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)

This discussion reviews molecular abnormalities in thyroid carcinoma and points out areas where these molecular defects might be applicable to thyroid carcinogenesis induced by radiation exposure. Both medullary and papillary follicular thyroid carcinoma are discussed. The multiple endocrine neoplasia type 2 gene on chromosome 10 is one of the genes responsible for medullary thyroid carcinoma. Genes thought to be involved in papillary and follicular thyroid carcinoma include the gsp, ret, trk, ras, met, and p53 oncogenes. Research is continuing to: A) find new genes whose regulation and/or expression may be responsible for these disorders; B) determine the mechanisms by which gene mutations can lead to thyroid carcinogenesis, and C) devise methods to prevent or counter the effects of these mutational events.
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PMID:An overview of molecular abnormalities leading to thyroid carcinogenesis: a 1993 perspective. 936 82

Mice bred to carry germline Rb and p53 null alleles are associated with a tumor spectrum that overlaps with the inherited multiple endocrine neoplasia-1 (MEN1) and MEN2 syndromes in humans, including medullary thyroid cancer (MTC). To study the genetic basis for these tumors, we microdissected MTC specimens or obtained fresh MTC tissue from nine independent Rb(+/-) p53(+/-) mice, amplified the region of the Ret gene known to be mutated in human MTC, and detected acquired missense Ret mutations in four different mice. These mutations were localized to a group of tandem cysteines which are analogous to activating germline mutations observed in human MEN2A and familial MTC (FMTC). To determine whether the remaining wild type Rb allele was inactivated in these murine MTC samples, we subjected tumor tissue to immunohistochemical staining with an Rb antibody, and demonstrated the absence of RB staining in murine MTC, while normal tissue retained RB nuclear staining. These findings demonstrate the ability of the gene knockout model to recapitulate somatic multi-step tumorigenesis and suggest that the development of a murine neuroendocrine tumor requires mutational dysregulation within both receptor tyrosine kinase and nuclear tumor suppressor gene pathways.
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PMID:RET cooperates with RB/p53 inactivation in a somatic multi-step model for murine thyroid cancer. 979 40

The t(11;19)(q23;p13.1) translocation is frequently found in adult myeloid leukemia. In the MLL/MEN fusion protein generated by this translocation, most of the coding region of the MEN protein, an RNA polymerase II elongation factor, is fused to the N-terminal third of the MLL protein, a possible transcriptional regulator. However, the molecular mechanism of leukemogenesis by the fusion protein remains unclear. We investigated the effects of the fusion protein on p53 function using luciferase assays. Overexpression of the fusion protein suppressed the transactivation ability of p53. This negative effect of the fusion protein on p53 function was dependent on the region derived from MEN. Moreover, p53 coimmunoprecipitated with MLL/MEN as well as MEN, suggesting that the fusion protein binds to p53 through the MEN region. We found that MEN binding to p53 was mediated by its N-terminal region and repression of p53 transcriptional activity was mediated by its C-terminal region. We also found that these two functional regions were essential for the transformation of Rat1 cells mediated by MEN. Although we could not demonstrate a functional difference between MLL/MEN and MEN in this study, these data suggest that the MLL/MEN chimeric transcriptional regulator may exert its oncogenic activity by inhibiting the function of the p53 tumor-suppressor protein by binding to it. Our findings provide a novel insight into the leukemogenic mechanism exerted by the t(11;19)(q23;p13.1) translocation.
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PMID:Transcriptional inhibition of p53 by the MLL/MEN chimeric protein found in myeloid leukemia. 1023 72

Adrenocortical masses are among the most common tumors in humans. However, only a small proportion of these tumors cause endocrine diseases (such as primary hyperaldosteronism, hypercortisolism, hyperandrogenism, or hyperestrogenism), and less than 1% are malignant. In recent years, several of the molecular and cellular mechanisms involved in adrenal tumorigenesis have been unraveled. As a result, alterations in intercellular communication, local production of growth factors and cytokines, and aberrant expression of ectopic receptors on adrenal tumor cells have been implicated in adrenal cell growth, hyperplasia, tumor formation, and autonomous hormone production. Genetic and chromosomal abnormalities, including several chromosomal loci and the genes coding for p53, p57, and insulin-like growth factor II, have been reported in adrenal tumors. In addition, chromosomal markers have been identified in several familial syndromes associated with adrenal tumors; these include menin, which is responsible for multiple endocrine neoplasia type I, and the hybrid gene that causes glucocorticoid-remediable hyperaldosteronism. Algorithms for endocrine testing and imaging procedures are now available to codify screening for, confirmation of, and differentiation of causes of primary hyperaldosteronism and the Cushing syndrome. Improved radiologic, computerized radiologic, and magnetic resonance imaging techniques, as well as selective catheterization studies, are useful in localizing adrenal tumors and in distinguishing between benign and malignant lesions and between functional and nonfunctional nodules. Finally, recent refinements in the field of minimally invasive general surgery have made laparoscopic adrenalectomy the method of choice for removing adrenal tumors; this type of surgery allows shorter hospital stays, lower morbidity rates, and faster recovery.
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PMID:Adrenocortical tumors: recent advances in basic concepts and clinical management. 1035 96

Multiple endocrine neoplasia type 1 (MENI) is a promising model to understand endocrine and other tumors. Its most common endocrine expressions are tumors of parathyroids, entero-pancreatic neuro-endocrine tissue, and anterior pituitary. Recently, collagenomas and multiple angiofibromas of the dermis also have been recognized as very common. MEN1 can be characterized from different perspectives: (a) as a hormone (parathyroid hormone, gastrin, prolactin, etc.) excess syndrome with excellent therapeutic options; (b) as a syndrome with sometimes lethal outcomes from malignancy of entero-pancreatic neuro-endocrine or foregut carcinoid tissues; or (c) as a disorder than can give insight about cell regulation in the endocrine, the dermal, and perhaps other tissue systems. The MEN1 gene was identified recently by positional cloning, a comprehensive strategy of narrowing the candidate interval and evaluating all or most genes in that interval. This discovery has opened new approaches to basic and clinical issues. Germline MEN1 mutations have been identified in most MEN1 families. Germline MENI mutations were generally not found in families with isolated hyperparathyroidism or with isolated pituitary tumor. Thus, studies with the MENI gene helped establish that mutation of other gene(s) is likely causative of these two MEN1 phenocopies. MEN1 proved to be the gene most frequent L4 mutated in common-variety, nonhereditary parathyroid tumor, gastrinoma, insulinoma, or bronchial carcinoid. For example, in common-variety parathyroid tumors, mutation of several other genes (such as cyclin D1 and P53) has been found, but much less frequently than MEN1 mutation. The majority of germline and somatic MEN1 mutations predicted truncation of the encoded protein (menin). Such inactivating mutations strongly supported prior predictions that MEN1 is a tumor suppressor gene insofar as stepwise mutational inactivation of both copies can release a cell from normal growth suppression. Menin is principally a nuclear protein; menin interacts with junD. Future studies, such as discovery of menin's metabolic pathway, could lead to new opportunities in cell biology and in tumor therapy.
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PMID:The gene for multiple endocrine neoplasia type 1: recent findings. 1042 35

A series of 50 gastric endocrine tumors classified according to Rindi et al. [1] comprised 12 small cell neuroendocrine carcinomas (NEC) and 38 ECL cell carcinoids, of which 22 associated with type A chronic atrophic gastritis (A-CAG), eight with hypertrophic gastropathy due to combined Multiple Endocrine Neoplasia and Zollinger/Ellison syndrome (MEN/ZES), and eight sporadic. Variables found to predict tumor malignancy were: size > 2 cm, > 2 mitoses and > 130 Ki67 positive cells/10 high power fields (HPF), grade 2 or 3 histology, angioinvasion, p53 protein nuclear accumulation, and the presence of a single tumor. None of these factors increased significantly the predicting ability of tumor classification itself, although grade 2 + 3 shows 100 percent negative predictive value and Ki67 and angioinvasion 100 percent positive predictive value. When the mostly non-malignant A-CAG and MEN-ZES tumors were analysed against the mostly malignant sporadic and NEC tumors, a positive predictive value of 90 percent and a negative predictive value of 93 percent was obtained. Investigation of a larger tumor series is under way with the aim to develop an optimal model for prognostic evaluation of gastric endocrine tumors.
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PMID:Natural history, clinicopathologic classification and prognosis of gastric ECL cell tumors. 1046 59

Modern theory of tumorigenesis suggests that genetic alterations may play a role in the initiation and promotion of pituitary adenomas. Gsp and MEN-1 genes play a role in the initiation event, while p53, ras, Rb and nm23 genes play some role in the progression of the tumor. Gsp gene, that may play an important role in 40% of GH-producing tumor, activation of 10% of non-functioning tumors and 6% of corticotroph adenomas, produces cAMP, which stimulates cyclin D1 and D3 which later produce cdk2 and cdk4 respectively, and stimulates cell progression from G1 to S phase. cAMP also induces ras gene, which inhibits binding of pRb with E2F that is necessary to prevent action of E2F in accelerating cell cycle. MEN-1 gene, although found in some sporadic tumors, is more likely associated with familial adenoma. p53, Ras, Rb, nm23 and c-myc genes play some role in the promotion of tumors especially toward their aggressive variant. p53 gene, which is found in up to 60% of ACTH producing adenomas, through action of p21 inhibits progression of cell cycle from G1 to S phase, by inhibiting the action of cyclin D3 on cdk4. Ras oncogene, in cooperation with c-myc gene, prevents the binding of pRb with E2F, which is necessary for preventing progression cell cycle, resulting in progression of cell cycle from G1 to S phase. Nm23 gene inhibits the action of cyclin B and arrests the cell in G2 phase. Further studies will not only be helpful in understanding the genetic pathogenesis and prognosis of pituitary tumors, but also in developing a novel treatment for patients with pituitary adenomas.
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PMID:Molecular pathogenesis of pituitary adenomas: a review. 1048 84

Neuroendocrine tumours of the gastroenteropancreatic tract are growths originating either from the cells of the diffuse (neuro)endocrine system, such as gastric carcinoids and islet cell tumours, or from nerve structures, such as duodenal paragangliomas. A great deal of cellular and clinical information is available whereas data concerning the genetic and molecular basis of diffuse (neuro)endocrine system tumours of the gastroenteropancreatic tract are very few and fragmentary. The present paper reviews some genetic and molecular investigations of potential interest. As far as concerns the genetic background of diffuse (neuro)endocrine system tumours, the frequent loss of heterozygosity for the locus of Multiple Endocrine Neoplasia type 1 in tumour samples suggests a potential role of the Multiple Endocrine Neoplasia gene. With regard to the molecular background, no mutation of the p53 or retinoblastoma susceptibility (Rb) genes has been demonstrated. Useful data have been generated by in situ analysis of the proliferation activity of tumours.
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PMID:Molecular aspects of the endocrine tumours of the pancreas and the gastrointestinal tract. 1060 17

This paper aims at describing the neuroendocrine cell growths of the gastric mucosa and their pathogenesis. In the corpus-fundus mucosa, gastric neuroendocrine nontumor growths are mostly represented by hyperplastic and, more rarely, dysplastic enterochromaffin-like (ECL) cell changes, while hyperplasia of gastrin-producing (G) cells and, rarely, of somatostatin-producing (D) cells are reported in the antral mucosa. The large majority of gastric neuroendocrine tumors is made by benign, gastrin-dependent, well-differentiated ECL cell growths arising in a background of chronic atrophic gastritis (type I) or, more rarely, associated with type I multiple endocrine neoplasia (MEN I) and Zollinger-Ellison (ZE) syndromes (type II). Rare, aggressive, frequently metastatic, well-differentiated gastric neuroendocrine tumors are gastrin-independent and arise as sporadic lesions in the absence of specific gastric pathology (type III). Poorly differentiated neuroendocrine carcinomas (PDEC) are rare, highly aggressive carcinomas. A central role for gastrin is postulated in the pathogenesis of well-differentiated type I and II ECL cell tumors with different possible genetic mechanisms. A more complex genetic background, independent of gastrin and possibly implicating altered function or mutation of p53 and other genes is highly suspected for the development of aggressive type III ECL cell carcinomas and PDECs.
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PMID:Morphological, molecular, and prognostic aspects of gastric endocrine tumors. 1073 15

It has been suggested that mutations in the menin gene play a role in the development of multiple endocrine neoplasia type 1 (MEN1)-associated and of sporadic forms of low- and intermediate-grade neuroendocrine tumors of the lung. In the present study, eight tumor specimens of large cell neuroendocrine carcinoma (LCNEC) and 13 of small cell lung cancer (SCLC), which represent a high-grade category of neuroendocrine tumors, were examined for the potential involvement of menin alterations as well as for the expression of various neuroendocrine markers and p53 and Rb abnormalities. All specimens expressed multiple neuroendocrine markers as expected and almost invariably carried p53 and Rb alterations. Unexpectedly, however, mutations in the menin gene were not detected in any of the high-grade neuroendocrine tumors examined. We thus conclude that menin mutations do not play a crucial role in the pathogenesis of high-grade subsets, in contrast to their suggested significant role in the development of low- and intermediate-grade subsets. Interestingly, loss of heterozygosity (LOH) in the menin gene appeared to be more prevalent in LCNEC (50%) than in SCLC (22%), suggesting a possible distinction between SCLC and LCNEC.
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PMID:Characterization of high-grade neuroendocrine tumors of the lung in relation to menin mutations. 1076 Jun 91


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