvie Huybers, Peter J van Bladeren, Jac MMJG Aarts and Ben van Ommen
Abstract (provisional)
Background
Curcumin is a spice and a
coloring food compound with a promising role in colon cancer prevention.
Curcumin protects against development of colon tumors in rats treated with a
colon carcinogen, in colon cancer cells curcumin can inhibit cell proliferation
and induce apoptosis, it is an anti-oxidant and it can act as an
anti-inflammatory agent. The aim of this study was to elucidate mechanisms and
effect of curcumin in colon cancer cells using gene expression profiling.
Methods
Gene expression changes in
response to curcumin exposure were studied in two human colon cancer cell lines,
using cDNA microarrays with four thousand human genes. HT29 cells were exposed
to two different concentrations of curcumin and gene expression changes were
followed in time (3, 6, 12, 24 and 48 hours). Gene expression changes after
short-term exposure (3 or 6 hours) to curcumin were also studied in a second
cell type, Caco-2 cells.
Results
Gene expression changes
(>1.5-fold) were found at all time points. HT29 cells were more sensitive to
curcumin than Caco-2 cells. Early response genes were involved in cell cycle,
signal transduction, DNA repair, gene transcription, cell adhesion and
xenobiotic metabolism. In HT29 cells curcumin modulated a number of cell cycle
genes of which several have a role in transition through the G2/M phase. This
corresponded to a cell cycle arrest in the G2/M phase as was observed by flow
cytometry. Functional groups with a similar expression profile included genes
involved in phase-II metabolism that were induced by curcumin after 12 and 24
hours. Expression of some cytochrome P450 genes was downregulated by curcumin in
HT29 and Caco-2 cells. In addition, curcumin affected expression of
metallothionein genes, tubulin genes, p53 and other genes involved in colon
carcinogenesis.
Conclusions
This study has extended knowledge on pathways or processes already reported to be affected by curcumin (cell cycle arrest, phase-II genes). Moreover, potential new leads to genes and pathways that could play a role in colon cancer prevention by curcumin were identified.Journal of Carcinogenesis 2004, 3:8 (published 12 May 2004)