Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0677930 (primary tumor)
 20,210 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DPC4, a candidate tumor suppressor gene, was identified recently at chromosome 18q21.1. Frequent homozygous deletion or mutations of the gene were observed in pancreatic carcinomas. To investigate the role of this gene in head and neck squamous cell carcinomas (HNSCCs), we examined 16 HNSCC cell lines from 11 patients and 20 primary HNSCCs for alterations of the gene by sequencing all 11 exons of the gene. Fourteen cell lines from 10 patients showed monomers at marker D18s46 (l8q21.1). Full-length cDNA was detectable in all cell lines by reverse transcription-PCR. A nonsense mutation was identified at codon 526 (GAA to TAA, glutamine to termination) in two cell lines (UMSCC22A and UMSCC22B) derived from the primary tumor and lymph node metastasis of the same patient. Loss of heterozygosity was found in 7 of 15 (47%) informative primary tumors at D18s46, whereas only one polymorphism was observed in both tumor and normal tissues from the same patient (at codon 525; ATT to GTT, isoleucine to valine). Our data indicate that although DPC4 is altered infrequently in HNSCC, it may play some role in the tumorigenesis of a small subset of HNSCCs.
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PMID:DPC4, a candidate tumor suppressor gene, is altered infrequently in head and neck squamous cell carcinoma. 865 89

Four sets of cell lines (UM-SCC-14A, -14B, and -14C; UM-SCC-17A and -17B; UM-SCC-81A and -81B; and UM-SCC-83A and -83B), established from primary and metastatic or locally recurrent tumors from four patients with squamous cell carcinoma of the head and neck, were examined for loss of heterozygosity (LOH) on chromosome 18q. Metastatic or recurrent cell lines from all four exhibited 18q LOH. UM-SCC-14A, -14B, and -14C, which were derived from locally recurrent (14A and 14B) and metastatic (14C) tumors, lost all of 18q. However, in the other three cases, there was a partial loss of 18q in the recurrent or metastatic tumor cell lines but not in the primary tumor cell lines from the same patient. To determine whether the cell lines accurately reflect in vivo loss of 18q, we analyzed matched sets of normal, tumor, and tumor cell line DNA from eight patients with squamous cell carcinoma of the head and neck, including the tumor tissue corresponding to UM-SCC-81B. Three of the additional seven tumors and cell lines had 18q LOH. For all eight cases in which tumor and corresponding cell line DNAs were analyzed, there was complete concordance between allelic loss in the tumor and allelic loss in the corresponding cell line. The common region of loss established by tumors and cell lines with partial loss includes 18q21-18qter. This region contains the putative tumor suppressor gene DCC and two Mad (Mothers against dpp)-related genes, DPC4 and MADR2, which are both components in a transforming growth factor-beta-like signaling pathway. Loss of 18q in metastatic and locally recurrent tumors, but not in primary tumors from the same patients, suggests that a tumor suppressor gene in this region may be important in the progression of squamous cell carcinoma.
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PMID:Evidence that loss of chromosome 18q is associated with tumor progression. 904 Nov 79

Mitogen-activated protein kinase (MAPK) kinase 4 (MKK4) is a component of a stress and cytokine-induced signal transduction pathway involving MAPK proteins. The MKK4 protein has been implicated in activation of JNK1 and p38 MAPK on phosphorylation by conserved kinase pathways. A recent report on the deletion and mutation of the MKK4 gene in human pancreatic, lung, breast, testicle, and colorectal cancer cell lines suggests an additional role for MKK4 in tumor suppression. Both the gene function and the infrequency of mutations might be considered atypical for many human tumor suppressor genes, and constitutional DNA was not previously available to determine whether the reported sequence variants had preceded tumor development. Here, we report that homozygous deletions are detected in 2 of 92 pancreatic adenocarcinomas (2%), 1 of 16 biliary adenocarcinomas (6%), and 1 of 22 breast carcinomas (when combined with reported sequence alterations, 3 of 22 or 14%). In addition, in a panel of 45 pancreatic carcinomas prescreened for loss of heterozygosity, one somatic missense mutation of MKK4 is observed and confirmed in the primary tumor (2%). Mapping of the homozygous deletions further indicated MKK4 to lie at the target of deletion. The finding of a somatic missense mutation in the absence of any other nucleotide polymorphisms or silent nucleotide changes continues to favor MKK4 as a mutationally targeted tumor suppressor gene. Coexistent mutations of other tumor suppressor genes in MKK4-deficient tumors suggest that MKK4 may participate in a tumor suppressive signaling pathway distinct from DPC4, p16, p53, and BRCA2.
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PMID:Alterations in pancreatic, biliary, and breast carcinomas support MKK4 as a genetically targeted tumor suppressor gene. 962 70

Loss of heterozygosity (LOH) on 18q predicts poor survival in head and neck squamous cell carcinomas (HNSCCs). Several putative tumor suppressor genes, such as DCC, DPC4/Smad4, and MADR2/Smad2, are mapped to 18q, but thus far, the important gene locus in HNSCC is not known. To identify possible gene loci on 18q, we performed LOH studies using tumor DNA from 57 HNSCC primary tumor cell lines and DNA isolated from fibroblasts or lymphoblastoid cells from the same patients. Forty-two highly polymorphic microsatellite markers spaced not more than 5 cM apart (mean distance, 1.82 cM) spanning the region from D18S44 in 18q11.1 to D18S1141 in 18q23 were used. D18S71 in 18p11.21 on 18p was also used to determine whether the short arm was retained. Forty-three of 57 (75%) HNSCC lines showed LOH or isolated allelic imbalance (AI) for at least one locus on 18q. Although many of the cell lines had large distal 18q deletions with a breakpoint between 18q11.1 and 18q12.2 to qter, three loci were identified that were lost in 70% or more of the cases. The minimally lost regions (MLRs) range in size from 1.5-15.79 cM. The most proximal is centered on D18S39 (1.56 cM) in band 18q21.1, with LOH or isolated AI in 28 of 38 (74%) of informative cases. The largest (15.8 cM) begins at D18S61 (28 of 40; 70%) in band 18q22.2 and extends through D18S50 in 18q23. The third is centered on D18S70 (30 of 40; 75%) in band 18q23 (3.67 cM). Of these MLRs, only the one centered on D18S39 has been implicated previously in HNSCC. D18S70, the most frequently lost marker, was the only marker consistently lost in three tumor cell lines with very minimal losses, UM-SCC-19, UM-SCC-67, and UM-SCC-73A. In addition, UM-SCC-91 exhibited AI only at this locus, and UT-SCC-4 had AI at D18S70 and D18S39 only. Close physical mapping of these three regions may pinpoint one or more previously unidentified tumor suppressor genes.
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PMID:Identification of new minimally lost regions on 18q in head and neck squamous cell carcinoma. 1091 46

Pancreatic intraepithelial neoplasia (PanIN) is thought to be a precursor lesion of infiltrating pancreatic ductal adenocarcinoma (IPA). DPC4 is a tumor-suppressor gene on chromosome 18q21.1 and is inactivated in approximately 55% of IPAs. Recently, immunohistochemical labeling using a monoclonal antibody to the Dpc4 protein has been shown to mirror DPC4 genetic status in invasive adenocarcinomas of the pancreas. In the present study, we examined the role of Dpc4 loss in neoplastic progression and recurrence. Two cases in which a PanIN clinically progressed to an invasive adenocarcinoma and a third of a patient with IPA of the head of the pancreas who later developed invasive adenocarcinoma in the tail of the pancreas were studied using Dpc4 immunolabeling. The first patient underwent pancreatic resection, which revealed PanIN-3 that lacked Dpc4 expression, and the patient developed an invasive pancreatic ductal carcinoma 10 years later that shared this loss of expression. The second patient had a pancreaticoduodenectomy for recurrent pancreatitis, and the resected pancreas contained PanIN-3 with intact Dpc4 expression. Seventeen months later, the patient developed an invasive adenocarcinoma of the distal pancreas that also had intact Dpc4 expression. In the third case, the patient underwent pancreaticoduodenectomy for an invasive ductal adenocarcinoma with negative margins. This carcinoma lacked Dpc4 expression. Three years later, resection of the pancreatic tail showed a second invasive adenocarcinoma. The cancer in the tail of the gland showed intact Dpc4 expression, suggesting it represented a second primary tumor, not a recurrence. We conclude that Dpc4 expression in PanIN can be predictive of Dpc4 expression in the subsequent invasive ductal adenocarcinoma. Additionally, Dpc4 expression can be used to differentiate recurrent or persistent adenocarcinoma from a second primary adenocarcinoma.
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PMID:Pancreatic intraepithelial neoplasia and infiltrating adenocarcinoma: analysis of progression and recurrence by DPC4 immunohistochemical labeling. 1143 19

Pancreatic mucinous cystic tumors (MCT) are proliferations of mucin-producing epithelia supported by an ovarian-like stroma. They are classified into adenomas (MCA), borderline (MCB) and noninvasive or invasive carcinomas (MCC). The molecular mechanisms underlying their clinical behavior are poorly understood, partly due to the lack of cellular models. We report the establishment of MCC1, the first cell line from a pancreatic MCT, deriving from the highly dysplastic cell component of a noninvasive MCC. MCC1 has mutations in codon 12 of K-RAS (GGT>GAT), codon 58 of P16 (CGA>TGA) and codon 132 of P53 (AAG>AGG). The FHIT and DPC4 genes are unaltered. Immunohistochemistry shows abnormal expression of MUC1 and p53, loss of p16 and retention of Fhit and Dpc4 in both the cell line and the highly dysplastic cells of the primary lesion. The morphological and molecular features of MCC1 and its corresponding primary tumor are consistent with a model for non-invasive MCC, where K-RAS, P16, P53 and MUC1 alterations are pre-invasive changes associated with progression of malignancy of MCT from adenoma to carcinoma. MCC1 is sensitive to 5-fluorouracil, representing the first assessment of drug sensitivity for MCC. Finally, MCC1 is a suitable model for preclinical studies, as it grows in immunodeficient mice.
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PMID:Mucinous cystic carcinoma of the pancreas: a unique cell line and xenograft model of a preinvasive lesion. 1568 69

More than 50% of patients with Dukes C colorectal cancer have disease recurrence and die within 5 years after surgical removal of their primary tumor. It is currently not possible to distinguish patients with good and bad prognosis. SMAD4 is an important tumor suppressor gene that mediates transforming growth factor-beta superfamily signaling and is located in chromosome 18q21, a region with frequent genetic losses in these tumors. Allelic imbalance in 18q has been linked to poor prognosis in a subset of colorectal cancer patients. Therefore, we generated a tissue microarray containing triplicate tumor samples from 86 Dukes C patients and used immunohistochemistry to assess the relative expression level of SMAD4 and its value as a prognostic marker. In addition, SMAD4 was screened for mutations and two polymorphic microsatellite markers were used to assess the presence of allelic imbalance in these tumors. Patients with tumors expressing high SMAD4 levels had significantly better overall (P < 0.025) and disease-free (P < 0.013) survival than patients with low levels. This identifies SMAD4 as a prognostic marker for Dukes C colorectal cancer. Although all tumors with absent SMAD4 staining showed allelic imbalance in 18q21, tumors with 18q21 allelic imbalance as a group showed no difference in SMAD4 levels compared with tumors without allelic imbalance, suggesting that additional mechanisms of SMAD4 down-regulation exist. In addition, although SMAD4 mutations were found in five tumors, they were not associated with shorter survival. In conclusion, the level of expression of SMAD4 was found to be a more sensitive marker than 18q21 allelic imbalance and SMAD4 mutations, which were of no prognostic significance for these patients.
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PMID:SMAD4 as a prognostic marker in colorectal cancer. 1581 40

The virtual lack of well-characterized metastatic pancreatic cancer tissues for study has limited systematic studies of the metastatic process of this deadly disease. To address this important issue, we have instituted a rapid autopsy protocol for the collection of high quality tissues from patients with metastatic pancreatic cancer, called the Gastrointestinal Cancer Rapid Medical Donation Program (GICRMDP). At the time of preparation of this manuscript, 20 patients with metastatic pancreatic cancer and one patient with metastatic colon cancer have undergone a rapid autopsy in association with the GICRMDP. The average time interval achieved for these 21 patients was 8.0 hours, with more than 500 individual samples of matched high quality primary and metastatic pancreatic cancer tissues, peritoneal/pleural fluid and blood obtained so far. For the first four patients in which the autopsy was performed in <6 hours, we have successfully xenografted the primary tumor and/or two to four independent matched metastases from a variety of target organ sites, with a take rate of almost 60% for the first 26 xenografted tumors attempted. In an initial survey of KRAS2, TP53 and DPC4 genetic status in lethal metastatic pancreatic cancers, activating KRAS2 mutations were detected in 82% of cases and inactivating TP53 mutations in 55% of cases, consistent with rates of genetic alteration of these genes in early stage pancreatic cancers. However, DPC4 inactivation was found in 75% of patients analyzed, suggesting that genetic inactivation of the DPC4 tumor suppressor gene continues to be selected for with growth at the primary site and metastatic spread to other organs. The invaluable tissue resources generated by the success of the GICRMDP will provide an unparalleled resource for study of metastatic pancreatic cancer and of the metastatic process in general.
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PMID:Immortalizing the complexity of cancer metastasis: genetic features of lethal metastatic pancreatic cancer obtained from rapid autopsy. 1584 69

Inactivation of TGF-beta/SMAD4 signaling was postulated to play an important role in breast cancer development. Even though SMAD4 is located on 18q21, a region frequently lost in breast cancers, point mutations of SMAD4 were rarely observed, implying that biallelic inactivation of SMAD4 was not necessary in the process. In this study, a novel homozygous deletion of SMAD4 was identified in breast cancer cell line SW527 during a screening of 31 breast cancer cell lines. As several breast cancer cell lines were shown to contain SMAD4 homozygous deletion, we sought to develop a reliable method to access such lesions in archived primary tumor specimens. First, a DNA quantification method was developed to measure as few as 5 copies of DNA templates so that the amount of genomic DNA isolated by laser-capture microdissection can be accurately determined. Next, accurate DNA quantitation allowed sufficient DNA templates to be included in the homozygous deletion assay for the robust amplification of SMAD4 genetic markers. Two out of 24 primary infiltrative ductal carcinomas (IDC) with 18q allelic imbalance were determined to contain SMAD4 homozygous deletions, and these samples are also negative for Smad4 protein expression by immunohistochemistry. Our data suggest that biallelic inactivation of SMAD4 through homozygous deletion does occur in a small percentage of IDCs, and support the hypothesis that inactivation of TGF-beta/SMAD4 signaling plays in a role in the development of a subset of IDC.
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PMID:Homozygous deletion of SMAD4 in breast cancer cell lines and invasive ductal carcinomas. 1662 86

Pancreatic adenocarcinoma is a genetic disease showing somatic mutations of multiple genes, including SMAD4. SMAD4 is a tumor suppressor gene that is inactivated in a sub-set of pancreatic adenocarcinoma, either by the intragenic mutation of one allele in combination with the loss of the other allele or by homozygous deletion of both alleles. This study examines SMAD4 expression in fine-needle aspiration cell blocks from patients with pancreatic adenocarcinoma, as well as a variety of human cancers, in order to assess its viability as a tumor marker. A total of 100 patients with pancreatic adenocarcinoma, with diagnostic material from fine-needle aspiration cell blocks were selected for this study. In addition cancers from different sites were examined in multitumor tissue microarrays, which included two tissue cores from neoplastic surgical resection specimens. Cancers studied included endometrium (n = 100), colon (n = 100), ovary (n = 100), lung (n = 100), breast (n = 100), and malignant melanoma (n = 100). The sections were immunostained with SMAD4 using pressure cooker antigen retrieval labeled polymer horseradish peroxidase (DAKO), and the DAKO autostainer. Immunohistochemical expression was scored as negative, 1+, 2+, 3+. Only 2+ and 3+ staining was considered as positive staining. SMAD4 staining was nuclear and the results for tumor cell positivity for primary sites studied are as follows: Pancreas (80/100; 80%), endometrium (0/100; 0%), colon (0/100; 0%), ovary (3/100; 3%), lung (0/100; 0%), breast (2/100; 2%), and malignant melanoma (4/100; 4%). This study suggests that SMAD4 is an important marker for confirming a diagnosis of pancreatic adenocarcinoma as a primary tumor, as well as when it presents as a metastatic tumor on small fine-needle aspirate samples.
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PMID:The utility of SMAD4 as a diagnostic immunohistochemical marker for pancreatic adenocarcinoma, and its expression in other solid tumors. 1785 80


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