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)

An alternative model has been proposed for the development of clear-cell renal cell carcinoma (RCC) in families where chromosome 3 translocations segregate with the disease. In this model, the existence of a translocation involving chromosome 3 would favour the non-disjunctional loss of the derivative chromosome carrying the 3p segment. Additionally, subsequent somatic mutations in the VLH gene, located in 3p25-26, would inactivate this tumour suppressor gene. In the present work, we describe a new family with two clear-cell RCC affected members and a t(3;8)(p13;q24.1) translocation in two consecutive generations. We observed loss of the derivative chromosome carrying the 3p segment (der(8)) and somatic mutation of the VHL gene in the left-kidney tumoral tissue of the proband. His right-kidney tumour carried a different VHL mutation and loss of heterozygosity (LOH) was not detected. The mother of the proband was also clear-cell RCC-affected but the tumoral tissue analysed did not carry any VHL gene mutations. Another member of the family, a maternal aunt, had a papillary RCC and did not carry this translocation, the LOH on 3p or the VHL somatic mutations. Haplotype analysis of the three affected members revealed that they did not inherit a common region on 3p, confirming the different genetic origin of both tumour types. Finally, the presence of RCC in other non-available members of the family highlights the overall risk for RCC in families with chromosome 3 translocations. In the present work, we have confirmed the proposed mechanism for the development of clear-cell RCC in this family, although we cannot discard the existence of other genes, in addition to VHL, being involved in hereditary RCC.
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PMID:Molecular study of a new family with hereditary renal cell carcinoma and a translocation t(3;8)(p13;q24.1). 1252 59

The loss of tumour suppressor genes (TSGs) is a key event in many human cancers, including gastric carcinoma. Many TSG candidates have been studied, but their roles in gastric carcinogenesis remain unclear. To clarify the clinical significance of TSG expression in gastric carcinoma, the expression of various TSG candidates (p53, E-cadherin, FHIT, smad4, rb, VHL, PTEN, MGMT, p16, and KAI1), as well as other proteins (bcl-2, MUC1, MUC2, MUC5AC, MUC6, CEA, CD44, beta-catenin, C-erbB2, and cyclin B2), was evaluated immunohistochemically in 329 consecutive gastric carcinomas using the tissue array method. The overexpression of p53 and MUC1 (p < 0.01) and the loss of expression of smad4 (p = 0.04), FHIT (p = 0.03), MGMT (p = 0.01), E-cadherin, KAI1, and PTEN (p < 0.01) were found to be significantly associated with poor gastric carcinoma prognosis. Seven out of eight survival-associated proteins were found to be protein products of TSGs. The gastric carcinomas were divided into five groups according to the grade of alteration in TSG expression. No TSG expression loss was found in 32 cases (TSG1). One TSG loss was found in 47 cases (TSG2), two in 67 cases (TSG3), three or four in 64 cases (TSG4), and five, six, or seven in 38 cases (TSG5). The grade of TSG expression was confirmed to be significantly associated with WHO classification (p = 0.04), pTNM stage, lymphatic invasion, and patient survival (p < 0.01 for the latter three). By multivariate analysis, the grade of TSG expression was found to be significantly and independently associated with patient survival (p < 0.01). In conclusion, the findings of this study suggest that the cumulative loss of TSG expression in gastric carcinoma is important in determining patient survival.
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PMID:Tumour suppressor gene expression correlates with gastric cancer prognosis. 1269 39

Many genetic and environmental factors contribute to development of cancer, but DNA methylation may provide a link between these influences. Genome stability and normal gene expression are largely maintained by a fixed and predetermined pattern of DNA methylation. In cancer, this idealistic scenario is disrupted by an interesting phenomenon: the hypermethylation of regulatory regions called CpG islands in some tumour suppressor genes--eg, BRCA1, hMLH1, p16INK4a, APC, VHL--which causes their inactivation. Development of new techniques that couple bisulphite modification with PCR has enabled these alterations to be studied in all types of biological fluids and archived tissues. Potentially, there are four types of translational studies that can be used to investigate the aberrant pattern of DNA methylation in cancer. First, CpG island hypermethylation can be used as a marker to identify cancer cells from biological samples, eg, serum and urine. This technique is highly sensitive and informative because profiles of tumour-suppressor-gene inactivation are specific to particular cancers. Second, single and combined genes that are inactivated by promoter hypermethylation, such as p16INK4a and DAPK, can be used as prognostic factors. Third, products of genes that are silenced by DNA methylation can be used as biomarkers of response to chemotherapy or hormone therapy--eg, the DNA repair O6-methylguanine-DNA methyltransferase and the oestrogen receptor. Finally, dormant tumour suppressor genes can be reactivated by DNA demethylating drugs, with the aim of reversing the neoplastic phenotype. These are new avenues worth exploring in the fight against cancer.
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PMID:Relevance of DNA methylation in the management of cancer. 1278 7

von Hippel-Lindau disease is a heritable multisystem cancer syndrome that is associated with a germline mutation of the VHL tumour suppressor gene on the short arm of chromosome 3. This disorder is not rare (about one in 36000 livebirths) and is inherited as a highly penetrant autosomal dominant trait (ie, with a high individual risk of disease). Affected individuals are at risk of developing various benign and malignant tumours of the central nervous system, kidneys, adrenal glands, pancreas, and reproductive adnexal organs. Because of the complexities associated with management of the various types of tumours in this disease, treatment is multidisciplinary. We present an overview of the clinical aspects, management, and treatment options for von Hippel-Lindau disease.
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PMID:von Hippel-Lindau disease. 1281 30

Organ-specific metastasis is governed, in part, by interactions between chemokine receptors on cancer cells and matching chemokines in target organs. For example, malignant breast cancer cells express the chemokine receptor CXCR4 and commonly metastasize to organs that are an abundant source of the CXCR4-specific ligand stromal cell-derived factor-1alpha (ref. 1). It is still uncertain how an evolving tumour cell is reprogrammed to express CXCR4, thus implementing the tendency to metastasize to specific organs. Here we show that the von Hippel-Lindau tumour suppressor protein pVHL negatively regulates CXCR4 expression owing to its capacity to target hypoxia-inducible factor (HIF) for degradation under normoxic conditions. This process is suppressed under hypoxic conditions, resulting in HIF-dependent CXCR4 activation. An analysis of clear cell renal carcinoma that manifests mutation of the VHL gene in most cases revealed an association of strong CXCR4 expression with poor tumour-specific survival. These results suggest a mechanism for CXCR4 activation during tumour cell evolution and imply that VHL inactivation acquired by incipient tumour cells early in tumorigenesis confers not only a selective survival advantage but also the tendency to home to selected organs.
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PMID:Chemokine receptor CXCR4 downregulated by von Hippel-Lindau tumour suppressor pVHL. 1367 99

Hypoxia and acidosis occur in a wide variety of physiological and pathological settings that include muscle stress, tumour development and ischaemic disorders. A central element in the adaptive response to cellular hypoxia is HIF (hypoxia-inducible factor), a transcription factor that activates an array of genes implicated in oxygen homeostasis, tumour vascularization and ischaemic preconditioning. HIF is activated by hypoxia, but undergoes degradation by the VHL (von Hippel-Lindau) tumour suppressor protein in the presence of oxygen. Here, we demonstrate that hypoxia induction or normoxic acidosis can neutralize the function of VHL by triggering its nucleolar sequestration, a regulatory mechanism of protein function that is observed rarely. VHL is confined to nucleoli until neutral pH conditions are reinstated. Nucleolar sequestration of VHL enables HIF to evade destruction in the presence of oxygen and activate its target genes. Our findings suggest that an increase in hydrogen ions elicits a transient and reversible loss of VHL function by promoting its nucleolar sequestration.
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PMID:HIF activation by pH-dependent nucleolar sequestration of VHL. 1518 50

Previously, two mouse monoclonal antibodies (12B8 and 6D4) were raised against the alpha- and beta-subunits of the rat non-classical MHC class-II heterodimer RT1.DM. Here, I describe the epitope mapping of mAb 12B8 to amino acids alpha3-14 (EASPQAWWDESQ) and mAb 6D4 to amino acids beta35-44 (WDPEEGQIVP). Epitope mapping was conducted by preparing fusion proteins between the alpha and beta chain of RT1.DM for Western detection with mAb 12B8 and 6D4. By mutating non-conserved amino acids of the human orthologue of RT1.DM, the rat epitopes were introduced, thereby making the alpha and beta polypeptides sensitive for mAb 12B8 and 6D4 detection. The epitopes, designated as 12B8 and 6D4, were tested for protein tagging. They were appended to the N- or C-terminus of four human proteins, the tumour suppressor protein VHL (von Hippel-Lindau), SUMO4, MHC class-II DQbeta and -DPbeta for expression in mammalian cells. Western detection, immunoprecipitation and localisation of the tagged proteins were successfully demonstrated. Thus, the 12B8 and 6D4 epitope tag can be universally used for the immunodetection of recombinant proteins and to study protein-protein interactions.
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PMID:Novel antibody tags from the rat lysosomal protein RT1.DM for immunodetection of recombinant proteins. 1589 98

The transcription factor hypoxia-inducible factor-1 (HIF) is commonly activated in cancer. This has major effects on gene expression, and is important in tumor angiogenesis. Besides being activated by low oxygen, genetic events in cancer contribute to activating HIF. Most striking is that loss of function of the VHL tumour suppressor protein results in constitutive activation of the HIF pathway. An important aim is to define the contribution of HIF activation to the evolution of different cancers, and its potential as a therapeutic target.
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PMID:The HIF pathway in cancer. 1614 89

The von Hippel-Lindau tumour suppressor protein (pVHL) participates in many cellular processes including oxygen sensing, microtubule stability and primary cilia regulation. Recently, we identified ATP-dependent motor complex kinesin-2 to endogenously bind the full-length variant of VHL (pVHL30) in primary kidney cells, and mediate its association to microtubules. Here we show that pVHL also endogenously binds the neuronal kinesin-2 complex, which slightly differs from renal kinesin-2. To investigate the role of kinesin-2 in pVHL mobility, we performed fluorescence recovery after photobleaching (FRAP) experiments in neuroblastoma cells. We observe that pVHL30 is a highly mobile cytoplasmic protein, which becomes an immobile centrosomal protein after ATP-depletion in living cells. This response to ATP-depletion is independent of GSK3beta-dependent phosphorylation of pVHL30. Furthermore, VHL variant alleles with reduced binding to kinesin-2 fail to respond to ATP-depletion. Accordingly, interfering with pVHL30-KIF3A interaction by either overexpressing a dominant negative construct or by reducing endogenous cellular levels of KIF3A by RNAi abolishes pVHL's response to ATP-depletion. From these data we suggest that mobility of a subcellular pool of pVHL is regulated by the ATP-dependent kinesin-2 motor. Kinesin-2 driven mobility of cytoplasmic pVHL might enable pVHL to function as a tumour suppressor.
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PMID:Mobility of the von Hippel-Lindau tumour suppressor protein is regulated by kinesin-2. 1826 24

1. Recent clinical and fundamental research studies have revolutionized our understanding of the genetics of phaeochromocytoma (PH) and functional paraganglioma (FPGL). It was widely thought that only 10% of PH patients had familial disease and that the malignant phenotype of PH could not be diagnosed before occurrence of the first metastasis. 2. Human genetic studies have now shown that 25-30% of patients have hereditary PH due to a germline mutation in the SDHB, SDHD, VHL, RET or NF1 gene and that the identification of a germline SDHB mutation is associated with a high risk of malignancy and a poor prognosis in PH/PGL patients. 3. Fundamental research studies have shown that SDH genes are tumour suppressor genes and that succinate dehydrogenase inactivation induces abnormal stimulation of the hypoxia-angiogenesis pathway. 4. Finally various fundamental research studies, conducted through the Cortico and Medullo-surrenale: les Tumeurs Endocrines (COMETE) network in France and by other groups worldwide, have produced new recommendations for genetic counselling and testing and for the management of PH patients. They have also improved our understanding of the molecular mechanisms involved in PH tumorigenesis.
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PMID:Recent advances in the genetics of phaeochromocytoma and functional paraganglioma. 1830 24


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