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Query: UMLS:C0546837 (esophageal cancer)
 8,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor growth is dependent on angiogenesis, which is thought to be mediated through growth factors, such as transforming growth factor-alpha (TGF-alpha) and -beta (TGF-beta), epidermal growth factor (EGF), and basic fibroblast growth factor (bFGF), produced by tumor cells. We have developed a model system for tumor angiogenesis in vitro: tube formation of human omentum microvascular endothelial (HOME) cells in type I collagen gels when these cells are co-cultured with tumor cells. Exogenously added TGF-alpha induced tube formation of HOME cells in collagen gel. In contrast, TGF-beta inhibited the TGF-alpha-induced tube formation of endothelial cells. We investigated whether tube formation could be induced in HOME cells in collagen gel when the HOME cells were co-cultured with three esophageal cancer cell lines, TE1, TE2, and TE5. TE1 and TE2 cells expressed both TGF-alpha and TGF-beta mRNA, but the level of TGF-alpha mRNA in TE2 was found to be much lower than in TE1 cells. TE5 did not express either TGF-alpha or TGF-beta. The tube formation of HOME cell was induced when they were co-cultured with TE1 cells, while both TE2 and TE5 cell lines induced tube formation at much lower rates than TE1. TE1-induced tube formation of HOME cells was specifically blocked by co-administration of anti-TGF-alpha-antibody, but not by anti-bFGF-antibody. The present study suggests that, in our model system, esophageal tumor angiogenesis is partly controlled by TGF-alpha, possibly through a paracrine pathway.
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PMID:A model system for tumor angiogenesis: involvement of transforming growth factor-alpha in tube formation of human microvascular endothelial cells induced by esophageal cancer cells. 138 Aug 4

Thirty-five consecutive esophageal cancer patients were treated by a combination regimen COPU (CTX 600-800 mg/m2, IV, on days 1, 8, 15 at 8 PM; VCR 1.4 mg/m2, IV, on days 1, 8, 15, at 8 AM; PDD 30-40 mg/m2, IV drip on days 2, 3; UFT 4#, tid, PO. for three weeks; three weeks as a cycle and 2 cycles as a course) in our hospital from 1986 to 1987. The treatment results showed that 23 (65.7%) gave PR, 3 (8.6%) MR, 8 (22.8%) no change and 1 (2.9%) progressing. The overall response rate (CR + PR) was 65.7%. The toxicity and side effects were analyzed. The data show that COPU regimen is one of the satisfactory first line combination chemotherapy regimens at present in the management of esophageal cancer.
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PMID:[COPU regimen in the treatment of 35 esophageal cancers]. 250 93

The ability of cancer cells to initiate specific fibroblast reactions may subsequently determine tumor evolution. In the present study we examined the coordinated expression of transforming growth factor-beta-1 (TGF-beta1), its signaling receptors, and its downstream mediator-connective tissue growth factor (CTGF)--and their impact on tumor progression and fibrogenesis in esophageal carcinomas. Messenger ribonucleic acid (mRNA) expression of TGF-beta1, CTGF, TGF-beta receptor subtype I ALK5 (TbetaR-IALK5), and TGF-beta receptor type II (TbetaR-II) was studied by Northern blot analysis in esophageal cancer and the normal esophagus. By means of immunohistochemistry and Western blot analysis, the respective proteins were localized in the tissue samples and the protein content was quantitated. Northern blot analysis revealed 3-fold and 4-fold increases (p < 0.05) in TGF-beta1 and CTGF mRNA levels, respectively, in esophageal cancer in comparison with normal controls, whereas TbetaR-I mRNA levels were significantly decreased and TbetaR-II mRNA levels were unchanged in the cancer samples. Immunostaining revealed results similar to those seen on the RNA level. TGF-beta1 and CTGF immunoreactivity were increased, TbetaR-II was unchanged, and TbetaR-IALK5 immunoreactivity was decreased. CTGF immunoreactivity was mainly present in the stroma surrounding the cancer cells but was also present in the cancer cells. The degree of fibrosis was different in squamous and adenocarcinomas and was significantly related to CTGF mRNA expression levels. The presence of CTGF in squamous cell carcinomas was associated with longer survival, whereas in adenocarcinomas it influenced survival negatively. The findings indicate that TGF-beta signaling is disturbed in esophageal cancer. CTGF, a downstream effector of TGF-beta action, differentially influences the composition of tumor microenvironment and distinct cell-matrix interactions in the two histological types of esophageal carcinoma, resulting in differences in tumor progression and patient survival.
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PMID:Connective tissue growth factor gene expression alters tumor progression in esophageal cancer. 1191 Apr 73

There is extensive evidence that cyclooxygenase-2 (COX-2) plays a significant role in the process of carcinogenesis in different tumors. Although most of these evidences derive from studies in colorectal cancer, data obtained from recent studies strongly suggest that COX-2 might play an important role in the neoplastic transformation of esophageal epithelium. NSAIDs use is associated with a reduction of the risk of developing esophageal cancer, including adenocarcinoma. Up-regulation of COX-2 has been reported in different stages of the carcinogenic sequence leading to esophageal adenocarcinoma. Treatment with selective COX-2 inhibitors has been shown to reduce the damage induced by acid and pepsin in the esophageal mucosa of rabbits, the incidence of tumors in an animal model of esophageal adenocarcinoma and to decrease proliferation and induce apoptosis in both Barrett's epithelial and adenocarcinoma cells. The first clinical study has shown that selective inhibition of COX-2 is followed by a significant decrease of cell proliferation in human Barrett's metaplasia. Clinical trials have begun in order to assess the efficacy of selective COX-2 inhibitors to prevent the progression of Barrett's esophagus to adenocarcinoma. Bile salts and acid are likely to early induce COX-2 in this sequence, although other factors, such as proinflammatory cytokines, inducible nitric oxide synthase and growth factors such as TGF-beta, are potential COX-2 inducers in the esophagus. Further studies are necessary in order to better understand factors involved in COX-2 up-regulation and mechanisms of COX-2 associated tumorigenesis in the esophagus.
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PMID:COX-2 inhibition in esophagitis, Barrett's esophagus and esophageal cancer. 1455 27

Transforming growth factor (TGF)-beta has profound effects on epithelial cell differentiation and is capable of modulating the response to exposure to ionizing radiation. We recently reported that TGF-beta downregulates c-myc mRNA expression and inhibits the growth of OE-33 esophageal carcinoma cells in vitro. These studies investigate the role of TGF-beta in the in vitro radiation response of OE-33 and four other human esophageal cancer cell lines. TGF-beta enhanced radioresistance of OE-33 cells, but did not affect the radiosensitivity of either of the two other adenocarcinoma cell lines BIC1 and SEG1 or of squamous carcinomas KYSE and OE-21. The TGF-beta enhanced radioresistance phenotype was associated with induced G0/G1 cell cycle arrest and upregulation of the G1 cyclin-dependent kinase inhibitor p27kip1 as well as downregulation of c-myc protein expression. Comparison of the relative radiosensitivities of untreated cells suggested that OE-33 (SF2 = 0.71) cells were inherently more radioresistant than BIC1 or SEG1 cells (SF2 = 0.6 and 0.56, respectively). Conditioned medium obtained from unirradiated OE-33 cells enhanced radioresistance compared with fresh medium. This enhancement was abrogated by preincubation of conditioned medium with a neutralizing anti-TGF-beta antibody suggesting endogenous TGF-beta production by OE-33 cells. Enzyme-linked immunoabsorbent assays revealed that exposure to ionizing radiation increased TGF-beta production in all five cell lines. These results suggest that TGF-beta acts as an endogenous, radiation-inducible radioresistance factor in OE-33 esophageal carcinoma cells.
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PMID:Transforming growth factor-beta is an endogenous radioresistance factor in the esophageal adenocarcinoma cell line OE-33. 1461 31

Hedgehog, BMP/TGFbeta, FGF, WNT and Notch signaling pathways constitute the stem cell signaling network, which plays a key role in a variety of processes, such as embryogenesis, maintenance of adult tissue homeostasis, tissue repair during chronic persistent inflammation, and carcinogenesis. Sonic hedgehog (SHH), Indian hedgehog (IHH) and Desert hedgehog (DHH) bind to PTCH1/PTCH or PTCH2 receptor to release Smoothened (SMO) signal transducer from Patched-dependent suppression. SMO then activates STK36 serine/threonine kinase to stabilize GLI family members and to phosphorylate SUFU for nuclear accumulation of GLI. Hedgehog signaling activation leads to GLI-dependent transcriptional activation of target genes, such as GLI1, PTCH1, CCND2, FOXL1, JAG2 and SFRP1. GLI1-dependent positive feedback loop combined with PTCH1-dependent negative feedback loop gives rise to transient proliferation of Hedgehog target cells. Iguana homologs (DZIP1 and DZIP1L) and Costal-2 homologs (KIF7 and KIF27) are identified by comparative integromics. SHH-dependent parietal cell proliferation is implicated in gastric mucosal repair during chronic Helicobacter pylori infection. BMP-RUNX3 signaling induces IHH expression in surface differentiated epithelial cells of stomach and intestine. Hedgehog signals from epithelial cells then induces FOXL1-mediated BMP4 upregulation in mesenchymal cells. Hedgehog signaling is frequently activated in esophageal cancer, gastric cancer and pancreatic cancer due to transcriptional upregulation of Hedgehog ligands and epigenetic silencing of HHIP1/HHIP gene, encoding the Hedgehog inhibitor. However, Hedgehog signaling is rarely activated in colorectal cancer due to negative regulation by the canonical WNT signaling pathway. Hedgehog signaling molecules or targets, such as SHH, IHH, HHIP1, PTCH1 and GLI1, are applied as biomarkers for cancer diagnostics, prognostics and therapeutics. Small-molecule inhibitors for SMO or STK36 are suitable to be used for treatment of Hedgehog-dependent cancer.
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PMID:Hedgehog signaling pathway and gastrointestinal stem cell signaling network (review). 1708 4

Radiotherapy is an effective treatment for some esophageal cancers, but the molecular mechanisms of radiosensitivity remain unknown. RUNX3, a novel tumor suppressor of gastric cancer, functions in transforming growth factor (TGF)-beta-dependent apoptosis. We obtained paired samples from 62 patients with advanced esophageal cancers diagnosed initially as T3 or T4 with image diagnosis; one sample was obtained from a biopsy before presurgical radiotherapy, and the other was resected in surgical specimens after radiotherapy. RUNX3 was repressed in 67.7% cases of the pretreatment biopsy samples and 96.7% cases of the irradiated, resected samples. The nuclear expression of RUNX3 was associated with radiosensitivity and a better prognosis than cytoplasmic or no RUNX3 expression (P<0.003); cytoplasmic RUNX3 expression was strictly associated with radioresistance. RUNX3 was downregulated and its promoter was hypermethylated in all radioresistant esophageal cancer cell lines examined. Stable transfection of esophageal cancer cells with RUNX3 slightly inhibited cell proliferation in vitro, enhanced the antiproliferative and apoptotic effects of TGF-beta and increased radiosensitivity in conjunction with Bim induction. In contrast, transfection of RUNX3-expressing cells with a RUNX3 antisense construct or a Bim-specific small interfering RNA induced radioresistance. Treatment with 5-aza-2'-deoxycytidine restored RUNX3 expression, increased radiosensitivity and induced Bim in both control and radioresistant cells. These results suggest that RUNX3 silencing promotes radioresistance in esophageal cancers. Examination of RUNX3 expression in pretreatment specimens may predict radiosensitivity, and induction of RUNX3 expression may increase tumor radiosensitivity.
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PMID:Frequent silencing of RUNX3 in esophageal squamous cell carcinomas is associated with radioresistance and poor prognosis. 1738 82

To identify the genes and molecular functional pathways involved in esophageal cancer, we analyzed the gene expression profile of esophageal tumor tissue from patients having family history of esophageal cancer by cDNA microarray. Three hundred and fifty differentially expressed genes (26 up-regulated and 324 down-regulated) were identified. Genes involved in humoral immune response (PF4), extracellular matrix organization (COL4A4), metabolism of xenobiotics (EPHX1), TGF-beta signaling (SMAD1) and calcium signaling pathways (VDAC1) were down-regulated and genes involved in regulation of actin cytoskeleton (WASL), neuroactive ligand receptor interaction (GRM3), Toll-like receptor (CD14), B-cell receptor (IFITM1) and insulin signaling pathways (FOXO1A) were up-regulated. Validation of differential expression of subset of genes by QRT-PCR and tissue microarray in familial and non-familial cases showed no significant difference in expression of these genes in two groups suggesting familial clustering occurs as result of sharing of common environmental factors. Gene expression profiling of clinical specimens from well characterized populations that have familial clustering of cancer identified molecular mechanism associated with progression of esophageal cancer.
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PMID:Molecular profiling to identify molecular mechanism in esophageal cancer with familial clustering. 1936 Feb 86

GLI family members are zinc-finger transcription factors, which are involved in embryogenesis and carcinogenesis through transcription regulation of GLI1, CCND1, CCND2, FOXA2, FOXC2, RUNX2, SFRP1, and JAG2. GLI1 transcription is upregulated in a variety of human tumors, such as basal cell carcinoma, lung cancer, breast cancer, gastric cancer, pancreatic cancer, and esophageal cancer. Hedgehog signaling via Smoothened cascade and receptor tyrosine kinase (RTK) signaling via PI3K-AKT cascade induce stabilization of GLI1 protein, whereas G-protein coupled receptor (GPCR) signaling via Gs-PKA cascade induces degradation of GLI1 protein. Here we report integrative genomic analyses of the GLI1 gene. The GLI1 and ARHGAP9 genes are located in a tail-to-tail manner with overlapping 3'-ends. ARHGAP9 was expressed in bone marrow, spleen, thymus, monocytes, and macrophages, whereas GLI1 was almost undetectable in normal tissues or cells with predominant ARHGAP9 expression. Because overlapping sense and anti-sense transcripts are annealed to each other to give rise to double-stranded RNAs functioning as endogenous RNAi, GLI1 expression might be negatively regulated by ARHGAP9 transcripts. GLI-binding element with one base substitution at the +1589-bp position from the transcriptional start site (TSS) of the human GLI1 gene was completely conserved in chimpanzee GLI1, mouse Gli1, and rat Gli1 genes. Ten Smad-binding elements, double E-boxes for EMT regulators, and double N-boxes for HES/HEY family members within intron 1 of the human GLI1 gene were also conserved in mammalian GLI1 orthologs. GLI1 transcription is upregulated due to Hedgehog, and TGFbeta signaling activation, whereas GLI1 transcription is downregulated due to Snail/Slug, and Notch signaling activation. Together these facts indicate that Hedgehog, TGFbeta, and RTK signals positively regulate GLI1, and that Notch, and GsPCR signals negatively regulate the GLI1.
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PMID:Integrative genomic analyses on GLI1: positive regulation of GLI1 by Hedgehog-GLI, TGFbeta-Smads, and RTK-PI3K-AKT signals, and negative regulation of GLI1 by Notch-CSL-HES/HEY, and GPCR-Gs-PKA signals. 1951 67

An effective way to decrease the mortality rate in esophageal cancer (EC) is to provide diagnosis and treatment for early EC patients. Identification of molecular markers would be helpful for early diagnosis. In this study, we obtained the gene expression profile of early esophageal squamous cell carcinoma (ESCC) and further screened molecular markers that might be useful in early diagnosis and treatment. RNA extracted from EC cancer tissues and matched normal esophageal epithelium of four EC patients were analyzed using whole-genome microarrays. Welch's t-test was applied to normalized data to identify genes expressed differently between cancer and normal tissues. Significantly differentially expressed genes were classified according to gene ontology. Gene mapping software was used to identify pathways involving the genes that were significantly changed. Among the 54,613 gene transcripts and variants analyzed, 367 were differentially expressed between early ESCC and normal esophageal epithelium (Welch's t-test, P<0.01). Specifically, 104 genes were significantly upregulated and 263 were downregulated in early ESCC, compared with normal esophageal epithelium. Functional gene sets expressed differentially between ESCC cancer and normal tissues included those involved in gene transcription, cell proliferation, motility, apoptosis, and metabolism (specifically, pathways of cell apoptosis, the cell cycle, G protein, and TGF-beta signal transduction). We conclude that a large number of genes are involved in the occurrence and development of early ESCC and take part in various cell processes and pathways. The present findings contribute theoretical information for further screening of genes related to early ESCC.
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PMID:Expression profiles of early esophageal squamous cell carcinoma by cDNA microarray. 1973 50


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