Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The inducing effect of transforming growth factor-beta (TGF-B) on carcinoembryonic antigen (CEA) secretion and the cellular expression of CEA and CEA crossreactive glycoproteins (CEA-GLY) was examined from a panel of human colonic cell lines with different phenotypic classification. This panel included carcinomas with dissimilar differentiation characteristics and metastatic behavior, and premalignant adenomas derived from colonic polyps. A great degree of heterogeneity was observed in the endogenous levels of CEA secretion and the cellular expression of CEA and CEA-GLY species. The response profiles of the different cell lines to TGF-B treatment were also found to be heterogenous. However, TGF-B was able to induce CEA secretion and up-modulated the cellular expression of CEA and CEA-GLY from a majority of the cells tested. More importantly, TGF-B was able to exert these effects on carcinoma cells that secrete or express minimal or nondetectable amounts of these glycoproteins. These biologic modifying effects of TGF-B may have potential in augmenting the efficacy of CEA as a colon cancer marker, and in antibody-directed radioimaging and therapeutics. Further investigation in vivo in an experimental animal model system is warranted.
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PMID:Induction of carcinoembryonic antigen and its crossreactive gene products in human colonic adenomas and carcinomas by transforming growth factor-beta. 233 36

We have recently characterized the growth-inhibitory and cellular responses [carcinoembryonic antigen (CEA) secretion, protein secretion, protein expression, fibronectin and laminin synthesis] of the human colon carcinoma MOSER cell line to transforming growth factor-beta (TGF-beta) (Cancer Res., 47: 2950, 1987; 48: 4059, 1988). We have also recently isolated a subline (MOSER R2) from the parental MOSER cells which, unlike the parental line, is relatively resistant to the growth-inhibitory effect of TGF-beta (Biochem. Biophys. Res. Commun., 150: 711, 1988). We now report on the characterization of the cellular responses of this resistant MOSER R2 subline to TGF-beta and compare its responses to that of the highly growth-inhibition-sensitive MOSER cell line. In view of the reported relationship between CEA expression and differentiation in colon cancer and the ability of colon-derived substrata material to modulate the phenotypic properties of colon cancer cells, additional characterization and direct comparison of the effects of TGF-beta on the two cell lines were also performed with respect to (a) cellular expression of CEA and CEA cross-reactive glycoproteins; and (b) colon-derived substrata material. Unlike the growth-inhibition-sensitive MOSER cells, TGF-beta had no effects on fibronectin/laminin synthesis nor on the cellular morphology of the resistant MOSER R2 cells. TGF-beta was also unable to modulate protein secretion and deposition of substrata material by these cells. However, several other responses of the resistant cells to TGF-beta were found to be similar to that of the sensitive MOSER cells. These responses include: (a) a prolonged and stable secretion of CEA; (b) a prolonged and stable induction of elevated cellular expression of CEA and CEA cross-reactive glycoproteins; and (c) enhancement of the expression of three cellular proteins with molecular weights corresponding to 52,000, 48,000, and 42,000. We further report that the differences observed in the responses to TGF-beta in the two cell lines were not due to differences in TGF-beta binding or other receptor parameters such as the expression of distinct TGF-beta receptor subspecies.
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PMID:Diverse cellular responses elicited from human colon carcinoma cells by transforming growth factor-beta. 253 53

The recently identified cyclin-dependent kinase inhibitor p15INK4B is localized to a region on chromosome 9p21 frequently deleted in human tumors. Previous evidence has pointed to a related gene, p16INK4A, as the principal target of this deletion. We report that in gliomas and, to a striking degree, in leukemias, the p15 gene is commonly inactivated in association with promoter region hypermethylation involving multiple sites in a 5'-CpG island. In some gliomas and all of the primary leukemias, this event occurs without alteration of the adjacent gene, p16INK4A. In other tumors, including lung, head and neck, breast, prostate, and colon cancer, inactivation of p15INK4B occurs only rarely and only with concomitant inactivation of p16. Aberrant methylation of p15INK4B is associated with transcriptional loss of this gene. Treatment with the demethylating agent 5-aza-2'-deoxycytidine leads to re-expression of p15 mRNA. In selected leukemia cell lines, p15 inactivation correlates with known resistance to the growth-suppressive effects of transforming growth factor-beta. These results suggest that p15INK4B is inactivated selectively in leukemias and gliomas and seems to constitute an important tumor suppressor gene loss in these neoplasms.
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PMID:Hypermethylation-associated inactivation indicates a tumor suppressor role for p15INK4B. 863 Oct 3

Recent work has shown that: 1) loss of transforming growth factor-beta response is associated with malignant progression, 2) maintenance of autocrine negative transforming growth factor-beta activity is a key impediment to malignant progression, and 3) the major mechanism for loss of RII expression in replication error-positive colorectal cancer patients is mutation of the poly A tract of the transforming growth factor-beta receptor type II (RII) gene resulting in the generation of a premature STOP codon. Major issues for the role of RII in cancer are identified as the determination of the penetrance of mechanisms of RII loss in non-replication error tumors and other types of malignancies in addition to colon cancer. Analysis of mechanism of RII loss may prove to have clinical use in defining the clinical course of subset of different types of malignancies and, in addition, it may result in the identification of new therapeutic targets and approaches for some subsets of cancers.
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PMID:The type II transforming growth factor-beta receptor as a tumor-suppressor gene. 886

Trefoil peptides are a family of small proteins expressed by goblet cells that are secreted onto the apical gastrointestinal mucosal surface, where they are present in high concentrations. These peptides appear to both protect the epithelium and promote healing after injury. However, the factors regulating the expression and secretion of these proteins contributing to mucosal defense have not been characterized. To determine the mechanisms controlling production of trefoil peptides, the human colon cancer-derived model cell line HT-29 was exposed to a variety of potential secretagogues. Expression and secretion of human intestinal trefoil factor (hITF) as well as the intestinal apomucin MUC2 were assessed by Northern and Western blot analysis. Carbachol, an analog of acetylcholine, and the neuroendocrine peptides somatostatin and vasoactive intestinal polypeptide (VIP) stimulated increased expression of hITF mRNA within 5 min. These same factors stimulated parallel secretion of the hITF peptide, with maximal stimulation observed at concentrations ranging from 10(-6) M (carbachol and somatostatin) to 10(-7) M (VIP). Expression and secretion of hITF in response to carbachol, VIP, and somatostatin was independent of production of apomucin. hITF was not regulated by other neuroendocrine transmitters including histamine and substance P. Similarly, hITF expression and secretion was not modulated by peptide growth factors (epidermal growth factor, transforming growth factor-beta, and keratinocyte growth factor), cytokines [interleukin (IL)-1 beta, IL-2, IL-7, and IL-11], or arachidonic acid metabolites (prostaglandin E1/E2 and leukotriene B4). In conclusion, trefoil peptides appear to be integrated into mechanisms of mucosal defense and repair through the enteric neuroendocrine system and independent of the classical mucosal immune cytokine network.
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PMID:Trefoil peptide expression and secretion is regulated by neuropeptides and acetylcholine. 927 13

Recent animal studies demonstrate that prothymosin alpha 1 (ProT alpha) enhances the antitumor response by stimulation of mononuclear phagocyte functions. The present study was aimed at characterizing the in vitro effects by ProT alpha on blood monocytes from human colon cancer patients. Purified peripheral blood monocytes were studied in terms of tumor cytostatic ability and cytokine production after incubation with ProT alpha or interferon (rIFN-gamma) and transforming growth factor-beta (TGF beta), used as reference substances. SW620 colon carcinoma cells were used as tumor target cells in growth inhibition experiments. The level of baseline growth inhibitory activity of unstimulated patient's monocytes was significantly lower than that of normal monocytes. The defective antitumor activity of patient monocytes was associated with a higher production of the inhibitory monokines prostaglandin E2 (PGE2) and TGF beta. The stimulation of monocytes by ProT alpha and/or rIFN-gamma elevated the average antitumor activity in all donor groups. The ProT alpha-induced increase was associated with a significantly higher monocytic secretion of IL-1 beta and TNF-alpha. Moreover, the concentrations of TGF beta and PGE2 in the culture supernatants decreased significantly, when patient's monocytes were treated with ProT alpha and/or rIFN-gamma. Additionally, ProT alpha enhanced the diminished antitumor activity of TGF beta-treated normal monocytes. These results suggest that ProT alpha selectively regulates distinct functions of blood monocytes, the effect of this cytokine varying with the parameter and donor population examined. These data provide a rational and biological endpoint for further studies with ProT alpha as an activator of mononuclear function in colon cancer.
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PMID:Prothymosin alpha 1 effects, in vitro, on the antitumor activity and cytokine production of blood monocytes from colorectal tumor patients. 946 51

Mutations in the DNA mismatch repair (MMR) system lead to an instability of simple repetitive DNA sequences involved in several cancer types. This instability is reflected in a high mutation rate of microsatellites, and recent studies in colon cancer indicate that defects in MMR result in frequent frameshift mutations in mononucleotide repeats located in the coding regions of BAX and transforming growth factor-beta (TGF-beta) receptor genes. Circumstantial evidence suggests that the MMR defect may be involved in some lymphoid malignancies, although several allelotype analyses have concluded on the low level of microsatellite instability in acute lymphoblastic leukemias. To further evaluate the implication of MMR defects in leukemogenesis, we have studied a series of 98 children with acute lymphoblastic leukemia and 14 leukemic cell lines using several indicators of MMR defects. Microsatellite markers were compared between blast and normal DNA from the same patients and mutations were sought in mononucleotide repeat sequences of BAX and TGF-beta receptor II (TGF-beta RII). The absence of microsatellite instability (MI) and the absence of mutations in the genes examined from patient's leukemic cells contrasted with the observation that half of the cell lines displayed a high degree of MI and that three of seven of these mutator cell lines harbored mutations in BAX and/or TGF-beta RII. From these results we conclude that MMR defects are very uncommon in freshly isolated blasts but are likely to be selected for during the establishment of cell lines.
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PMID:Microsatellite instability and frameshift mutations in BAX and transforming growth factor-beta RII genes are very uncommon in acute lymphoblastic leukemia in vivo but not in cell lines. 963 21

The presence of inactivating mutations in the transforming growth factor-beta (TGF-beta) type II receptor (RII) gene in the colon cancer suggests that it may behave like a tumour suppressor gene. RII is mutated in the majority of colon tumours exhibiting widespread microsatellite instability, a characteristic generally referred to as the replication error phenotype (RER+). We investigated the association between RII mutations and various clinicopathological variables and genetic alterations in a large series of sporadic adenocarcinomas arising in the proximal colon. RII mutations were found in 17 per cent (36/210) of right-sided tumours and in 86 per cent (32/37) of those displaying RER+. They were associated with the absence of lymph node invasion (P = 0.04), poor histological differentiation (P = 0.006), and with a trend for improved patient survival. Tumours with an RII mutation also showed non-significant trends for a lower incidence of p53 protein overexpression and of p53, K-ras, and APC gene mutation compared with tumours with normal RII. These results indicate that right-sided colorectal tumours containing RII mutations resemble those with the RER+ phenotype in terms of their clinicopathological features and genetic alterations.
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PMID:Mutation of the transforming growth factor-beta type II receptor gene in right-sided colorectal cancer: relationship to clinicopathological features and genetic alterations. 966 4

The transforming growth factor-beta (TGF-beta) type II receptor (RII) is a colon cancer suppressor gene that is inactivated by mutation in 90% of human colon cancers arising via the microsatellite instability (MSI) pathway of carcinogenesis. To determine the pathophysiological consequence of RII mutations, we have determined the timing of their onset among 22 MSI human colon adenomas of varying stages. No RII mutations were detected in any early MSI adenoma, including all those with simple tubular or villous histology. The earliest RII mutation detected was in a region of high-grade dysplasia but was absent from the surrounding simple adenoma. Six additional RII mutations were all found in highly progressed adenomas that contained regions of frankly invasive adenocarcinoma. These RII mutations were detected in both the advanced adenomas and their adjacent regions of carcinoma. RII mutation is a late event in MSI adenomas and correlates tightly with progression of these adenomas to cancer.
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PMID:Mutation of the type II transforming growth factor-beta receptor is coincident with the transformation of human colon adenomas to malignant carcinomas. 967 77

Microsatellite instability of DNA samples of 79 sporadic colon cancer patients were analyzed. These samples were also screened to search mutations in the repeat sequences in the gene for the type II receptor of transforming growth factor-beta (TGF-beta RII) using polymerase chain reaction (PCR), electrophoresis with urea gel, and PCR-single strand conformation polymorphism (PCR-SSCP) method. The incidence of microsatellite instability, defined as severe replication error phenotype (RER) with microsatellite alterations in more than three loci, was 6%. Deletion and insertion of an A residue in the (A)10 region, which cause frameshift mutation, were found in four samples and their incidence in the samples with microsatellite instability was 80%. A novel nucleotide substitution of T for G at 1918, which causes missense mutation of arginine to leucine at codon 528, was found in a sample with microsatellite instability. The mutation at 1918 was in highly conservative amino acid residue.
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PMID:A novel missense mutation and frameshift mutations in the type II receptor of transforming growth factor-beta gene in sporadic colon cancer with microsatellite instability. 969 92


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