UNIPROT:P04637 - FACTA Search

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

Knowledge of the molecular events that govern human thyroid tumorigenesis has grown considerably in the past ten years. Key genetic alterations and new oncogenic pathways have been identified. Molecular genetic aberrations in thyroid carcinomas bear noteworthy resemblance to those in acute myelogenous leukemias. Thyroid carcinomas and myeloid leukemias both possess transcription factor gene rearrangements-PPARgamma-related translocations in thyroid carcinoma and RARalpha-related and CBF-related translocations (amongst others) in myeloid leukemia. PPARgamma and RARalpha are closely related members ofthe same nuclear receptor subfamily, and the PML-RARalpha and PAX8-PPARgamma fusion proteins both function as dominant negative inhibitors of their wild-type parent proteins. Thyroid carcinomas and myeloid leukemias also both harbor NRAS mutations (15-25% of both cancers) and receptor tyrosine kinase mutations--RET mutations in thyroid carcinomas and FLT3 mutations in myeloid leukemias. The NRAS and tyrosine receptor kinase mutations are not observed in the same thyroid carcinoma or leukemia patients, suggesting that multiple initiating pathways exist in both. Lastly, thyroid carcinomas and myeloid leukemias possess p53 mutations at relatively low frequency (10-15%) in patients who tend to be older and have more aggressive, therapy resistant disease. Such parallels are unlikely to occur by chance alone and argue that common mechanisms underlie these diverse epithelial and hematologic cancers. The comparison of thyroid carcinomas and myeloid leukemias may highlight areas of thyroid cancer investigation worthy of further focus. For example, few collaborating mutations have been defined in thyroid carcinomas even though they play a clear role in myeloid leukemias, as exemplified by RARalpha rearrangements and FLT3 mutations that together dictate the promyleocytic leukemia phenotype. Functional interactions between collaborating mutations are possible at multiple levels, and it is tempting to speculate that some thyroid carcinomas might develop through an unique combination or co-activation of RET and RAS and/or RET and PPARgamma (and/or other) signaling systems. In fact, the ELE1-RET (PTC3) fusion protein contains the ELE1 nuclear receptor co-activator domain and it appears to physically associate with and inhibit wild-type PPARgamma in some papillary carcinomas. The similarities of the fusion proteins in thyroid carcinoma and myeloid leukemia suggest that a more directed search for fusion genes in non-thyroid carcinomas is warranted. In fact, novel fusion genes have been identified recently in aggressive midline, secretory breast, and renal cell carcinomas, although the epithelial nature of the latter is not well-documented. Interestingly, these cancers all tend to present more frequently in adolescence and young adulthood in a manner similar to thyroid and myeloid malignancies that have fusion genes. The analyses of cancers that present earlier in life may enhance fusion gene recognition in other carcinoma types. Definition and biologic characterization of the precursor cells that give rise to thyroid carcinoma will also be important. Myeloid leukemias are thought to arise from stem/progenitor cells that acquire disturbed self-renewal and differentiation capacities but retain characteristics of the myeloid lineages. Although the presence of comparable stem/progenitor cells in the thyroid are not defined, distinct thyroid cancer lineages and patterns of differentiation exist and candidate stem/progenitor cells such as the p63-immunoreactive solid cell nests are apparent. A last important area is development of molecular-based therapies for thyroid carcinoma patients resistant to standard radio-iodine treatment. Treatments for such cancers are limited and pathways defined by thyroid cancer mutations are prime targets for pharmacologic interventions with molecular inhibitors. Tyrosine kinase inhibitors and nuclear receptor ligands have proven dramatically effective in some myeloid leukemia patients. Various molecular inhibitors are being investigated now in thyroid cancer models. Such developments predict that the thyroid cancer model will continue to provide biologic insights into human carcinoma biology and that improved pathologic diagnosis and treatment for thyroid cancer patients sit on the not too distant horizon.
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PMID:Molecular events in follicular thyroid tumors. 1620 39

According to classic theory of neogenesis, cancer arises from well-differentiated cell that in response to variety of factors de-differentiates, becomes able to proliferate without control and/or loses its ability to undergo apoptosis. According to another theory, cancers (at least cancers of some organs) originate from stem cells, which "by definition" are poorly differentiated and able to proliferate indefinitely. Therefore a lower number of abnormal events is necessary for these cells to escape proliferation-controlling mechanisms. With regard to papillary thyroid cancers it is still thought that it arises from well-differentiated thyreocyte. One of the characteristic features of cancer cell is chromosomal instability. Lowest number of such abnormalities is observed in well-differentiated thyroid cancers (including papillary cancer), intermediate - in poorly-differentiated cancers, while highest - in anaplastic cancers. Microarray analysis shows that despite of clinical heterogeneity, gene expression profiles of papillary cancers are very similar. Genetic anomalies predisposing to the development of papillary cancer most commonly regard proteins that possess kinase activity. Kinases phosphorylate other proteins, and play an extremely important role in signal transduction from outside the cell as well as inside the cell. Constitutive activation of some kinases may lead to the excessive and/or permanent activation of some transduction pathways specific for mitogens or growth factors. This results in excessive proliferation. The best known protein of such type which function is altered in papillary thyroid cancers is RET - a membrane-located growth factor-receptor with kinase activity. RET gene undergoes different rearrangements in this type of cancer. There are approximately 10 RET rearrangements known, with RET/PTC3 and RET/PTC1 being most common. In this anomaly kinase domain-encoding 3' end of RET gene is aberrantly bound to 5' end of another gene. Fusion protein synthesized on such hybrid template is not present in the cell membrane but in the cytoplasm, where it permanently activates transduction pathway specific for RET. NTRK1 gene encoding a member of family of neuronal growth factor receptors containing thyrosine kinase domain is also rearranged in papillary cancers. However, genes fused to its kinase domain-encoding sequence are different from the ones fused to RET. MET, a gene encoding another membrane protein with thyrosine kinase activity, which acts as a growth factor-receptor, is overexpressed in 70%-90% of papillary thyroid cancers. BRAF gene encoding another yet kinase transducing signals from RAS and RAF to the cell is mutated at position 1796 (T/A, amino acid substitution V599E) in 38-69% of papillary cancers. The presence of this activatory mutation is associated with higher degree of clinical advancement of the disease. In addition, in majority of papillary cancers tested, mutations of the genes encoding nuclear triiodothyronine receptors were found. Transgenic mice with both TRB allele replaced with dominant-negative TRB mutants develop aggressive thyroid cancers. Progression from papillary to anaplastic cancer is most possibly caused by the occurrence of additional anomalies within P53, RAS, NM23,b-catenin gene and other genes.
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PMID:[Genetic factors predisposing to the development of papillary thyroid cancer]. 1635 Jul 29

Carcinomas of the thyroid comprise a heterogeneous group of neoplasms with distinctive clinical and pathological characteristics. Over the past 15 years, the application of molecular technologies to the study of these neoplasms has elucidated critical genetic pathways associated with the development of specific thyroid tumor types. In papillary thyroid carcinoma (PTC), genetic events involve RET and TRK (rearrangements) and BRAF and RAS (mutations), although RAS mutations are uncommon except in the follicular variant of PTC. These genetic alterations, which rarely overlap in the same tumor, result in signaling abnormalities in the mitogen-activated protein kinase pathway. In contrast, genetic alterations in follicular carcinomas include PAX8-PPARgamma translocations and RAS mutations while mutations of CTNNB1 and p53 have been implicated in the development and progression of poorly differentiated and undifferentiated (anaplastic) thyroid carcinomas. Germline mutations of RET are responsible for the development of heritable forms of medullary thyroid carcinoma (MTC) while somatic mutations of this oncogene are found in a significant proportion of sporadic MTCs. The results of these studies not only have provided additional approaches to thyroid tumor classification, but also have stimulated the development of novel approaches to tumor diagnosis and additional parameters for prognostic assessment and potential biologic therapeutic strategies.
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PMID:Pathology and genetics of thyroid carcinoma. 1713 11

We report the characteristics of three cell lines (designated, SNU-80, SNU-373 and SNU-790), which were established from two papillary carcinomas and one anaplastic carcinoma obtained from three Korean thyroid carcinoma patients. All cell lines grow as adherent cells. Electron microscopy characteristically showed cytoplasmic invaginations of nuclei and intranuclear cytoplasmic inclusions. SNU-80 and SNU-790 cells showed a positive reaction to anti-cytokeratin antibody, and SNU-790 cells positivity for CK-19. All lines were free of mycoplasma or bacteria and were proven unique by DNA fingerprinting analysis. The p15 and p16 genes are deleted in the SNU-790 line. Mutations of the p53 gene were found in two lines (SNU-80 and SNU-373), but no mutations in the RET or MEN1 genes were observed. Mutations of the BRAF gene were found in the SNU-80 (G468R) and the SNU-790 (V599E) cell lines, but no mutations in the K-ras gene were present. SNU-80 and SNU-790 cells showed a positive reaction to anti-cytokeratin antibody, and no evidence of the production of thyroglobulin or calcitonin was observed. The cell lines were unable to trap radioactive iodine but did not contain TSH receptor. In addition, we investigated the mRNA expression levels of Tg, TSHR, TTF-1, PAX-8, NIS, IL-6, and LIF, and of the alpha, beta and gamma retinoic acid receptors in these cell lines. IL-6 was down-regulated in all three cell lines by all-trans-retinoic acid treatment. RAR-alpha was expressed but RAR-beta was not expressed in the three cell lines, and RAR-gamma was not expressed in SNU-790. Interestingly, RAR-beta (SNU-80 and SNU-373) and RAR-gamma (SNU-790) was up-regulated by all-trans-retinoic acid treatment. We believe that these well-characterized thyroid carcinoma cell lines may be useful tools for investigations on the biological characteristics of thyroid carcinoma, particularly for investigations related to gene alterations, especially of the BRAF gene. These cell lines may also be useful for redifferentiation therapy studies on thyroid carcinoma using all-trans-retinoic acid.
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PMID:Establishment and characterization of cell lines from three human thyroid carcinomas: responses to all-trans-retinoic acid and mutations in the BRAF gene. 1713 24

Most previous studies on RET and p53 proteins have focused on thyroid papillary carcinoma. We investigated the role of RET and p53 protein expressions using immunohistochemistry on 52 cases of thyroid follicular adenomas and studied the follow-up records of these patients. The range of follow-up period was 3 to 14 years. The patients were between 15 and 71 years of age with a median age of 34.5 years. There were 46 females and 6 males. Except for 3 cases, all patients were Malays. The minimum volume of the tumour was 1000 mm3 and the maximum was 512,000 mm3 with a median of 270,000 mm3. Eleven (21.2%) cases showed RET expression. RET expression was not statistically significant when cross-tabulated against sex (p = 0.322), ethnicity (p = 0.518), age (p = 0.466) and symptom duration (p = 0.144). Six (11.5%) of 52 cases showed p53 immunopositivity. p53 expressions were also not significantly correlated to the clinical parameters above. There was no correlation between RET and p53 protein expressions. The only statistically significant finding was the association of tumour volume with duration of symptoms (p = 0.05). All patients are alive at the time of writing. 3 had recurrent goitre, 2 of these were diagnosed as colloid goitre while the third was a follicular lesion. One patient suffered from depression requiring anti-depressant treatment. In conclusion, unlike papillary carcinoma in which the roles of ret and p53 oncogenes are known, their roles in influencing the behaviour of follicular adenoma has not been ascertained.
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PMID:RET and p53 expression in thyroid follicular adenoma: a study of 52 cases with 14 years follow-up. 1719 91

A radiation etiology is well known in thyroid carcinogenesis. RET oncogene rearrangement is the most common oncogenic alteration in Chernobyl-related papillary thyroid cancer (PTC). To find the characteristic alteration associated with RET rearrangements in radiation-induced thyroid cancers, we analyzed the RET oncogene by fluorescence in situ hybridization. The fluorescence in situ hybridization technique has the possibility of detecting RET rearrangements at a single-cell level regardless of the specific fusion partner involved and directly reveals RET copy number on a per-cell basis. Our study demonstrated RET amplification in all 3 cases of radiation-associated thyroid cancers but not in sporadic well-differentiated PTC (n = 11). Furthermore, RET amplification was observed in all 6 cases of sporadic anaplastic thyroid cancers (ATCs). The frequency of RET amplification-positive cells was higher in ATC (7.2%-24.1%) than in PTC (1.5%-2.7%). The highest frequency of RET amplification-positive cells was observed among ATC cases with a strong p53 immunoreactivity. In conclusion, we found RET amplification, which is a rare oncogenic aberration, in thyroid cancer. This report is the first one to suggest the presence of RET amplification in PTC and ATC. RET amplification was correlated with radiation-associated, high-grade malignant potency, and p53 accumulation, suggesting genomic instability. RET amplification might be induced by a high level of genomic instability in connection with progression of thyroid carcinogenesis and, subsequently, be associated with radiation-induced and/or high-grade malignant cases.
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PMID:RET oncogene amplification in thyroid cancer: correlations with radiation-associated and high-grade malignancy. 1727 Feb 45

Thyroid cancer is the most common endocrine malignancy. Most patients with thyroid cancer have a great chance for successful treating. There is, however, a group of patients with poor prognosis. The present researches of thyroid tumor markers have related to permanent diagnostic progress of circulating markers analysis (thyroglobulin, thyroid peroxidase, calcitonin and carcinoembryonic antigen), cellular markers determination and interpretation of results, also. A number of molecular markers have been studied. Diagnostic value of some of them, e.g. TSHR, RET Ras, is well known. Others have investigated continually. Overexpression of BRAF, Met, and p53 has been correlated with aggressiveness of the cancer. Markers said to be of prognostic value in thyroid cancer are CD82, c- myc and Plk-1. The combination of markers: galectin-3, fibronectin and HBME-1 have proven to be sensitive for differentiated thyroid cancer. Further studies on new cellular thyroid markers are essential. The current review presents data concerning the well known cellular markers in thyroid cancer.
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PMID:[Cellular tumor markers in thyroid cancer]. 1768 30

Molecular mechanism of thyroid carcinogenesis has been well studied through the discovery of genetic abnormalities such as RET/PTC rearrangement and BRAF mutation, both of which constitutively activate MAP kinase pathway and are frequently found in papillary thyroid cancer. The TP53 mutation is thought to play a critical role in transformation of differentiated thyroid cancer into anaplastic thyroid cancer. Besides these genetic alterations, cancer stem cell theory has recently been applied to thyroid field. A better understanding of thyroid cancer stem cell may not only ameliorate our comprehension of thyroid cancer biology, but also open the possibility of innovative diagnostic procedures and development of novel targeted therapies. In this article, we mainly review thyroid carcinogenesis based on the evidence of radiation-induced cancer and cancer stem cell hypothesis.
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PMID:[Molecular mechanism of thyroid carcinogenesis]. 1801 55

Morphology and function of human organs and tissues are well maintained in the improved SCID (severe combined immunodeficient) mice for a long period (approximately 3 years). To study the radiation-induced damage on human thyroid gland, human thyroid tissues transplanted to SCID mice were consecutively exposed to X-rays or 137Cs gamma-rays at high and low dose rates for approximately 2 years. Consecutive irradiation resulted in the disappearance of follicles and significant decrease of thyroid hormone secretion. Mutations in p53 and c-kit genes were induced significantly in human thyroid tissues from old head and neck cancer patients (av. 56.8 years, 4 males) and a Graves' disease patient (20 years, male) over the dose of 24 Gy (44.7+/-5.9 Gy, mean+/-S.E) and 11 Gy (20.2+/-7.8 Gy), respectively, while mutations were not detected at lower doses nor in unexposed matched controls (p < 0.01). There were significant differences in mutation frequency in the transplanted human thyroid tissues (31 years, female) between high dose rate (1.19 Gy/min; 8 in 20 tissues) and low dose rate (0.00023 Gy/min; 0 in 14 tissues) exposures (p < 0.01). Mutations were not detected in RET, K-ras and beta-catenin genes. Expression analysis by GeneChip indicated that gene expression was also well maintained in the transplanted human thyroid tissues. However, lower doses (1 or 3 Gy) of 137Cs gamma-rays can induce changes in gene expression in the transplanted human thyroid tissues. Furthermore, fatally irradiated SCID mice could survive with human bone marrow cell transplantation. When about half of mouse bone marrows were replaced by human bone marrow cells, the human bone marrow cells showed high sensitivity to gamma-irradiation; 28.0% and 0.45% survival after 0.5 and 2.0 Gy exposures, respectively.
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PMID:Differential radiation sensitivity to morphological, functional and molecular changes of human thyroid tissues and bone marrow cells maintained in SCID mice. 1877 92

Exposure to ionizing radiation is a well-known risk factor for a number of human cancers, including leukemia and thyroid cancer. It has been known for a long time that exposure of cells to radiation results in extensive DNA damage; however, a small number of studies have tried to explain the mechanisms of radiation-induced carcinogenesis. The high prevalence of RET/PTC rearrangements in patients who have received external radiation, and the evidence of in vitro induction of RET rearrangements in human cells, suggest an enhanced sensitivity of the RET genomic region to damage by ionizing radiation. To assess whether RET is indeed more sensitive to radiations than other genomic regions, we used a COMET assay coupled with fluorescence in situ hybridization, which allows the measurement of DNA fragmentation in defined genomic regions of single cells. We compared the initial DNA damage of the genomic regions of RET, CXCL12/SDF1, ABL, MYC, PLA2G2A, p53, and JAK2 induced by ionizing radiation in both a lymphoblastoid and a fetal thyroid cell line. In both cell lines, RET fragmentation was significantly higher than in other genomic regions. Moreover, a differential distribution of signals within the COMET was associated with a higher percentage of RET fragments in the tail. RET was more susceptible to fragmentation in the thyroid-derived cells than in lymphoblasts. This enhanced susceptibility of RET to ionizing radiation suggests the possibility of using it as a radiation exposure marker.
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PMID:Enhanced sensitivity of the RET proto-oncogene to ionizing radiation in vitro. 1897 43

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