UMLS:C0009402 - FACTA Search

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Query: UMLS:C0009402 (colorectal cancer)
53,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DCC (deleted in colorectal cancer) is postulated to function as transmembrane receptor for the axon and cell guidance factor netrin-1. We report here that the DCC cytoplasmic domain binds to proteins encoded by mammalian homologs of the Drosophila seven in absentia (sina) gene, as well as Drosophila Sina. Sina has a critical role in R7 photoreceptor development and shows upward of 85% amino acid identity with its mammalian homologs (termed Siahs), but the function of the Sina/Siah proteins has not been defined. We sought, therefore, to characterize further their interaction with DCC. Immunofluorescence studies suggested the Sina/Siah proteins localized predominantly in the cytoplasm and in association with DCC. DCC was found to be ubiquitinated and the Sina/Siah proteins regulated its expression. Proteasome inhibitors blocked the effects of Sina/Siah on DCC, and the Sina/Siah proteins interacted with ubiquitin-conjugating enzymes (Ubcs). A mutant Siah protein lacking the amino-terminal Ubc-binding sequences complexed with DCC, but did not degrade it. The in vivo interaction between Sina/Siah and DCC was confirmed through studies of transgenic Drosophila lines in which DCC and Sina were ectopically expressed in the eye. Taken together, the data imply that the Sina/Siah proteins regulate DCC and perhaps other proteins via the ubiquitin-proteasome pathway.
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PMID:Mammalian homologs of seven in absentia regulate DCC via the ubiquitin-proteasome pathway. 933 32

The Drosophila seven in absentia (sina) gene was initially discovered because its inactivation leads to R7 photoreceptor defects. Recent data indicate that Sina binds to the Sevenless pathway protein Phyllopod, and together they mediate degradation of Tramtrack, a transcriptional repressor of R7 cell fate. Independent studies have shown that Sina and its highly related mammalian homologues Siah-1 and Siah-2 bind to the DCC (deleted in colorectal cancer) protein and promote its proteolysis via the ubiquitin-proteasome pathway. To determine the roles of mammalian Siahs in proteolysis and their interactions with target proteins, we sought to define Siah-1 domains critical for regulation of DCC. Mutant Siah-1 proteins, harboring missense mutations in the carboxy (C)-terminal domain analogous to those present in Drosophila sina loss-of-function alleles, failed to promote DCC degradation. Point mutations and deletion of the amino (N)-terminal RING finger domain of Siah-1 abrogated its ability to promote DCC proteolysis. In the course of defining Siah-1 sequences required for DCC degradation, we found that Siah-1 is itself rapidly degraded via the proteasome pathway, and RING domain mutations stabilized the Siah-1 protein. Siah-1 was found to oligomerize with itself and other Sina and Siah proteins via C-terminal sequences. Finally, evidence that endogenous Siah-1 regulates DCC proteolysis in cells was obtained through studies of an apparent dominant negative mutant of Siah-1, as well as via an antisense approach. The data indicate that the Siah-1 N-terminal RING domain is required for its proteolysis function, while the C-terminal sequences regulate oligomerization and binding to target proteins, such as DCC.
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PMID:Siah-1 N-terminal RING domain is required for proteolysis function, and C-terminal sequences regulate oligomerization and binding to target proteins. 985 95

A number of potential molecular targets for novel anticancer drug discovery have been identified in cell cycle control mechanisms. Prominent among these are the regulatory proteins, cyclins and their effector counterparts the cyclin dependent kinases (CDKs). Aberrant expression of these proteins, particularly cyclins involved in the G1 phase of the cell cycle, namely the D and E cyclins, has been associated with a variety of human cancers, including breast and colorectal cancer, B-lymphoma, prostate and non-small cell lung cancer. Inhibition of CDK kinase activity has turned out to be the most productive strategy for the discovery and design novel anticancer agents specifically targeting the cell cycle. Other potentially useful cell cycle areas for exploration include cyclin-CDK interactions, Cdc25 activation of cyclin-CDK complexes, ubiquitin-mediated proteolysis of cyclins, cell cycle check point kinases like Chk1, and recently identified oncogenic cell cycle-related aurora and polo-like kinases. Potent specific inhibitors have been identified that bind to the ATP site of CDKs, mainly cyclin B-CDK1, cyclin A-CDK2, and cyclin D-CDK4 complexes, and inhibit kinase activity. X-ray crystallographic data of CDKs, and their complexes with inhibitors have played a major role in the success of drug discovery efforts. Combinatorial chemistry, highthroughput screening, functional genomics and informatics have also contributed. CDK inhibitors currently under investigation include flavopiridol, olomoucine, roscovitine, puvalanol B, the dihydroindolo[3,2-d][1]benzazepinone kenpaullone, indirubin-3 -monoxime and novel diaminothiazoles such as AG12275. The anticancer therapeutic potential of CDK inhibitors has been demonstrated in preclinical studies, and Phases I and II clinical trials in cancer patients are currently underway.
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PMID:Cell cycle molecular targets in novel anticancer drug discovery. 1078 88

Inducible activation of nuclear factor-kappaB (NF-kappaB) inhibits the apoptotic response to chemotherapy and irradiation. Activation of NF-kappaB via phosphorylation of an inhibitor protein IkappaB leads to degradation of IkappaB through the ubiquitin-proteasome pathway. We hypothesized that inactivation of proteasome function will inhibit inducible NF-kappaB activation, thereby increasing levels of apoptosis in response to chemotherapy and enhancing antitumor effects. To assess the effects of proteasome inhibition on chemotherapy response, human colorectal cancer cells were pretreated with the dipeptide boronic acid analogue PS-341 (1 microM) prior to exposure to SN-38, the active metabolite of the topoisomerase I inhibitor, CPT-11. Inducible activation of NF-kappaB and growth response were evaluated in vitro and in vivo. Effects on p53, p21, p27 and apoptosis were determined. Pretreatment with PS-341 inhibited activation of NF-kappaB induced by SN-38 and resulted in a significantly higher level of growth inhibition (64-75%) compared with treatment with PS-341 alone (20-30%) or SN-38 alone (24-47%; P < 0.002). Combination therapy resulted in a 94% decrease in tumor size compared with the control group and significantly improved tumoricidal response to treatment compared with all treatment groups (P = 0.02). The level of apoptosis was 80-90% in the treatment group that received combination treatment compared with treatment with single agent alone (10%). Proteasome inhibition blocks chemotherapy-induced NF-kappaB activation, leading to a dramatic augmentation of chemosensitivity and enhanced apoptosis. Combining proteasome inhibition with chemotherapy has significant potential to overcome the high incidence of chemotherapy resistance. Clinical studies are currently in development to evaluate the role of proteasome inhibition as an important adjuvant to systemic chemotherapy.
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PMID:Enhanced chemosensitivity to CPT-11 with proteasome inhibitor PS-341: implications for systemic nuclear factor-kappaB inhibition. 1132 13

Camptothecin (CPT) induces down-regulation of topoisomerase I (TOP1) via an ubiquitin/26S proteasome pathway. Studies using a panel of breast and colorectal cancer cell lines as well as primary nontransformed and oncogene-transformed cells have demonstrated that CPT-induced down-regulation exhibits a high degree of heterogeneity. In general, nontransformed cells are much more proficient in CPT-induced TOP1 down-regulation than their transformed counterparts. Among the breast and colorectal cancer cell lines, there was a general correlation between the extent of CPT-induced TOP1 down-regulation and CPT resistance. The breast cancer cell line ZR-75-1, the most sensitive to CPT, was completely defective in CPT-induced TOP1 down-regulation, whereas the breast cancer cell line BT474, the least sensitive to CPT, exhibited effective CPT-induced TOP1 down-regulation. The 26S proteasome inhibitor MG132 was shown to inhibit CPT-induced down-regulation of TOP1 in BT474 cells and selectively sensitized BT474 but not ZR-75-1 cells to CPT-induced cytotoxicity and apoptosis. In the aggregate, these results suggest that CPT-induced down-regulation of TOP1 could be an important parameter for determining CPT sensitivity/resistance in tumor cells. Analysis of the levels of TOP1 cleavable complexes, SUMO-1-TOP1 conjugates, and ubiquitin-TOP1 conjugates in ZR-75-1 and BT474 cells has suggested that the heterogeneity of CPT-induced down-regulation of TOP1 in tumor cells is at least in part attributable to altered regulation of a process(es) downstream from the TOP1 cleavable complex.
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PMID:Ubiquitin/26S proteasome-mediated degradation of topoisomerase I as a resistance mechanism to camptothecin in tumor cells. 1147 35

Ubiquitin-conjugated proteins in human colorectal cancer tissues were analyzed by the immunoprecipitation with the antibody FK2 against conjugated ubiquitin followed with SDS-PAGE. In these immunoprecipitable proteins, a 38-kDa protein was abundant in the tumor regions but almost absent in the adjacent normal regions in 17/26 patients, thus we attempted to purify it. Using immunoaffinity chromatography with the antibody FK2 followed by gel filtration and SDS-PAGE, approximately 10 pmol of this protein was separated from 34 g of the pooled cancerous tissue and transferred onto a PVDF membrane. The 38-kDa protein was further digested with Achromobacter protease I, resulting in several peptide fragments. Amino acid sequences of these peptides showed complete sequence identity to those derived from either ubiquitin or phosphoglycerate mutase-B, suggesting that the 38-kDa protein is monoubiquitinated phosphoglycerate mutase-B, whose calculated mass is 37,369 Da. Western blot using an antibody against phosphoglycerate mutase-B revealed the presence of the 38-kDa protein in the anti-ubiquitin immunoprecipitates derived from the tumor regions, but not from normal counterparts. In addition, part of non-ubiquitinated phosphoglycerate mutase-B (29 kDa) was also found in the anti-ubiquitin immunoprecipitates, whose levels were higher in the tumor regions than in the adjacent normal regions. These results suggest that monoubiquitination of phosphoglycerate mutase-B as well as formation of a noncovalent complex containing ubiquitin and phosphoglycerate mutase-B increases in colorectal cancer and novel modification of phosphoglycerate mutase-B might have a pathophysiological role.
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PMID:Purification and identification of monoubiquitin-phosphoglycerate mutase B complex from human colorectal cancer tissues. 1174 60

Constitutive activation of the Wnt/beta-catenin pathway is thought to play a central role in colorectal carcinogenesis. A key output in this pathway is the nuclear level of beta-catenin, which determines the transcription of T-cell transcription factor (TCF)/lymphoid enhancer-binding factor-responsive target genes. In unstimulated cells, beta-catenin is continuously targeted for ubiquitin-dependent degradation, which depends on its NH(2)-terminal phosphorylation by glycogen synthase kinase-3beta (GSK-3beta) in association with a multiprotein complex. Previously, we have shown that the nonsteroidal anti-inflammatory drugs (NSAIDs) aspirin and indomethacin down-regulate beta-catenin/TCF signaling in colorectal cancer cells. Here, we demonstrate that the reduced signaling activity of beta-catenin in response to NSAIDs is a result of its enhanced phosphorylation. In SW948 and SW480 colorectal cancer cells, phosphorylation of NH(2)-terminal S/T residues time dependently increased in response to aspirin and indomethacin. In contrast, in 293 cells, NSAID treatment failed to induce detectable levels of beta-catenin phosphorylation but resulted in degradation of beta-catenin within 24 h in serum-deprived cells. The aspirin-induced beta-catenin phosphorylation in colon cancer cells preceded down-regulation of beta-catenin/TCF signaling, suggesting a causal relationship. Inhibition of this process by LiCl pointed to participation of GSK-3beta. Unexpectedly, GSK-3beta was also phosphorylated upon aspirin treatment in six colorectal cancer cell lines. We present evidence that inactivation of a phosphatase rather than stimulation of a kinase or interference with the ubiquitination machinery may be the cause of the stabilized phosphorylation. The data emphasize the importance of beta-catenin in the pathogenesis of colorectal cancer and define it as a key target for anticancer therapeutics.
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PMID:Reduction of beta-catenin/T-cell transcription factor signaling by aspirin and indomethacin is caused by an increased stabilization of phosphorylated beta-catenin. 1281 29

The use of Skp1/Cull 1/F box (SCF) ubiquitin-conjugation machinery as a potential knockout tool offers a means of eradicating disease-causing proteins. Here a chimeric F box protein (CFP) was engineered to achieve selective eradication of pathogenic beta-catenin in colorectal cancer. We show that CFP specifically searches for and subsequently links the abnormal beta-catenin to the cellular SCF ubiquitination complex. Introduction of the CFP to colorectal cancer cells induced targeted ubiquitination and proteolytic degradation of nuclear and cytoplasmic free beta-catenin while preserving its normal cellular adhesion counterpart. Elimination of pathogenic beta-catenin suppressed constitutive Wingless/Wnt signaling and inhibited in vitro and in vivo tumor cell growth. This study demonstrates a practical utility of a SCF-based knockout system as a tool in targeting an abnormal protein that affects growth and transformation.
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PMID:Eradication of pathogenic beta-catenin by Skp1/Cullin/F box ubiquitination machinery. 1456 21

The impact that modern molecular biology has had on elucidating the genetic basis of neoplasia is best illustrated by the paradigm of sporadic and hereditary colon cancer. The clinical and hereditary picture of the familial adenomatous polyposis syndrome (FAP) implied the existence of a single gene that regulates the formation of adenomatous polyps, the precursor for most colorectal cancers. The identification of an interstitial deletion on chromosome 5q in a patient with Gardner's variant of FAP combined with classic linkage analysis facilitated the positional cloning of the adenomatous polyposis coli (APC) gene in 1991. FAP is caused by germline mutations in the APC gene. Somatic mutations in the APC gene are an early event in colorectal tumorigenesis, and can be detected in the majority of colorectal tumors. APC consists of 8,535 bp spanning 21 exons (16 translated exons) and encodes a 2,861 amino acid protein that is expressed in specific epithelial and mesenchymal cells of several fetal and adult human tissues. The APC protein is a large multidomain protein with a molecular mass of 300 kD. The best-known function of the APC protein is the Wnt-1 signaling pathway. Binding Wnt to its receptor, frizzled), leads to the inactivation of the glycogen synthase kinase 3 beta in a cytoplasmic complex with APC, beta-catenin, axin and components of the ubiquitin ligation machinery. This leads to a decrease in beta-catenin phosphorylation and inhibits its proteasomal degradation. As a consequence, increased beta-catenin is available to bind transcription factors leading to the activation of proliferative genes. In addition, APC has recently emerged as a multifunctional protein that can affect a variety of fundamental cellular processes, in particular cytoskeletal regulation and chromosomal stability. Improved understanding of both the genetics and biology of APC may, in time, culminate in preventive or therapeutic strategies specifically targeted at reducing the burden of colorectal cancer.
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PMID:[Familial adenomatous polyposis syndrome (FAP): pathogenesis and molecular mechanisms]. 1468 80

Accumulation of ubiquitin (Ub) has been documented in various cancers. The levels of the two forms of Ub, i.e. free ubiquitin (FUb) and multi-ubiquitin chain (MUC) were measured in colorectal cancers and in matched normal colonic tissues in 43 patients. When compared to normal colonic tissues, the levels of both FUb and MUC were significantly higher in the cancerous tissues (P < 0.01, respectively). The level of FUb was related to the depth of invasion (P < 0.05). The level of MUC was related to blood vessel invasion and lymphatic vessel invasion (P < 0.05). The levels of FUb and MUC had no correlation with histological grade, lymph node metastasis, liver metastasis or relapse-free survival. We conclude that the levels of FUb and MUC were up-regulated in colorectal cancer and were correlated with the pathological findings.
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PMID:Quantitative analysis of free ubiquitin and multi-ubiquitin chain in colorectal cancer. 1519 23

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