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:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic analyses of unusual hereditary cancers and of common neoplasms suggest that tumorigenesis proceeds through a series of genetic alterations involving oncogenes and tumor-suppressor genes. Such genes can be viewed as tumor-susceptibility genes, and DNA tests that examine them might be useful in determining an increased risk of cancer development before the onset of a tumor. Indeed, DNA tests have already proved useful in the genetic counseling of families with an increased risk of rare inherited diseases such as retinoblastoma, multiple endocrine neoplasia type 2a, or Li-Fraumeni syndrome. The current investigation of these familial disorders is enabling the development of expertise, reagents, and methods that will eventually focus on the most common cancers. In assessing risk for these common tumors, several genes will probably require study to achieve more accurate prediction of cancer risk. For example, genetic abnormalities of the ras oncogene and of either the retinoblastoma gene (Rb) or the p53 tumor-suppressor gene have been found in many tumors and appear to be particularly important in the study of individuals at increased risk of lung, breast, or colon cancers. In addition, the study of tumor-associated markers that might already be detectable in the preneoplastic state can be carried out in parallel with tests that search for evidence of mutations in tumor-susceptibility genes. Finally, both classes of markers might be complementary in genetic counseling or screening of populations at increased risk. However, the capacity for detecting tumor-susceptibility markers creates a responsibility for the physician in terms of the proper use of this information.
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PMID:Tumor-susceptibility markers. 161 94

Loss of heterozygosity (LOH) at specific loci may help localize tumor suppressor genes involved in the formation of various familial and sporadic tumors. In addition, the genetic loci for a number of familial tumor syndromes have been mapped by linkage analysis. To explore the possible role of tumor suppressor genes in endocrine tumors, we tested 41 pheochromocytomas (34 sporadic and 7 familial) and 11 medullary thyroid cancers (MTC) (10 sporadic and 1 familial) for LOH near a variety of potentially important genetic loci: (a) the multiple endocrine neoplasia type 2A (MEN 2A) locus on chromosome 10; (b) the von Hippel-Lindau locus on 3p; and (c) the p53 and neurofibromatosis 1 loci on 17. We also examined chromosomes 1p and 22q because previous studies in a small number of pheochromocytomas and MTCs suggested LOH in these regions. Background rates for LOH were assessed using several "random" probes. Finally, we examined a number of clinical and histologic characteristics of these tumors for possible correlations with specific genetic alterations. LOH in the region of the MEN 2A locus was uncommon (0% for MTCs, 5% for pheochromocytomas). However, we found significant allelic losses in pheochromocytomas on chromosomes 1p (42%), 3p (16%), 17p (24%), and 22q (31%). We also noted a correlation between LOH on 1p and urinary excretion of metanephrine by these patients (P = 0.02). LOH on 1p, 3p, and 17p also appeared to be associated with increased tumor volume. Analysis of the smaller number of MTCs demonstrated allelic losses on chromosomes 1p and 22q. Our results suggest that tumor formation and/or progression in pheochromocytomas and MTCs involves multiple genes, analogous with the model proposed for colon carcinoma.
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PMID:Loss of heterozygosity suggests multiple genetic alterations in pheochromocytomas and medullary thyroid carcinomas. 202 40

The clinical and genetic features of a 43-year-old male patient with multiple endocrine neoplasia type 1 were reported. He developed hyperparathyroidism, a GHRH-producing pancreatic tumor, and acromegaly between 1980 and 1983. Because his pituitary gland increased in size even after resecting the GHRH-producing pancreatic tumor, transsphenoidal hypophysectomy was performed six years later. The pituitary contained two histologically-different adenomas composed of somatotroph cells and null cells. Genetic analyses revealed loss of heterozygosity on chromosome 11 in common in the pituitary adenomas, the pancreatic endocrine tumors, and a parathyroid hyperplasia. On the other hand, mutations of ras, p53, Gs alpha, and Gi2 alpha genes were not found in these tumors. The loss of the tumor suppressor gene on chromosome 11q12-13 was involved in the formation of two pituitary adenomas, two pancreatic endocrine functioning tumors, and a parathyroid hyperplasia in this patient, but the tumorigenic factors in the specific endocrine organs remain to be studied.
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PMID:Two different pituitary adenomas in a patient with multiple endocrine neoplasia type 1 associated with growth hormone-releasing hormone-producing pancreatic tumor: clinical and genetic features. 767 May 61

Multiple endocrine neoplasia type 2 (MEN 2) is a familial cancer syndrome arising from mutation at a locus or loci in chromosome region 10p11.2-q11.2. The disease is characterized by medullary thyroid carcinoma (MTC) and pheochromocytoma (Pheo). To assess the genetic events in tumour initiation and progression in this disease, we have compiled an allelotype for MTC and Pheo tumours using polymorphic marker loci from each chromosome arm. Using a panel of 58 tumours, we found frequent allele losses on chromosome arms 1p (42%), 3p (30%), 3q (38%), 11p (11%), 13q (10%), 17p (8%), and 22q (29%). Loss of heterozygosity (LOH) for loci on chromosome 10 was detected in a single tumour where one whole chromosome copy was lost. We used a panel of polymorphic markers for each of chromosomes 1, 3, 11, and 17 to define a shortest region of overlap for these regions. The most frequent allele losses were on chromosome 1, spanning the entire short arm of the chromosome but not loci on 1q. LOH on chromosome 3 encompassed a minimal common region of 3q12-qter. The regions of allelic deletion on chromosome 11 (11pter-p13), 17 (17pter-p11.2), and 13 (13q) encompass known tumour suppressor loci (WTI, TP53, RBI) which must therefore be candidates for genes contributing to MTC and Pheo development. Our data suggest allele loss on chromosome 11, 13, or 17 occurs predominantly in tumours with losses on chromosome 3, potentially reflecting the accumulation of genetic change in tumour progression. These events may be associated with more advanced disease in MTC. We suggest that at least 7 genes contribute to tumour development in MEN 2, including an initiating locus on chromosome 10 and loci on chromosomes 1, 3, 11, 13, 17, and 22 which have a progressional role in these tumours.
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PMID:Genetic events in tumour initiation and progression in multiple endocrine neoplasia type 2. 768 2

The tumorigenesis of neuroendocrine tumours remains poorly understood, although a minority, the familial multiple endocrine neoplasia (MEN 1 and MEN 2), are known to be of uncommon genetic origin. Mutation of the tumour suppressor gene, p53, is now known to be a common genetic alteration in about half of all types of non-endocrine cancers. In the present study, immunocytochemistry using the monoclonal anti-p53 antibody, DO-7, has been employed to investigate the accumulation of p53 immunoreactivity in a wide range of primary neuroendocrine tumours. Tumours (n = 109) were fixed and processed to paraffin wax according to a constant protocol. Sections were subjected to microwave antigen retrieval prior to immunostaining for p53. Positive nuclear immunostaining was observed in one medullary carcinoma of the thyroid (MCT), one lung carcinoid, and five small cell carcinomas of the lung (SCCL). All other tumour samples were consistently negative. As the neoplasia investigated in this study comprised a wide spectrum of neuroendocrine tumour types and ranged from minute, relatively benign lesions to malignant metastasizing disease and as there was no relationship between the presence of p53 overexpression and clinico-pathological features, the present study suggests that p53 gene mutation may be relatively unimportant in the genesis of neuroendocrine tumours.
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PMID:Overexpression of the tumour suppressor gene p53 is not implicated in neuroendocrine tumour carcinogenesis. 877 44

In the last few years, molecular studies on pituitary adenomas have yielded evidence supporting a primary pituitary origin of these tumors. Although the existence of genomic alterations in tumoral cells is strongly suggested by the fact that almost all pituitary adenomas are monoclonal in origin, structural genetic abnormalities such as rearrangement, deletion or mutation, which could result in transcriptional activation, have been identified in a minority of tumors. As far as the possible loss of anti-oncogenes in pituitary tumors is concerned, gene alterations have not been found in the p53 nor in the retinoblastoma gene, while loss of chromosome 11q13 sequences, which contain the deduced location of the yet uncloned MEN-1 gene, has been reported in a subset of GH-secreting adenomas. With regard to the activation of dominant oncogenes in the process of tumor formation, activating mutations of either the Gs alpha-subunit or the ras gene have been identified in a large proportion of GH-secreting adenomas and in individual particularly invasive tumours, respectively. Promoting agents such as hypothalamic neurohormones and growth factors may be required for the selective growth of genetically altered cells. In this respect, it is worth noting that receptor/postreceptor alterations occurring in pituitary tumors may cause an increased action of stimulatory neurohormones with growth promoting properties as well as defective action of inhibitory inputs.
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PMID:Cellular alterations in pituitary tumors. 790 60

Since 1968, a total of 23 patients with multiple endocrine neoplasia type 2B (MEN 2B) have been identified in Japan. The mean age at diagnosis was 20.3 years (range, 6 to 39 years). All patients had neuromas and bumpy lips. All patients underwent thyroidectomy for medullary thyroid carcinoma (MTC). Ten of 23 patients had pheochromocytomas. One patient died of cerebral bleeding at the age of 43, 2 patients died of MTC at the age of 35 and 12. Five-, 10-, and 15-year survival rates were 100%, 92%, and 88%, respectively. The clinical course of MTC in MEN 2B in Japanese is not so aggressive when compared with about a 50% 10-year survival reported for Caucasians. Genetic analysis of 4 MTC and 1 pheochromocytoma from 4 patients with MEN 2B revealed no common changes in regard to loss of heterozygosity on 21 chromosomes or point mutations of the ras, Gs alpha, or p53 genes.
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PMID:Relatively good prognosis of multiple endocrine neoplasia type 2B in Japanese: review of cases in Japan and analysis of genetic changes in tumors. 795 33

Although pituitary tumors arise as benign monoclonal neoplasms, genetic alterations have not readily been identified in these adenomas. We studied restriction fragment abnormalities involving the GH gene locus, and mutations in the p53 and H-, K- and N-ras genes in 22 human GH cell adenomas. Twenty two nonsecretory adenomas were also examined for p53 and ras gene mutations. Seven prolactinoma DNA samples were tested for deletions in the multiple endocrine neoplasia-1 (MEN-1) locus, as well as for rearrangements in the hst gene, a member of the fibroblast growth factor family. Pituitary adenoma tissue and lymphocytes were obtained from patients at the time of transsphenoidal surgery. In DNA from GH-cell adenomas, identical GH restriction patterns were detected in both pituitary and lymphocyte DNA in all patients and in one patient with a mixed GH-TSH cell adenoma. Using polymerase chain reaction (PCR)-single stranded conformation polymorphism analysis, no mutations were detected in exons 5, 6, 7, and 8 of the p53 gene in GH cell adenomas nor in 22 nonsecretory adenomas. Codons 12/13 and 61 of H-ras, K-ras, and N-ras genes were also intact in GH cell adenomas and in nonsecretory adenomas. Site-specific probes for chromosome 11q13 including PYGM, D11S146, and INT2 were used in 7 sporadic PRL-secreting adenomas to detect deletions of the MEN-1 locus on chromosome 11. One patient was identified with a loss of 11p, and the remaining 6 patients did not demonstrate loss of heterozygosity in the pituitary 11q13 locus, compared to lymphocyte DNA. None of these patients, demonstrated hst gene rearrangements which also maps to this locus. These results show that p53 and ras gene mutations are not common events in the pathogenesis of acromegaly and nonsecretory tumors. Although hst gene rearrangements and deletions of 11q13 are not associated with sporadic PRL-cell adenoma formation, a single patient was detected with a partial loss of chromosome 11, including the putative MEN-1 site.
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PMID:Molecular screening of pituitary adenomas for gene mutations and rearrangements. 810 Aug 31

The medical records and histologic documents of 14 patients treated at our institution for a thymic carcinoid tumor were reviewed. There were 3 women and 11 men with an age range from 35 to 71 years. One patient had a multiple endocrine neoplasia syndrome; another had a neurofibromatosis. Twelve tumors were revealed by local symptoms and two were asymptomatic. One patient had Cushing's syndrome that appeared secondarily and was related to metastases. Tumors ranged from 6 to 20 cm and had the characteristic histologic appearance of atypical carcinoid tumor. Immunohistochemical evaluations were done. Tumors were positive for cytokeratin (92%), neuroendocrine markers (100%), and p53 oncoprotein (29%). S-100 protein antibody revealed numerous sustentacular cells in one case. Overall survival was 46% and 31% at 3 and 5 years, respectively. However, all patients died of the disease within 109 months as a result of local progression (n = 5), local relapse (n = 3), distant metastases (n = 8), or a combination of these reasons. Median survival was 71, 30, and 5 months for patients who had total resection (n = 4), partial resection (n = 5), or simple biopsy (n = 4), respectively (p = 0.023). In conclusion, thymic carcinoid tumors can be considered thymic neuroendocrine carcinomas because of their malignant behavior and histologic appearance of atypical carcinoid tumors. Complete surgical resection offers the best hope for long-term survival.
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PMID:Thymic neuroendocrine carcinoma (carcinoid): a clinicopathologic study of fourteen cases. 855 58

Abnormal cell proliferation is controlled by opposing actions of oncogene products (stimulatory) and tumour suppressor gene (TSG) products (inhibitory). The former are dominantly acting, i.e. only one copy needed for tumorigenesis, whilst for TSG both copies of the gene must be inactivated so these are recessive at a cellular level. For anterior pituitary tumours only one oncogene (Gsp) has been identified in a variable proportion (4-40%) of a single tumour subtype (somatotrophinomas). Contrariwise, allelic deletion studies, using a PCR-based microsatellite polymorphism analysis of DNA extracted from archival specimens, have shown significant loss of heterozygosity in 20-40% of all tumour subtypes at the locus of the putative MEN-1 gene (chr. 11q13); the retinoblastoma gene (chr. 13q 12-14), and 10q26. Moreover, these DNA microdeletions were concentrated in radiologically invasive tumours compared to noninvasive tumours (modified Hardy gdes 3 and 4 vs. 1 + 2). In addition, 50% of Cushing's adenomas showed presence of p53 immunopositivity, though no point mutations in exons 4-9 were found, by SSCP analysis, to account for this. These studies show that analysis of TSGs in pituitary adenomas may provide clues to their pathogenesis, and more importantly relate to clinical behaviour of the tumour, and hence aid decisions regarding management.
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PMID:Tumour suppressor genes in the pathogenesis of human pituitary tumours. 916 51


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