UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nuclear localization of p53 is essential for its tumor suppressor function. Here, we have identified Parc, a Parkin-like ubiquitin ligase, as a cytoplasmic anchor protein in p53-associated protein complexes. Parc directly interacts and forms a approximately 1 MDa complex with p53 in the cytoplasm of unstressed cells. In the absence of stress, inactivation of Parc induces nuclear localization of endogenous p53 and activates p53-dependent apoptosis. Overexpression of Parc promotes cytoplasmic sequestration of ectopic p53. Furthermore, abnormal cytoplasmic localization of p53 was observed in a number of neuroblastoma cell lines; RNAi-mediated reduction of endogenous Parc significantly sensitizes these neuroblastoma cells in the DNA damage response. These results reveal that Parc is a critical regulator in controlling p53 subcellular localization and subsequent function.
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PMID:Parc: a cytoplasmic anchor for p53. 1252 85

In an effort to identify tumor suppressor gene(s) associated with the frequent loss of heterozygosity observed on chromosome 6q25-q27, we constructed a contig derived from the sequences of bacterial artificial chromosomeP1 bacteriophage artificial chromosome clones defined by the genetic interval D6S1581-D6S1579-D6S305-D6S1599-D6S1008. Sequence analysis of this contig found it to contain eight known genes, including the complete genomic structure of the Parkin gene. Loss of heterozygosity (LOH) analysis of 40 malignant breast and ovarian tumors identified a common minimal region of loss, including the markers D6S305 (50%) and D6S1599 (32%). Both loci exhibited the highest frequencies of LOH in this study and are each located within the Parkin genomic structure. Whereas mutation analysis revealed no missense substitutions, expression of the Parkin gene appeared to be down-regulated or absent in the tumor biopsies and tumor cell lines examined. In addition, the identification of two truncating deletions in 3 of 20 ovarian tumor samples, as well as homozygous deletion of exon 2 in the lung adenocarcinoma cell lines Calu-3 and H-1573, supports the hypothesis that hemizygous or homozygous deletions are responsible for the abnormal expression of Parkin in these samples. These data suggest that the LOH observed at chromosome 6q25-q26 may contribute to the initiation andor progression of cancer by inactivating or reducing the expression of the Parkin gene. Because Parkin maps to FRA6E, one of the most active common fragile sites in the human genome, it represents another example of a large tumor suppressor gene, like FHIT and WWOX, located at a common fragile site.
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PMID:Parkin, a gene implicated in autosomal recessive juvenile parkinsonism, is a candidate tumor suppressor gene on chromosome 6q25-q27. 2837 49

The cloning and characterization of the common fragile site (CFS) FRA6E (6q26) identified Parkin, the gene involved in the pathogenesis of many cases of juvenile, early-onset and, rarely, late-onset Parkinson's disease, as the third large gene to be localized within a large CFS. Initial analyses of Parkin indicated that in addition to playing a role in Parkinson's disease, it might also be involved in the development and/or progression of ovarian cancer. These analyses also indicated striking similarities among the large CFS-locus genes: fragile histidine triad gene (FHIT; 3p14.2), WW domain-containing oxidoreductase gene (WWOX; 16q23), and Parkin (6q26). Analyses of FHIT and WWOX in a variety of different cancer types have identified the presence of alternative transcripts with whole exon deletions. Interestingly, various whole exon duplications and deletions have been identified for Parkin in juvenile and early-onset Parkinson's patients. Therefore, we performed mutational/exon rearrangement analysis of Parkin in ovarian cancer cell lines and primary tumors. Four (66.7%) cell lines and four (18.2%) primary tumors were identified as being heterozygous for the duplication or deletion of a Parkin exon. Additionally, three of 23 (13.0%) nonovarian tumor-derived cell lines were also identified as having a duplication or deletion of one or more Parkin exons. Analysis of Parkin protein expression with antibodies revealed that most of the ovarian cancer cell lines and primary tumors had diminished or absent Parkin expression. While functional analyses have not yet been performed for Parkin, these data suggest that like FHIT and WWOX, Parkin may represent a tumor suppressor gene.
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PMID:Alterations in the common fragile site gene Parkin in ovarian and other cancers. 1461 60

Parkin is a protein that when mutated leads to an inherited form of Parkinson's disease. Under normal conditions, this molecule has multiple functions in different cell types, including protein degradation and tumor suppression. To understand the relationship between parkin and circulating corticosteroid hormones, we studied the long-term depletion of corticosterone due to bilateral adrenalectomy in rats. We show that adrenalectomy deletes the expected expression of nuclear parkin in hippocampal neurons. Notably, the effect of adrenalectomy on parkin was prevented by corticosterone hormone replacement therapy. This finding suggests that adrenal hormones may be critical in sustaining parkin ubiquitinating activity in the rat hippocampus.
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PMID:Regulation of hippocampal parkin protein by corticosteroids. 1466 85

The Parkin gene is an extremely large gene (1.5 Mb) within the highly unstable FRA6E common fragile site (CFS) region, which is frequently altered in ovarian, breast, and hepatocellular carcinomas. Because Parkin/FRA6E has genomic similarities to FHIT/FRA3B and WWOX/FRA16D, two other large tumor-suppressor genes that are within CFS regions, we were interested in characterizing Parkin gene alterations and their possible association with cancer. After analyzing 50 cancer-derived cell lines including 11 hepatocellular carcinoma (HCC) cell lines, we found that one HCC cell line, PLC/PRF/5, had a detectable homozygous deletion encompassing exon 3. Using quantitative duplex PCR and fluorescence in situ hybridization analysis to characterize the copy number changes of Parkin exons in HCC cell lines, we found that 4 of 11 HCC cell lines had heterozygous deletions of Parkin exons and one, Hep3B, had an exon duplication. Parkin protein expression was significantly decreased or absent in all 11 HCC cell lines. Furthermore, more than 50% of HCC primary tumors had decreased Parkin expression compared to that in normal liver tissue. Parkin gene-transfected PLC5 and Hep3B cells grew more slowly than vector-only transfectants and also showed increased sensitivity to apoptosis induced by cell-cycle inhibitors. Therefore, we suggest that Parkin may be involved in tumor suppression and that the loss of Parkin contributes to the development of hepatocarcinoma.
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PMID:Parkin gene alterations in hepatocellular carcinoma. 1510 Oct 42

Common fragile sites (CFSs) are large regions of profound genomic instability found in all individuals. They are biologically significant due to their role in a number of genomic alterations that are frequently found in many different types of cancer. The first CFS to be cloned and characterized was FRA3B, the most active CFS in the human genome. Instability within this region extends for over 4.0 Mbs and contained within the center of this CFS is the FHIT gene spanning 1.5 Mbs of genomic sequence. There are frequent deletions and other alterations within this gene in multiple tumor types and the protein encoded by this gene has been demonstrated to function as a tumor suppressor in vitro and in vivo. In spite of this, FHIT is not a traditional mutational target in cancer and many tumors have large intronic deletions without any exonic alterations. There are several other very large genes found within CFS regions including Parkin (1.37 Mbs in FRA6E), GRID2 (1.47 Mbs within 4q22.3), and WWOX (1.11 Mbs within FRA16D). These genes also appear to function as tumor suppressors but are not traditional mutational targets in cancer. Each of these genes is highly conserved and the regions spanning them are CFSs in mice. We have now examined lists of the largest human genes and found forty that span over one megabase. Many of these are derived from chromosomal bands containing CFSs. BACs within these genes are being utilized as FISH probes to determine if these are also CFS genes. Thus far we have identified the following as CFS genes: CNTNAP2 (2.3 Mbs in FRA7I), DMD (2.09 Mbs in FRAXC), LRP1B (1.9 Mbs in FRA2F), CTNNA3 (1.78 Mbs in FRA10D), DAB1 (1.55 Mbs in FRA1B), and IL1RAPL1 (1.36 Mbs in FRAXC). Although, these genes are also not traditional mutational targets in cancer they do exhibit loss of expression in multiple tumor types suggesting that they may also function as tumor suppressors. Many of the large CFS genes are involved in neurological development. Parkin is mutated in autosomal recessive juvenile Parkinsonism and deletions in mice are associated with the mouse mutant Quaking (viable). Spontaneous mouse mutants in GRID2 and DAB1 are associated with Lurcher and Reelin, respectively. In humans, alterations in IL1RAPL1 cause X-linked mental retardation and loss of WWOX is associated with Tau phosphorylation. We propose that the instability-induced alterations in these genes contribute to cancer development in a two-step process. Initial alterations will primarily occur within intronic regions, as these genes are greater than 99% intronic. These are not benign. Instead, they alter the repertoire of transcripts produced from these genes. As cancer progresses deletions will begin to encompass exons resulting in gene inactivation. These two types of alterations occurring in multiple large CFS genes may contribute significantly to the heterogeneity observed in cancer. There are also important potential linkages between normal neurological development and the development of cancer mediated by alterations in these genes.
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PMID:Common fragile sites, extremely large genes, neural development and cancer. 1622 25

Epithelial cancers inflict a heavy human and social burden. It was estimated [Tyczynski JE, Bray F, Parkin DM. Lung cancer in Europe in 2000: epidemiology, prevention, and early detection. Lancet Oncol 2003;4:45-55 (Review)] that in Europe, in the year 2000, 347 000 persons died of lung cancer alone, the deadliest cancer disease. Loss of heterozygosity and large homozygous deletions of the human chromosome region 3p21 are especially frequent in epithelial cancers of several organs. In fact, 3p21 is a very peculiar region of the genome harbouring, tightly clustered, several types of cancer-causing genes (CCG) (Lerman MI, Minna JD. The 630 kb lung cancer homozygous deletion region on human chromosome 3p21.3: identification and evaluation of the resident candidate tumour suppressor genes. The International Lung Cancer Chromosome 3p21.3 Tumor Suppressor Gene Consortium. Cancer Res 2000;60:6116-33). Current results show that, unlike it was thought initially, many tumour suppressor genes (TSG) are located close by even in small genomic regions. They may be involved, perhaps with varying role, in different types of tumour, and may be influenced by the genetic background of different human populations as well as by environmental pollutants (cigarette smoking, professional exposure). This review will discuss methods of molecular analysis of genomic deletions to uncover CCG at 3p21, will summarize the present knowledge regarding the TSGs located in this region, and will describe a possible model of epithelial cancer pathogenesis.
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PMID:Molecular analysis of deletions in human chromosome 3p21 and the role of resident cancer genes in disease. 1752 73

The parkin was first identified as a gene implicated in autosomal recessive juvenile Parkinsonism. Deregulation of the parkin gene, however, has been observed in various human cancers, suggesting that the parkin gene may be important in tumorigenesis. To gain insight into the physiologic role of parkin, we generated parkin-/- mice lacking exon 3 of the parkin gene. We demonstrated here that parkin-/- mice had enhanced hepatocyte proliferation and developed macroscopic hepatic tumors with the characteristics of hepatocellular carcinoma. Microarray analyses revealed that parkin deficiency caused the alteration of gene expression profiles in the liver. Among them, endogenous follistatin is commonly upregulated in both nontumorous and tumorous liver tissues of parkin-deficient mice. Parkin deficiency resulted in suppression of caspase activation and rendered hepatocytes resistant to apoptosis in a follistatin-dependent manner. These results suggested that parkin deficiency caused enhanced hepatocyte proliferation and resistance to apoptosis, resulting in hepatic tumor development, partially through the upregulation of endogenous follistatin. The finding that parkin-deficient mice are susceptible to hepatocarcinogenesis provided the first evidence showing that parkin is indeed a tumor suppressor gene.
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PMID:Parkin as a tumor suppressor gene for hepatocellular carcinoma. 1857 68

Dysregulation of genes that control cell-cycle progression and DNA repair is a hallmark of tumorigenesis. It is becoming increasingly apparent, however, that these defects also contribute to degeneration of post-mitotic neurons under certain conditions. The gene for ataxia-telangiectasia mutated (ATM) is a prototype for this dual mechanism of action, with loss-of-function mutations causing not only selective degeneration of cerebellar neurons but also increased susceptibility to breast cancer and hematologic malignancy. Increased dosage of amyloid precursor protein in Down syndrome (trisomy 21) predisposes to dementia of Alzheimer type and may also contribute to acute leukemia and transient myeloproliferative disorder. The gene parkin, loss-of-function mutations in which account for about half of cases of early-onset Parkinson disease, has been identified as a candidate tumor suppressor gene by several groups. Parkin is deleted or downregulated in several tumor types, and its re-expression sensitizes derivative cell lines to inhibitors of cell-cycle progression. The overlap of molecular pathways implicated in cancer and neurodegeneration challenges long-held notions about differentiated cellular states and may open the door to novel therapeutic approaches to both groups of disorders.
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PMID:Tumorigenesis and neurodegeneration: two sides of the same coin? 1862 69

Parkin has a critical role in the ubiquitin-proteasome system as an E3-ligase targeting several substrates. Our recent finding that Parkin-deficient mice are susceptible to tumorigenesis provided evidence that Parkin is a tumor suppressor gene. Dysfunction of the Parkin gene is frequently observed in various human cancers, but the mechanism underlying the cell cycle disruption induced by Parkin dysfunction that leads to carcinogenesis is not known. Here, we demonstrated that Parkin expression in colonic epithelial cells is regulated in a cell cycle-associated manner. Epidermal growth factor (EGF) stimulation upregulated Parkin gene expression in human colon cells. Inhibition of the phosphoinositide 3-kinase [PI(3)K]-Akt-dependent pathways suppressed growth factor-induced Parkin expression. The expression of alternatively spliced Parkin isoforms with various deletions spanning exons 3-6 was detected in 18 of 43 (42%) human colorectal cancer tissues. Wild-type Parkin induced the degradation of cyclin E protein, but the alternatively spliced Parkin identified in colon cancers showed defective proteolysis of cyclin E. These findings indicate that Parkin expression is induced by growth factor stimulation and is involved in the cell cycle regulation of colon cells. Tumor-specific expression of alternatively spliced Parkin isoforms might contribute to enhanced cell proliferation through the attenuation of proteolysis-mediated cyclin E regulation in human colorectal cancers.
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PMID:Attenuation of proteolysis-mediated cyclin E regulation by alternatively spliced Parkin in human colorectal cancers. 2646 64

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