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)

The p53 protein, a negative regulator of cell growth, plays an important role in the pathogenesis of many human tumours following gene mutation and/or deletion. We screened a large number of sporadic pituitary tumours for p53 protein accumulation suggestive of gene mutation. Samples were divided into benign adenomas (n = 95) and invasive tumours with local or distant invasion (n = 26). All main tumour classes were represented. Putative p53 mutations were detected by immunohistochemistry on paraffin-embedded sections using polyclonal CM-1 and monoclonal DO-7 and PAb1801 antibodies. Results were compared to normal post-mortem pituitary tissue controls (n = 17). p53 protein accumulation was detected in invasive tumours (16%), but only in corticotrophinomas (2/4) and non-functional tumours (4/15). In non-invasive adenomas, protein accumulation was observed only in ACTH-secreting tumours where 50% were positive (16/32). No protein accumulation was identified in any control tissue. These results indicate that p53 protein accumulation may play a role in the development of Cushings adenomas and in the progression of non-functional tumours to the invasive state.
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PMID:P53 protein accumulates in Cushings adenomas and invasive non-functional adenomas. 796 51

The p53 protein, a negative regulator of cell growth, plays an important role in the pathogenesis of many human tumours following gene mutation and/or deletion. We screened a large number of sporadic pituitary tumours for p53 protein accumulation suggestive of gene mutation. Samples were divided into benign adenomas (n = 95) and invasive tumours with local or distant invasion (n = 26). All main tumour classes were represented. Putative p53 mutations were detected by immunohistochemistry on paraffin-embedded sections using polyclonal CM-1 and monoclonal DO-7 and PAb1801 antibodies. Results were compared to normal post-mortem pituitary tissue controls (n = 17). p53 protein accumulation was detected in invasive tumours (16%), but only in corticotrophinomas (2/4) and non-functional tumours (4/15). In non-invasive adenomas, protein accumulation was observed only in ACTH-secreting tumours where 50% were positive (16/32). No protein accumulation was identified in any control tissue. These results indicate that p53 protein accumulation may play a role in the development of Cushings adenomas and in the progression of non-functional tumours to the invasive state.
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PMID:p53 Protein accumulates in Cushings adenomas and invasive non-functional adenomas. 785 82

Nelson's syndrome is the appearance and/or progression of ACTH-secreting pituitary macroadenomas in patients who had previously undergone bilateral adrenalectomy for Cushing's disease. Extremely high plasma ACTH levels and aggressive neoplastic growth might be explained by the lack of appropriate glucocorticoid negative feedback due to defective glucocorticoid signal transduction. To study the glucocorticoid receptor (GR) gene in Nelson's syndrome, DNA was extracted from pituitary adenomas and leukocytes of four patients with this condition and amplified by PCR for direct sequence analysis. In one of the tumors, a heterozygous mutation, consisting of an insertion of a thymine between complementary DNA nucleotides 1188 and 1189, was found in exon 2. This frame-shift mutation led to premature termination at amino acid residue 366 of the wild-type coding sequence, excluding the expression of a functioning receptor protein from the defective allele. The mutation was not detected in the sequence of the GR gene in the patient's leukocyte DNA, indicating a somatic origin. By lowering the receptor number in tumorous cells, this defect might have caused local resistance to negative glucocorticoid feedback similar to that caused by the presence of a null allele in a kindred with the generalized glucocorticoid resistance syndrome. P53 protein accumulation, previously reported in 60% of corticotropinomas, could not be detected in any of the four pituitary tumors examined by immunohistochemistry. We suggest that a somatic GR defect might have played a pathophysiological role in the tumorigenesis of the corticotropinoma bearing this mutation.
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PMID:Nelson's syndrome associated with a somatic frame shift mutation in the glucocorticoid receptor gene. 855 Jul 38

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

A lot of evidence supports the existence of a monoclonal origin for pituitary tumors, and several genetic alterations have already been confirmed as necessary or sufficient for unrestrained cellular growth and pituitary function. The p53 gene, a known tumor-suppressor gene (TSG), encodes a protein that exerts antiproliferative effects such as cell-growth arrest and apoptosis in response to several types of stimuli. In fact, several human cancers are believed to be caused by p53 mutations. In the case of pituitary tumors, p53 protein accumulation has been described in ACTH-secreting pituitary adenomas. Since increased amounts of the p53 protein are often related to mutations of its gene, we decided to explore the existence of p53 mutations in the tumor tissues of 9 patients bearing non-invasive corticotropinomas, excised by the transphenoidal route. We screened mutations in exons 5 to 8 of the p53 gene by the PCR-SSCP analysis. We were not able to find any mutation in the exons investigated. Our results are in close accordance with those obtained previously for other types of pituitary tumors.
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PMID:Absence of mutations in the p53 tumor suppressor gene in non-invasive Cushing adenomas. 1068 66

Inactivating mutations of TP53, a tumor suppressor gene, are associated with abnormal cell proliferation. Although p53 expression is common in many human malignancies, p53 protein has seldom been evaluated in pituitary tumors. When detected, the percentage of p53-positive cells is low, and, in general, it is exclusive for invasive lesions. The aim of the present study was to use immunohistochemistry to determine the presence of p53 protein in pituitary adenomas from tumor samples of 163 surgeries performed in 148 patients (40% male, 60% female). In 35% of the cases the adenoma was nonfunctional, while in the others it was associated with PRL, GH and/or ACTH endocrine hypersecretion syndrome. Macroadenomas were observed in 83.2% of the cases with available neuroimage evaluation, of which 28% invaded the cavernous, sphenoid and/or ethmoidal sinus, bone, third ventricle or subfrontal lobe. p53 protein was detected in 2/148 patients (1.3%). Immunohistochemistry was positive for PRL and GH in these cases. Due to the high percentage of invasive pituitary adenomas found in our study, the low frequency of p53 detection suggests that it is inadequate as a routine marker for aggressiveness and as a predictive factor of tumor behavior.
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PMID:Expression of p53 protein in pituitary adenomas. 1201 41

Pituitary carcinomas are very rare neoplasms with a poor prognosis. We report a case of Cushing's disease resulting from a pituitary carcinoma in a 22-yr old female, who died of massive hepatic failure. At autopsy, there was invasion of the parasellar structures and vasculature by the tumor, which stained positively only for ACTH. There were two metastatic nodules in the liver, which also stained positively for ACTH. When compared to other cases of Cushing's disease (n = 52), other pituitary adenomas (n = 292). and normal pituitary tissues (n = 21), the pituitary carcinoma was the only one with c-erbB-2 membrane staining in both the sellar-located tissue and liver metastasis. C-erbB-2 staining was present in the cytoplasm of a variable number of cells in 40% of the invasive adenomas (n = 103), while only 1.2% of the noninvasive tumors (n = 241) expressed this protein (p < 0.001). No particular immunohistological type preferentially expressed this protein. In normal pituitary tissues, 10% of the cells expressed cytoplasmic c-erbB-2. A higher index of proliferating cell nuclear antigen (PCNA) in the primary tumor and liver metastasis (10%) was also found compared to other ACTH-secreting adenomas (invasive, 3.4 -t 1 S% vs 1 ii +/- 1.5% in noninvasive) and other pituitary tumors (invasive, 2.9 +/- 1.5% vs 1.5 +/- 1.3% in noninvasive). The PCNA index was significantly higher in invasive tumors than in noninvasive adenomas (p = 0.004). PCNA staining was negative in normal pituitary tissues. Staining for p53, pRB and p(2ras) was negative in the carcinoma and liver metastasis. We suggest that the c-erbB-2 membrane pattern and a higher PCNA index may indicate a worse prognosis in adenohypophyseal neoplasia.
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PMID:Adrenocorticotropin-Producing Pituitary Carcinoma with Expression of c-erbB-2 and High PCNA Index: A Comparative Study with Pituitary Adenomas and Normal Pituitary Tissues. 1211 62

Pituitary carcinomas are only defined by their metastatic growth, which may be intracranial or systemic. To establish further morphological and immunohistochemical differences between pituitary carcinomas and adenomas, 19 ACTH-secreting adenomas (10 non invasive and 9 invasive) and 2 ACTH-secreting carcinomas with their metastases were studied for expression of the intermediate filaments keratin and vimentin and the tumor-associated antigens Ki67, proliferating cell nuclear antigen (PCNA), epidermal growth factor (EGF), cathepsin D, p53, and carcinoembryonic antigen (CEA). Immunohistochemistry was performed using avidin-biotin techniques on formalin-fixed, paraffin-embedded tissue. With the exception of one noninvasive pituitary adenoma, one carcinoma, and the metastases, all tumors contained keratin; none contained vimentin. All tumors stained negative for CEA and p53. Eleven (58.5%) adenomas and both pituitary carcinomas contained Ki67-positive nuclei; 14 (74%) adenomas and one carcinoma revealed PCNA. No correlation was found between the two markers. Seven (38%) adenomas showed a labeling index <1 % for cathepsin D, whereas none of the carcinomas or metastases did so. EGF was found in 7 (38%) adenomas and in both carcinomas. A tendency to a higher rate of EGF positivity in the invasive adenomas was observed. The metastases showed a higher labeling index, and far more intense staining results for Ki67, PCNA, and EGF than the primary tumor. The metastases also had a higher proliferation rate and growth factor content than the carcinoma itself.
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PMID:Proliferation Markers and EGF in ACTH-Secreting Adenomas and Carcinomas of the Pituitary. 1211 89

Ataxia-telangiectasia (AT) syndrome (cerebellar ataxia, oculocutaneous telangiectasias, immunodeficiency, susceptibility to infections, and neoplasia) is associated with cyto- and nucleomegaly in several organ systems. Our aim was to determine (1) whether such cellular abnormalities in the pituitary selectively involve specific cell types, and (2) the proliferation and DNA ploidy status of such cells. Three AT autopsy pituitaries were studied by histology, immunohistochemistry (pituitary hormones, MIB-1, p53 protein), in situ hybridization (pituitary hormones), and Feulgen stain image analysis for ploidy. Results indicated that, in adenohypophyses the scattered pleomorphic, bizarre nuclei were mainly those of somatotrophs and corticotrophs, growth hormone (GH), or adrenocorticotropic hormone (ACm) immunoreactive and expressing the GH or ACTH gene, respectively. Cyto- and nucleomegaly were less frequent in other secretory cells but were also noted in pituicytes of the posterior lobe. Affected cells were immunonegative for MIB-1 and for p53 protein. Image morphometric DNA analysis showed the bizarre cells to be aneuploid with complex histogram patterns, including many nuclei with DNA contents >8 n. No adenomas were found. We conclude that in AT adenohypophyseal cells with cyto- and nucleomegaly, as well as pleomorphism, synthesize and store adenohypophyseal hormones, mainly GH or ACTH. They and affected pituicytes are nonproliferative and are aneuploid.
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PMID:Pituitary Changes in Ataxia-Telangiectasia Syndrome: An Immunocytochemical, In Situ Hybridization, and DNA Cytometric Study of Three Cases. 1211 23

Adrenocortical carcinoma is a rare tumor that carries a very poor prognosis. Despite efforts to develop new therapeutic regimens to treat this disease, surgery remains the mainstay of treatment. Laboratory studies of adrenocortical cancers have revealed a wide variety of signaling pathways that can be altered in these neoplasms. Although ACTH signaling through adenylyl cyclase and protein kinase A is important for normal adrenal cellular physiology, there is evidence to suggest that this pathway may inhibit the growth of adrenocortical tumors, and that inactivation of the ACTH receptor may promote tumor formation. Although multiple signal transduction pathways are essential for normal adrenal growth and hormone secretion, efforts to identify events required for neoplastic transformation have met with limited success. Alterations that have frequently been observed in adrenocortical carcinoma include up-regulation of the IGF-II system, as well as mutations in TP53 and RAS. Current studies aim to elucidate the mechanisms of tumor growth by studying proproliferative signaling pathways, such as those involving Akt/PKB and the mitogen-activated protein kinases (MAPKs). Although studies of single pathways have been helpful in guiding investigations, new tools to study the integration and multiplicity of signaling pathways hold the hope of improved understanding of the signaling pathway alterations in adrenocortical cancer.
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PMID:Signaling pathways in adrenocortical cancer. 1211 79


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