UMLS:C0699790 - FACTA Search

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Query: UMLS:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heat shock proteins have been shown to protect cells from a variety of stressful conditions, including hyperthermia, oxidative and DNA damage, serum withdrawal, and a variety of chemicals. HSP27, HSP70, and HSP90 have been shown to downregulate different aspects of apoptosome assembly. TRAIL is a member of the TNF family of ligands and is a promising anti-cancer agent. It has been shown to be nontoxic to most normal cell types, while it is a potent killer of many different cancer cells. TRAIL engages both the receptor-mediated (extrinsic) and the mitochondria-initiated (intrinsic) cascades. We tested whether heat shock affects TRAIL-induced apoptosis in different cancer cells. TRAIL treatment does not induce HSP27, HSP70, or HSP90 levels. Nonetheless, when treated with TRAIL for 3 h after release from heat shock, the human colon cancer cell line HCT116 is protected from apoptosis whereas the human colon cancer cell line SW480 is not. This pattern is consistent with the previously observed behavior of HCT116 as Type II cells that depend on mitochondrial signaling and SW480 as Type I, whose TRAIL-induced death is not sensitive to inhibition of caspase 9. Moreover, the failure of heat shock to protect SW480 cells is not due to a lack of HSP70 or HSP90 upregulation. HSP70 and HSP90 are induced 3 h after release from heat shock, whereas HSP27 is induced much later. Thus, the observed protective effect against TRAIL is probably due to the anti-apoptotic effects of HSP70 and HSP90. These results further illustrate interactions between TRAIL receptor signaling and the intrinsic cell death pathway and have practical implications for the potential use of TRAIL and hyperthermia in cancer therapy.
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PMID:Heat shock protects HCT116 and H460 cells from TRAIL-induced apoptosis. 1246 Jun 47

Flavopiridol is one of the first cyclin-dependent kinase inhibitors undergoing clinical tests. We found that the combination treatment of flavopiridol (100-500 nM) with tumor necrosis factor (TNF)-alpha (10 ng/ml) induced a rapid and eminent apoptosis, 20 +/- 5% in 6-h treatment, in a human non-small cell lung carcinoma cell line, A549, as determined by the increase of sub-G(1) fraction in flow cytometry. A similar observation was also made in human colon cancer cell lines, HCT-116 and HCT-15, but not in Rat2, a rat fibroblast cell line. In A549 cells, the cytotoxic synergy by the combination treatment involved the activation of caspase-1, caspase-3, and caspase-8 and generated huge chromosomal degradation. The treatment schedules were so important that only the treatments of flavopiridol concomitantly with or followed by TNF-alpha showed the pronounced apoptosis in A549 cells. Prior treatment of TNF-alpha inhibited the apoptosis by the following combination treatment, leading to little cell death. Yet, such inhibition was reversed when 100 microM of 5,6-dichloro-1-beta-D-ribofuranosyl-benzimidazole, a transcription inhibitor, was present during the TNF-alpha pretreatment, suggesting that the inhibitory pretreatment of TNF-alpha might involve antiapoptotic gene expression at the transcriptional level. TNF-alpha treatment resulted in nuclear factor (NF)-kappa B activation, revealed by NF-kappa B activity reporter assay. In contrast, flavopiridol was found to inhibit the NF-kappa B-dependent gene transcription, which might give an explanation for the synergistic effect of flavopiridol with TNF-alpha. TNF-related apoptosis-inducing ligand (TRAIL; 100 ng/ml) also caused a rapid and strong cytotoxic synergy with flavopiridol. In contrast to TNF-alpha, however, all of the treatment sequences supported the synergy by TRAIL and flavopiridol. The combination of flavopiridol with TNF-alpha or TRAIL may be of use for the development in cancer therapy.
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PMID:Rapid induction of apoptosis by combination of flavopiridol and tumor necrosis factor (TNF)-alpha or TNF-related apoptosis-inducing ligand in human cancer cell lines. 1256 5

Thapsigargin (TG), by inducing perturbations in cellular Ca(2+) homeostasis, can induce apoptosis, but the molecular mechanisms remain to be fully elucidated. We have recently reported that TG-induced apoptosis appears to involve the DR5-dependent apoptotic pathway that cross talks with the mitochondrial pathway via TG-induced Bid cleavage. In this study, we have utilized Bax-proficient and -deficient HCT116 human colon cancer cells to investigate the effect of Bax deficiency on TG-induced apoptosis and TG regulation of the DR5 and mitochondrial pathways. Our results indicate that Bax-deficient cells are less sensitive to undergo apoptosis following TG treatment. Our results further demonstrate that TG-induced apoptosis is coupled with DR5 upregulation and caspases 8 and 3 activation, as well as Bid cleavage in both Bax-proficient and -deficient cells, although caspase 3 activation was reduced in Bax-deficient cells. TG also promoted the release of cytochrome c into cytosol and caspase 9 activation in Bax-proficient cells but not in Bax-deficient cells. These findings suggest that although Bax is not absolutely required for death receptor (DR)-dependent signals, it appears to be a key molecule in TG-regulated mitochondrial events. Bax-deficient cells were relatively more resistant to Apo2L/TRAIL than the Bax-proficient counterparts. However, the combination of Apo2L/TRAIL and TG was more effective in mediating apoptosis in both Bax-proficient and -deficient cells and that was coupled with activation of caspases 8 and 3. Although both agents in combination also induced cytochrome c release into cytosol and caspase 9 activation in Bax-proficient cells, these events were abrogated in Bax-deficient cells. Our results thus suggest that the combination of Apo2L/TRAIL and TG appears to bypass the Bax deficiency-induced defects in the mitochondrial (intrinsic) pathway by engaging the DR5-dependent apoptotic signals (extrinsic pathway).
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PMID:Effect of Bax deficiency on death receptor 5 and mitochondrial pathways during endoplasmic reticulum calcium pool depletion-induced apoptosis. 1273 Jun 81

We demonstrate that PS-341, a small molecule inhibitor of the proteasome, markedly sensitizes resistant prostate, colon, and bladder cancer cells to TNF-like apoptosis-inducing ligand (TRAIL)-induced apoptosis irrespective of Bcl-xL overexpression. PS-341 treatment by itself does not affect the levels of Bax, Bak, caspases 3 and 8, c-Flip or FADD, but elevates levels of TRAIL receptors DR4 and DR5. This increase in receptor protein levels is associated with the ubiquitination of the DR5 protein. When PS-341 is combined with TRAIL, the levels of activated caspase 8 and cleaved Bid are substantially increased. In Bax-negative TRAIL-resistant HC-4 colon cancer cells, the combination of PS-341 and TRAIL overcomes the block to activation of the mitochondrial pathway and causes SMAC and cytochrome c release followed by apoptosis. Similarly, murine embryonic fibroblasts lacking Bax undergo apoptosis when exposed to the combination of PS-341 and TRAIL; however, fibroblasts lacking Bak are significantly resistant. Taken together, these findings indicate that PS-341 enhances TRAIL-induced apoptosis by increasing the cleavage of caspase 8, causing Bak-dependent release of mitochondrial proapoptotic proteins.
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PMID:The proteasome inhibitor PS-341 overcomes TRAIL resistance in Bax and caspase 9-negative or Bcl-xL overexpressing cells. 1290 78

Cell-mediated immune responses are an essential aspect of tumour-host interactions in colorectal cancers. The progression from precancerous (adenomatous) colon polyps to malignant colorectal cancer depends on a complex pathway involving the activities of activated T lymphocytes. The immune response is initiated when either cytotoxic T lymphocyte (CTL) CD8+ cells or CD4+ T-helper cells recognize the antigen from a human cancer cell. The cell-mediated response is largely initiated and controlled by the actions of various cytokines, which exert profound effects on T cell proliferation, cell-cell adhesion, apoptosis, and host immunity. The existence of an immune response to colon cancer is supported by studies of immunological treatments in humans and transplantable murine cancer models in animals. IL-2, IL-12, IFN-gamma, TNF-alpha, and TRAIL are implicated in enhancing cytotoxic and apoptotic effects in response to colon adenomas. In addition, growth factors, oncogenic cytokines and immunosuppressive factors may play a crucial role in the growth and survival of premaligant colonic tissue. This review aims to increase knowledge of the immunological mechanisms underlying colon tumour progression in the hopes that a greater understanding of the molecular pathways will lead to improved methods of prognosis and treatment.
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PMID:Colon polyps and cytokines: emerging immunological mechanisms. 1450 22

Activation of MAP kinases is involved in various cellular processes, including immunoregulation, inflammation, cell growth, cell differentiation, and cell death. To investigate the role of p38 MAP kinase activation in the signaling pathway of TRAIL-mediated apoptosis, we compared TRAIL-mediated MAP kinase activation in TRAIL-susceptible human colon cancer cell line DLD1 and TRAIL-resistant DLD1/TRAIL-R cells. TRAIL-mediated activation of ERK occurred in both cell lines. In contrast, both DLD1 and DLD1/TRAIL-R cells showed no obvious JNK activation after treatment with TRAIL. Interestingly, TRAIL-mediated activation of p38 MAP kinases was observed in DLD1 cells but not in DLD1/TRAIL-R cells. However, activation of p38 MAP kinases was observed in both DLD1 and DLD1/TRAIL-R cells after treatment with anisomycin. Furthermore, inhibiting activated p38 MAP kinases with known inhibitors or with an adenovector expressing dominant negative p38alpha did not block TRAIL-mediated cell death in DLD1 cells. Moreover, activation of p38 MAP kinases by adenovectors expressing constitutive MKK3 or MKK6 (Ad/MKK3bE or Ad/MKK6bE) did not induce cell death in either DLD1 or DLD1/TRAIL-R cell lines. Our results suggest that activation of p38 MAP kinases does not play a major role in TRAIL-mediated apoptosis in DLD1 cells and that lack of TRAIL-mediated p38 MAP kinase activation may not be the mechanism of TRAIL-resistance in DLD1/TRAIL-R cells.
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PMID:Lack of p38 MAP kinase activation in TRAIL-resistant cells is not related to the resistance to TRAIL-mediated cell death. 1510 6

Gene transfer vectors based on the adeno-associated virus (AAV) are used for various experimental and clinical therapeutic approaches. In the present study, we demonstrate the utility of rAAV as a tumoricidal agent in human colorectal cancer. We constructed an rAAV vector that expresses tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL/Apo2L) and used it to transduce human colorectal cancer cells. TRAIL belongs to the TNF superfamily of cytokines that are involved in various immune responses and apoptotic processes. It has been shown to induce cell death specifically in cancer cells. Transduction with AAV.TRAIL gave rise to rapid expression of TRAIL, followed by induction of apoptosis, which could be inhibited by the caspase inhibitor z-VAD.fmk, in several human colon cancer cell lines. The apoptotic mechanism included activation of caspase-3, as well as cytochrome c release from mitochondria. The outgrowth of human colorectal tumors grown in mice was completely blocked by transduction with AAV.TRAIL in vitro, while in vivo transduction significantly inhibited the growth of established tumors. AAV vectors could provide a safe method of gene delivery and offer a novel method of using TRAIL as a therapeutic protein.
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PMID:AAV-encoded expression of TRAIL in experimental human colorectal cancer leads to tumor regression. 1499 25

The majority of colorectal cancers have lost/inactivated the p53 tumor suppressor gene. Using isogenic human colon cancer cells that differ only in their p53 status, we demonstrate that loss of p53 renders tumor cells relatively resistant to the topoisomerase I inhibitor, irinotecan. Whereas irinotecan-induced up-regulation of the proapoptotic proteins PUMA and Noxa requires p53, we find that irinotecan inhibits Janus kinase 2 (JAK2)-signal transducer and activator of transcription 3 and 5 (STAT3/5) signaling in both p53-proficient and p53-deficient tumor cells. We show that irinotecan inhibits JAK2-STAT3/5-dependent expression of survival proteins (Bcl-x(L) and XIAP) and cooperates with Apo2 ligand/tumor necrosis factor-related apoptosis-inducing ligand (Apo2L/TRAIL) to facilitate p53-independent apoptosis of colon cancer cells. Whereas xenografts of p53-deficient colon cancer cells are relatively resistant to irinotecan compared with their p53-proficient counterparts, combined treatment with irinotecan and Apo2L/TRAIL eliminates hepatic metastases of both p53-proficient and p53-deficient cancer cells in vivo and significantly improves the survival of animals relative to treatment with either agent alone. Although the synergy between chemotherapy and Apo2L/TRAIL has been ascribed to p53, our data demonstrate that irinotecan enhances Apo2L/TRAIL-induced apoptosis of tumor cells via a distinct p53-independent mechanism involving inhibition of JAK2-STAT3/5 signaling. These findings identify a novel p53-independent channel of cross-talk between topoisomerase I inhibitors and Apo2L/TRAIL and suggest that the addition of Apo2L/TRAIL can improve the therapeutic index of irinotecan against both p53-proficient and p53-deficient colorectal cancers, including those that have metastasized to the liver.
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PMID:Elimination of hepatic metastases of colon cancer cells via p53-independent cross-talk between irinotecan and Apo2 ligand/TRAIL. 1560 80

The death ligand TRAIL (Apo2L) has potential for cancer therapy, since tumour cells are thought to be more sensitive than normal cells. We investigated whether sensitivity to TRAIL increases during the adenoma to carcinoma transition of colorectal carcinogenesis. Under the same culture conditions, we compared the extent of TRAIL-induced apoptosis in four premalignant adenoma and three carcinoma cell lines. Although TRAIL induced some apoptosis in adenoma cultures, the carcinoma cell lines were significantly more sensitive (P<0.001). This finding was recapitulated in an in vitro model of tumour progression in which conversion of the adenoma cell line AA/C1 to a tumorigenic phenotype was associated with increased TRAIL sensitivity (P<0.001). Increased TRAIL sensitivity during colorectal carcinogenesis has been previously attributed to changes in the balance between TRAIL receptors TRAIL-R1 and -R2 and "decoy" receptors TRAIL-R3 and -R4 during malignant progression. To address this, cell surface receptor expression was measured by flow cytometry. In summary, during colorectal carcinogenesis, there is a marked increase in sensitivity to TRAIL-induced apoptosis associated with progression from benign to malignant tumour that could be exploited for colon cancer therapy, but alterations in cell surface TRAIL receptor expression may not be the primary reason for this change.
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PMID:Increased sensitivity to TRAIL-induced apoptosis occurs during the adenoma to carcinoma transition of colorectal carcinogenesis. 1568 28

Progress in the treatment of colon cancer depends on the development of target-based molecules built on an improved understanding of the molecular biology of the disease. Defining end points for chemotherapy resistance is needed as drug resistance develops quickly and patients demonstrate variation in response to chemotherapy. Many techniques that measure a marker's preponderance have been developed including biochemical, immunohistochemical, genomics, proteomics or a combination thereof. However, standardization of these techniques that measure either genes or their protein products is urgently needed. This article reviews several markers (TS,TP, DPD, FT, EGFR, VEGF, CD44v6, TRAIL, microsatellite instability, allelic deletions, oncogenes and suppressor genes [c-myc, Ki-Ras, p53, p21, Topo I, Topo IIalpha, Fos, hMLH1, Bcl-2/Bax and MDR1], MDR-related proteins [Pgp, MRP and LRP], genomic polymorphisms [XPD, ERCC1, GSTP1 and TS 3 -UTR] and COX-;2) that influence DNA metabolism, DNA damage, programmed cell death, the immune or vascular system, or lead to mutations. When combined together and tested by newly developed genomic and proteomic approaches, many of these markers provide a more sensitive indicative predictor of response than when evaluated separately or by older biochemical, immunohistologic or morphologic methods. A global approach involving the simultaneous testing of several predictive multimarkers will provide critical information for improving chemotherapy to alleviate suffering from this disease.
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PMID:Molecular markers that predict response to colon cancer therapy. 1593 13

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