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: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The adenomatous polyposis coli gene is mutated in familial adenomatous polyposis and in sporadic colorectal tumours. The adenomatous polyposis coli gene product is a 300,000 mol. wt cytoplasmic protein that binds to at least three other proteins; beta-catenin, a cytoplasmic E-cadherin-associated protein; hDLG, a human homologue of the Drosophila discs large tumour suppressor protein and glycogen synthase kinase 3 beta, a mammalian homologue of the Drosophila ZESTE WHITE 3 protein. The adenomatous polyposis coli gene is highly expressed in the brain, suggesting that it may be involved in nerve function. Here we show that adenomatous polyposis coli is localized in the pericapillary astrocytic endfeet throughout the mouse central nervous system. Adenomatous polyposis coli is also localized in the astrocytic processes in the cerebellar granular layer, and displays concentrated expression in the terminal plexuses of the basket cell fibres around Purkinje cells. Adenomatous polyposis coli is further expressed in neuronal cell bodies and/or nerve fibres in the olfactory bulb, hippocampus, brain stem, spinal cord and dorsal root ganglia. Adenomatous polyposis coli is demonstrated to be co-localized with beta-catenin and/or hDLG in neurons and nerve fibres, but not in astrocytes. From these results, adenomatous polyposis coli is suggested to participate in a signal transduction pathway in astrocytes which is independent of beta-catenin and hDLG, and also in regulation of neuronal functions in association with beta-catenin and hDLG.
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PMID:Localization of the adenomatous polyposis coli tumour suppressor protein in the mouse central nervous system. 948 69

Neuroendocrine-Dlg (NE-Dlg) is a member of the discs-large-related (DLG) subfamily of the membrane-associated guanylate kinase-related protein family. Based on evidence from model systems, this protein appears to be critical for synaptogenesis, acting as a site-specific organizational center for integral membrane proteins and their downstream signaling molecules associated with the cytoskeleton. NE-Dlg also directly interacts with the colorectal tumor suppressor adenomatous polyposis coli, suggesting that it may play a role in regulating cell proliferation in epithelial cells. To explore the genetic control of NE-Dlg, we developed a physical map of the chromosome region containing DLG3, the locus encoding NE-Dlg. Using human-hamster radiation hybrid mapping panels, we mapped DLG3 to Xq13.1 and established a sequence-tagged site marker map of the surrounding region. We then developed a yeast artificial chromosome (YAC) contig for this region. Encompassing approximately 2.0 Mb contained within five overlapping YACs, this contig also includes the dystonia-parkinsonism syndrome (DYT3) locus. The close proximity of DLG3 to the DYT3 region suggests that the gene encoding NE-Dlg is a candidate locus for this neurological disorder.
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PMID:DLG3, the gene encoding human neuroendocrine Dlg (NE-Dlg), is located within the 1.8-Mb dystonia-parkinsonism region at Xq13.1. 959 20

Checkpoint controls ensure that events of the cell-division cycle are completed with fidelity and in the correct order. In budding yeast with a mutation in the motor protein dynein, the mitotic spindle is often misaligned and therefore slow to enter the neck between mother cell and budding daughter cell. When this occurs, cytokinesis (division of the cytoplasm into two) is delayed until the spindle is properly positioned. Here we describe mutations that abolish this delay, indicating the existence of a new checkpoint mechanism. One mutation lies in the gene encoding the yeast homologue of EB1, a human protein that binds the adenomatous polyposis coli (APC) protein, a tumour suppressor. EB1 is located on microtubules of the mitotic spindle and is important in spindle assembly. EB1 may therefore, by associating with microtubules, contribute to the sensor mechanism that activates the checkpoint. Another mutation affects Stt4, a phosphatidylinositol-4-OH kinase. Cold temperature is an environmental stimulus that causes misalignment of the mitotic spindle in yeast and appears to activate this checkpoint mechanism.
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PMID:A cytokinesis checkpoint requiring the yeast homologue of an APC-binding protein. 962 7

Apoptosis in human monocytic THP.1 tumour cells, induced by diverse stimuli, was accompanied by proteolytic cleavage of the adenomatous polyposis coli gene product (APC) and by sequential cleavage of the retinoblastoma susceptibility gene product (Rb). Cleavage of poly(ADP-ribose) polymerase (PARP), APC and the initial cleavage of Rb at the carboxy terminal region all occurred at a similar time, early in the apoptotic process. Subsequently, Rb underwent a secondary cleavage to 43 kDa and 30 kDa protein fragments. Two caspase inhibitors, benzyloxycarbonyl-Val-Ala-Asp (OMe) fluoromethyl ketone (Z-VAD.FMK) and acetyl-Tyr-Val-Ala-Asp chloromethyl ketone (YVAD.CMK), had markedly different effects on the induction of apoptosis. Z-VAD.FMK inhibited the primary and secondary cleavage of Rb, cleavage of APC and PARP, and apoptosis assessed by flow cytometry. In marked contrast, YVAD.CMK inhibited cleavage of APC and the secondary cleavage of Rb to the 43 kDa and 30 kDa protein fragments but did not inhibit the primary carboxy terminal cleavage of Rb, PARP proteolysis or apoptosis assessed by flow cytometry. These results suggest that different caspases are responsible for the cleavage of different substrates at different stages during the apoptotic process and that a caspase may either cleave APC directly or may be involved in the pathway leading to APC proteolysis. This is the first report suggesting that a cytoplasmic tumour suppressor gene (APC) may be cleaved by a caspase during apoptosis.
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PMID:The adenomatous polyposis coli protein and retinoblastoma protein are cleaved early in apoptosis and are potential substrates for caspases. 1020 Apr 66

The interaction between the adenomatous polyposis coli (APC) tumour suppressor and the microtubule-associated protein EB1 was examined. Immunoprecipitation suggested that APC and EB1 were not associated in cultures of HCT116 cells arrested in mitosis. The C-terminal 170 amino acids of APC, purified as a bacterial fusion protein, precipitated EB1 from cell extracts, significantly refining the location of the EB1 interaction domain in APC. In vitro phosphorylation of this fusion protein by either protein kinase A or p34cdc2 reduced its ability to bind to EB1. Expression of GFP fusions to C-terminal APC sequences lacking or including the APC basic domain but encompassing the EB1 binding region in SW480 cells revealed a microtubule tip association which co-localized with that of EB1. Expression of the basic domain alone revealed a non-specific microtubule localization. In vitro interaction studies confirmed that the APC basic domain did not contribute to EB1 binding. These findings strongly suggest that the interaction between APC and EB1 targets APC to microtubule tips, and that the interaction between the two proteins is down-regulated during mitosis by the previously described mitotic phosphorylation of APC.
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PMID:Regulation and function of the interaction between the APC tumour suppressor protein and EB1. 1077 85

Examination of the tumour suppressor adenomatous polyposis coli (APC) has shown that it may be multifunctional. Recent work has demonstrated dynamic interactions of APC with the microtubule cytoskeleton, supporting the idea that APC has an important function in cell migration.
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PMID:Teaching tumour suppressors new tricks. 1078 50

beta-Catenin has an essential role in intercellular adhesion and signal transduction. beta-catenin functions as a transcriptional activator downstream in the Wnt signalling pathway. Cytoplasmic stabilisation of beta-catenin, mainly due to inactivating mutations of the adenomatous polyposis coli (APC) tumour suppressor gene or activating mutations in exon 3 of the beta-catenin gene, can activate this important pathway in the development of several carcinomas. To determine whether this pathway for malignant transformation is important in oesophageal cancer, we analysed 39 primary oesophageal squamous cell carcinomas (OSCC). Immunohistochemical expression of beta-catenin was studied in formalin-fixed, paraffin-embedded tissue samples. Results were correlated with clinicopathological parameters and immunohistochemical expression of the proteins p53, E-cadherin, bcl-2 and Ki-67. All examined OSCC had beta-catenin expression localised in the cellular membrane, frequently with a heterogeneous pattern. Seven (18%) cases also showed immunoexpression in the cytoplasm and nuclei of the tumour cells. These seven tumours were localised in the upper (three) or in the middle third (four) of the oesophagus. Only one patient had p53 expression and all had bcl-2 expression. The consensus sequence for glycogen synthase kinase (GSK) 3beta phosphorylation in exon 3 of the beta-catenin gene was studied using polymerase chain reaction and direct sequencing in the seven cases with nuclear beta-catenin expression. No genetic alteration was found. These results suggest that beta-catenin expression may characterise a subset of OSCC.
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PMID:beta-catenin expression pattern in primary oesophageal squamous cell carcinoma. Relationship with clinicopathologic features and clinical outcome. 1119 70

Asymmetric division is a fundamental mechanism for generating cellular diversity. In the central nervous system of Drosophila, neural progenitor cells called neuroblasts undergo asymmetric division along the apical-basal cellular axis. Neuroblasts originate from neuroepithelial cells, which are polarized along the apical-basal axis and divide symmetrically along the planar axis. The asymmetry of neuroblasts might arise from neuroblast-specific expression of the proteins required for asymmetric division. Alternatively, both neuroblasts and neuroepithelial cells could be capable of dividing asymmetrically, but in neuroepithelial cells other polarity cues might prevent asymmetric division. Here we show that by disrupting adherens junctions we can convert the symmetric epithelial division into asymmetric division. We further confirm that the adenomatous polyposis coli (APC) tumour suppressor protein is recruited to adherens junctions, and demonstrate that both APC and microtubule-associated EB1 homologues are required for the symmetric epithelial division along the planar axis. Our results indicate that neuroepithelial cells have all the necessary components to execute asymmetric division, but that this pathway is normally overridden by the planar polarity cue provided by adherens junctions.
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PMID:Adherens junctions inhibit asymmetric division in the Drosophila epithelium. 1120 49

Mutational inactivation of the human tumour suppressor gene adenomatous polyposis coli (APC) results in constitutive activation of beta-catenin/T cell factor-4 (Tcf-4) mediated transcription of target genes. Up-regulation of cyclooxygenase-2 (COX-2) protein is frequently found in human colorectal cancer (CRC). We analysed 38 CRC for mutations in APC and beta-catenin and found an association between APC mutations and elevated COX-2 levels. Furthermore, APC mutations were predominantly observed in tumour tissues from the rectum compared to tumours of colonic origin. Western blot analysis revealed that nuclear beta-catenin levels were generally higher in tumours with APC mutations compared to tumours with wild type APC. However, there was also a higher level of nuclear beta-catenin in tumour compared to normal tissue, but nuclear Tcf-4 protein was constitutively expressed in tumour and normal tissue and showed no differences. An identified putative Tcf-4 binding element in the COX-2 promoter may partly explain the enhanced level of COX-2 and support the idea that COX-2 may be a downstream target of the APC/beta-catenin/Tcf-4 pathway.
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PMID:Enhanced expression of cyclooxygenase-2 and nuclear beta-catenin are related to mutations in the APC gene in human colorectal cancer. 1139 84

Similar to findings in colorectal cancers, it has been suggested that disruption of the adenomatous polyposis coli (APC)/beta-catenin pathway may be involved in breast carcinogenesis. However, somatic mutations of APC and beta- catenin are infrequently reported in breast cancers, in contrast to findings in colorectal cancers. To further explore the role of the APC/beta-catenin pathway in breast carcinogenesis, we investigated the status of APC gene promoter methylation in primary breast cancers and in their non-cancerous breast tissue counterparts, as well as mutations of the APC and beta- catenin genes. Hypermethylation of the APC promoter CpG island was detected in 18 of 50 (36%) primary breast cancers and in none of 21 non-cancerous breast tissue samples, although no mutations of the APC and beta- catenin were found. No significant associations between APC promoter hypermethylation and patient age, lymph node metastasis, oestrogen and progesterone receptor status, size, stage or histological type of tumour were observed. These results indicate that APC promoter CpG island hypermethylation is a cancer-specific change and may be a more common mechanism of inactivation of this tumour suppressor gene in primary breast cancers than previously suspected.
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PMID:Adenomatous polyposis coli (APC) gene promoter hypermethylation in primary breast cancers. 1143 4


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