TNF-related apoptosis-inducing ligand cooperates with NSAIDs via activated Wnt signalling in (pre)malignant colon cells.

TNF-related apoptosis-inducing ligand (TRAIL) receptor agonistic agents and non-steroidal anti-inflammatory drugs (NSAIDs) are interesting agents for the chemoprevention and treatment of colorectal cancer. We investigated whether NSAIDs sensitize colon cancer and adenoma cell lines and ex vivo cultured human adenomas to recombinant human (rh)TRAIL. Involvement of the crucial Wnt signalling pathway in the sensitization of colon cancer cells was examined. Five colon cancer and two adenoma cell lines, human ex vivo adenomas and normal colonic epithelium were treated with aspirin or sulindac combined with rhTRAIL. Apoptosis levels, expression of intracellular proteins and TRAIL receptor membrane expression were assessed. Ls174T cells stably transfected with an inducible dominant negative TCF-4 (dnTCF-4) construct served to analyse the role of Wnt pathway activation. Both rhTRAIL-sensitive and -resistant colon cancer cell lines were strongly sensitized to rhTRAIL by aspirin (maximum enhancement ratio, 7.1). Remarkably, in adenoma cell lines sulindac enhanced rhTRAIL-induced apoptosis most effectively (maximum enhancement ratio, 2.5). Although membrane TRAIL receptor expression was not affected by NSAIDs, caspase-8 activation was enhanced by combinational treatment. Several proteins from different biological pathways were affected by NSAIDs, indicating complex mechanisms of sensitization. Elimination of TCF-4 completely blocked the sensitizing effect in colon cancer cells. In ex vivo adenomas the combination of sulindac and rhTRAIL increased apoptosis from 18.4% (sulindac) and 17.8% (rhTRAIL) to 28.0% (p = 0.003 and p = 0.005, respectively). It was concluded that NSAID-induced sensitization to rhTRAIL requires TCF-4 activity. Thus, the combination of TRAIL-receptor agonistic agents and NSAIDs is a potentially attractive treatment option for (pre)malignant tumours with constitutively active Wnt signalling, such as colorectal tumours.

Determination of TP53 mutation is more relevant than microsatellite instability status for the prediction of disease-free survival in adjuvant-treated stage III colon cancer patients.

PURPOSE: Microsatellite instability (MSI), TP53 mutation, and KRAS mutation status have been reported as prognostic factors in colon cancer. Most studies, however, have included heterogeneous groups of patients with respect to cancer stage. We determined the prognostic relevance of high-frequency MSI (MSI-H), TP53 mutations, and KRAS mutations in a well-defined group of patients with stage III colon cancer (N = 391), randomly assigned for adjuvant treatment with fluorouracil-based chemotherapy. METHODS: Three hundred ninety-one tumor specimens were available. MSI was determined in 273 specimens, and mutation analyses of TP53 and KRAS were performed in 220 and 205 specimens, respectively. RESULTS: In a univariate analysis, MSI-H (44 of 273; 16%) was associated with a longer disease-free survival (DFS; P = .038), but in a multivariate model adjusting for nodal involvement, histology, invasion, and grade of tumor, the association of MSI status with DFS did no longer reach statistical significance, though the risk estimate for microsatellite stability versus MSI-H tumors did not change much. Mutant TP53, found in 116 (53%) of 220 tumors, was associated with a shorter DFS, both in univariate (P = .009) and multivariate analyses (P = .018), whereas KRAS mutations (58 of 205; 28%) did not show any prognostic significance. CONCLUSION: Both mutant TP53 and MSI-H seem to be prognostic indicators for disease-free survival, but only TP53 retains statistical significance after adjusting for clinical heterogeneity. Thus, in adjuvantly treated patients with stage III colon cancer, presence or absence of a TP53 mutation should be considered as a better predictor for DFS than MSI status.