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)

Molecular mechanisms of pituitary tumorigenesis were studied using Polymerase chain reaction-single stranded conformational polymorphism with DNA sequencing to identify potential mutations in the ras protooncogenes and the tumor suppressor gene p53 in invasive pituitary adenomas and carcinomas. Sequencing of exons 5 through 8 of the p53 gene revealed no mutations, nor were mutations detected in the N- or K-ras protooncogenes in four of the carcinomas and their respective metastatic deposits. Point mutations of H-ras however, were identified in three distant metastatic pituitary tumor secondaries, but not in their respective primary pituitary carcinomas, or in six invasive adenomas. Two of the mutations included a G to C substitution at codon 12, and a G to A substitution at codon 18, resulting in a glycine to arginine, and an alanine to threonine change at these amino acids, respectively. A third mutation involved a single base pair (adenine) deletion in codon 3 of H-ras which causes a frame shift, resulting in a termination signal at codon 19. These results suggest that point mutations in p53 and ras are not associated with pituitary tumorigenesis, however, point mutations of the H-ras gene may be important in the formation and or growth of pituitary metastases. This observed genomic instability will be of value in predicting the potential metastatic behavior of these aggressive pituitary tumors.
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PMID:H-ras mutations in human pituitary carcinoma metastases. 815 9

Although almost all pituitary tumors are benign adenomas, a surprisingly large number of these tumors invade tissues outside of the pituitary gland. Such invasion, by itself, is not diagnostic of pituitary carcinomas, which are exceedingly rare (0.13% of 2,342 pituitary tumors in one series). Several different criteria are available to determine whether a tumor is invasive. Intraoperative biopsies demonstrate an 85% incidence of microscopic invasion of the dura. Evidence of gross invasion at surgery and radiologic evidence of invasion on magnetic resonance imaging (MRI) and computed tomographic (CT) scans occur at a much lower incidence but may be more predictive of surgical cure. Invasive adenomas also have higher proliferation rates than do noninvasive adenomas, as shown by immunohistochemical detection of proliferating cell nuclear antigen (PCNA), Ki-67, and MIB-1. The expression of p53, increased epidermal growth factor receptors, and protein kinase C activity also correlate with invasion and aggressive behavior. Clinically significant invasion is more frequent with macroadenomas. Macroadenomas of all pituitary tumor subtypes except gonadotroph macroadenomas have a greater than 50% incidence of gross invasion. Currently, there is no accepted means of predicting an adenoma's clinically significant invasiveness and long-term aggressiveness.
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PMID:Aggressive pituitary tumors. 977 77

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

While pituitary tumors can be induced in rats by the administration of estrogen, susceptibility to such tumors is highly strain dependent. In this study, 21-day-old male rats of two strains-Fischer 344 (F344) strain, which is particularly susceptible to pituitary tumors, and Sprague-Dawley (SD) strain, which is relatively resistant, were treated with diethylstilbestrol (DES) over a period of 10 days. Reverse-transcriptase polymerase chain reaction (RT-PCR) was used to analyze the expression levels of two tumor suppressor genes, p53 and rb, in the pituitaries. In SD rats, both p53 and rb mRNA appeared to increase in response to DES treatment, while in F344 rats they remained undetectable. Western blot analysis revealed that protein levels of cyclin D, which is a cell cycle regulating protein thought to be a potential oncogene, decreased in response to DES treatment in F344 rats but remained constant in SD rats. The observed differences in the expression levels of p53, rb and cyclin D suggest that they might be involved in the primary process of estrogen-induced pituitary tumor development prior to detectable tumor growth.
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PMID:Potential involvement of tumor suppressor gene expression in the formation of estrogen-inducible pituitary tumors in rats. 1081 Dec 86

The pituitary tumor transforming gene, PTTG, is abundantly expressed in several neoplasms. We recently showed that PTTG overexpression is associated with apoptosis and therefore have now studied the role of p53 in this process. In MCF-7 breast cancer cells that express wild type p53, PTTG overexpression caused apoptosis. p53 was translocated to the nuclei in cells expressing PTTG. Overexpression of p53, along with PTTG, augmented apoptosis, whereas expression of the human papillomavirus E6 protein inhibited PTTG-induced apoptosis. In MG-63 osteosarcoma cells that are deficient in p53, PTTG caused cell cycle arrest and subsequent apoptosis that was inhibited by caspase inhibitors. A proteasome inhibitor augmented PTTG expression in stable PTTG transfectants, suggesting that down-regulated PTTG expression is required for cell survival. Finally, MG-63 cells expressing PTTG showed signs of aneuploidy including the presence of micronuclei and multiple nuclei. These results indicate that PTTG overexpression causes p53-dependent and p53-independent apoptosis. In the absence of p53, PTTG causes aneuploidy. These results may provide a mechanism for PTTG-induced tumorigenesis whereby PTTG mediates aneuploidy and subsequent cell transformation.
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PMID:Pituitary tumor transforming gene causes aneuploidy and p53-dependent and p53-independent apoptosis. 1101 29

The current model of human neoplasia invokes a number of potential genomic alterations that impact cellular phenotype and proliferative rates. In the majority of human tumor models, the transformation from normal cells to neoplastic lesion is a multistep process. This review offers a specific overview of the involvement of tumor suppressor genes (TSGs) in the pathogenesis of human pituitary adenomas. TSG genetic lesions, such as BRCA1 in breast cancer and p53 in Li-Fraumeni Syndrome, have been identified in both sporadic and heritable human endocrine tumors. Familial neoplastic syndromes like multiple endocrine neoplasia type 1 (MEN1) that include pituitary tumor formation as part of a broad clinical spectrum of disease represent a unique opportunity to investigate the general mechanisms of tumorigenesis, and well as genes responsible for sporadic endocrine tumors. Similarly, homologous recombination knockout mice with selectively ablated candidate TSGs have also shed light on the molecular mechanisms of pituitary cell proliferation and tumor suppression. However, despite insights into pituitary tumorigenesis generated by heritable neoplasia syndromes and mouse knockout of critical TSGs that display a pituitary tumor phenotype, the molecular pathogenesis of human pituitary adenomas remains largely an enigma. Thus, the role of TSGs, if any, in sporadic pituitary adenoma formation has yet to be determined, despite our greater understanding of the molecular mechanisms underlying pituitary cell function and phenotype.
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PMID:Tumor suppressor loss in pituitary tumors. 1141 76

Tumor suppressor p53 induces the cellular response to DNA damage mainly by regulating expression of its downstream target genes. The human securin is an anaphase inhibitor, preventing premature chromosome separation through inhibition of separase activity. It is also known as the product of the human pituitary tumor-transforming gene, pttg, a proto-oncogene. Here we report that the expression of human securin is suppressed in cells treated with the DNA-damaging drugs doxorubicin and bleomycin. This suppression requires functional p53. Analysis of the human securin promoter reveals that DNA-binding sites for Sp1 and NF-Y are both required for activation of securin expression; however, only the NF-Y site is essential for the suppression by p53. Our study indicates that securin is a p53 target gene and may play a role in p53-mediated cellular response to DNA damage.
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PMID:DNA damage-induced inhibition of securin expression is mediated by p53. 1240 81

Pituitary tumor transforming gene (PTTG) is a proto-oncogene cloned from rat GH4 cells. This gene was able to induce cell transformation in vitro and is also associated with p53-dependent and -independent apoptosis. In this study, we cloned human PTTG (hPTTG) from a pituitary tumor and then stably transfected the hPTTG into HeLa and A549 cells. An overexpression of hPTTG significantly inhibited cell growth, which was determined by the adherent cell growth properties, colony formation in soft agar and [3H] thymidine incorporation, respectively, in HeLa and A549 cells. The inhibitory effect on cell growth was associated with the activation of p21WAF1/CIP1 in A549 cells, but not in HeLa cells. The hPTTG overexpression increased both the p21WAF1/CIP1 mRNA and protein expression levels as determined by both Northern and Western blot analysis, respectively, in A549 cells. The increased expression of p21WAF1/CIP1 mRNA was regulated at the transcription level and was independent on p53 expression because the luciferase activity increased after the co-transfection of hPTTG and p21WAF1/CIP1 promoter fragments with and without a p53 binding sequence. The subcellular distribution of hPTTG was dependent on cell type, and was predominantly in the nucleus in HeLa, Cos-7 and DU145 cells, but showed a diffuse distribution in both the nucleus and cytoplasm in A549, DLD-1 and NIH3T3 cells. These results indicate that an overexpression of hPTTG inhibits the cell growth due to different mechanisms, which are p21WAF1/CIP1 -dependent and -independent.
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PMID:Human pituitary tumor transforming gene (hPTTG) inhibits human lung cancer A549 cell growth through activation of p21(WAF1/CIP1 ). 1470 51

Herein we summarize the recent rapid advances in understanding the pituitary tumor transforming gene (PTTG) oncogene. Clinical studies reveal that PTTG-binding factor, fibroblast growth factor 2, and vascular endothelial growth factor are elevated in pituitary tumors, and mostly correlate with PTTG levels, also confirming the PTTG role in angiogenesis. PTTG overexpression disrupts mitosis and causes aneuploidy in single live cells and PTTG modulates p53 activity and p53 also mediates DNA damage-induced inhibition of PTTG transcription. Physiological functions of PTTG are revealed by PTTG-null mice who exhibit a variety of cell growth abnormalities including diabetes mellitus secondary to defective beta-cell proliferation. PTTG is therefore an oncogene for pituitary tumors and other neoplasia, and also involved in critical metabolic functions. Further studies are required to address mechanisms for these oncogenic and physiological functions, and more importantly, to understand conditions which determine the switch of PTTG from functioning physiologically to behaving as an oncogene.
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PMID:Pituitary tumor transforming gene: an update. 1528 46

Human Securin, also called PTTG1 (pituitary tumor transforming gene 1 product), is an estrogen-regulated proto-oncogene with multifunctional properties. We characterized human full-length Securin using a variety of biophysical techniques, such as nuclear magnetic resonance, circular dichroism, and size-exclusion chromatography. Under physiological conditions, Securin is devoid of tertiary and secondary structure except for a small amount of poly-(L-proline) type II helix and its hydrodynamic characteristics suggest it behaves as an extended polypeptide. These results suggest that Securin is unstructured in solution and so belongs to the family of natively unfolded proteins. In addition, to gain structural and quantitative insight, we investigated the binding of Securin to p53. Analytical ultracentrifugation and fluorescence anisotropy studies revealed no evidence of any direct interaction between unmodified recombinant Securin and p53 in vitro.
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PMID:Human full-length Securin is a natively unfolded protein. 1592 94


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