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)

Growth of thyroid cancer cells is stimulated by various growth factors via signal transduction pathways. TSH, EGF, IGF, and TGF-alpha stimulate and TGF-beta inhibits thyroid cell growth. TSH stimulates thyroid cells via both the adenylate cyclase-PKA and the PLC-PKC-Ca signal transduction pathways. TSH-r, ras, gsp, ret, trk, and myc are oncogenes that are activated in some thyroid neoplasms. P53 and RB are tumor suppressor genes that are inactivated in some thyroid cancers.
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PMID:Thyroid growth factors, signal transduction pathways, and oncogenes. 774 50

Our previous data have shown that isolated leukemic cells from progressive chronic lymphocytic leukemia (B-CLL) patients respond to growth stimulation in vitro and express high levels of p53, immunoreactive with the configuration-specific antibody PAb 240. We have now analyzed the in vitro survival of B-CLL cells in relation to Bcl-2, Bax alpha and p53 expression and compared this with the clinical progression of the disease. Leukemic cells from patients with progressive disease demonstrated higher in vitro survival, compared with non-progressive B-CLL and normal B cells. All cells were sensitive to treatment with a combination of glucocorticoid and cAMP. Bcl-2 protein levels were not related to clinical progression, as measured by flow cytometry. Competitive PCR showed that Bcl-2 mRNA was over-expressed in most of the B-CLL samples and that p53 mRNA expression was similar between B-CLL groups and normal values and thus not related to clinical progression. However, since Bax alpha expression was lower in progressive than in non-progressive patients, the Bcl-2/Bax alpha ratio at the mRNA level was significantly higher in the progressive group. Our data suggest that the Bcl-2/Bax alpha ratio is important for the regulation of B-CLL cell survival, that p53 over-expression in progressive B-CLL is the result of post-transcriptional modifications and that a directed PKA activation may potentiate the cytolytic effect of glucocorticoids in vivo.
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PMID:Bcl-2, Bax and p53 expression in B-CLL in relation to in vitro survival and clinical progression. 860 78

The Bcl2 family of proteins plays a significant role in regulation of apoptosis. In this study, the microtubule-damaging drugs paclitaxel, vincristine, and vinblastine induced Bcl2 hyperphosphorylation and apoptosis in MCF-7 and MDA-MB-231 cells and reduced Bcl2-Bax dimerization. Paclitaxel or vincristine induced increased expression of Bax, while overexpression of Bcl2 in these cell lines counteracted the effects of low doses of these drugs. In addition, paclitaxel- and vincristine-induced activation of cyclic AMP (cAMP)-dependent protein kinase (protein kinase A [PKA]) induced Bcl2 hyperphosphorylation and apoptosis, which were blocked by the PKA inhibitor Rp diastereomers of cAMP (Rp-cAMP). This finding suggests that activation of PKA due to microtubule damage is an important event in Bcl2 hyperphosphorylation and induction of apoptosis. These microtubule-damaging drugs caused growth arrest in G2-M phase of the cell cycle and had no effect on p53 induction, suggesting that hyperphosphorylation mediated inactivation of Bcl2 and apoptosis without the involvement of p53. By comparison, the DNA-damaging drugs methotrexate and doxorubicin had no effect on Bcl2 hyperphosphorylation but induced p53 expression. Interestingly, paclitaxel or vincristine induced activation of caspase 3 and cleavage of poly(ADP-ribose) polymerase downstream of Bcl2 hyperphosphorylation. These data suggest that there may be a signaling cascade induced by agents that disrupt or damage the cytoskeleton that is distinct from (i.e., p53 independent), but perhaps related to (i.e., involves kinase activation and leads to apoptosis), the cellular response to DNA damage.
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PMID:Involvement of microtubules in the regulation of Bcl2 phosphorylation and apoptosis through cyclic AMP-dependent protein kinase. 958 91

To examine whether protein kinase C (PKC) and A (PKA) contribute to WAF1 induction by ionizing radiation (IR) in cultured human melanomas, the effect of PK inhibitors 1-(5'-isoquinolinesulphonyl)-2-methylpiperazine dihydrochloride (H7), bisindolylmaleimide (GF) and N-[2(p-dromocinnamylamino)ethyl]-5-isoquinolinesulphonamide (H89) on IR-induced WAF1 accumulation was analysed by Western blot analysis. Gamma-ray-induced accumulation of WAF1 showed a peak at 6 Gy in all the cell lines. After gamma-ray irradiation of 6 Gy, a peak of WAF1 accumulation was observed at 6 h in SK-Mel-26, G361 and HM6KO cells, and at 3 h in MeWo cells. In MeWo and SK-Mel-26 cells, the X-ray-induced WAF1 accumulation was decreased by PK inhibitors, GF (PKC inhibitor) or H89 (PKA inhibitor); this did not occur in G361 and HM6KO. In all the cell lines, accumulation of WAF1 induced by X-ray irradiation was suppressed by H7 (PKC and PKA inhibitor). In addition, polymerase chain reaction-single strand conformational polymorphism analysis detected no aberrations in the p53 gene of the four cell lines used. These results suggest that IR-induced WAF1 expression involves PKC and/or PKA activity depending on cell type.
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PMID:Effects of protein kinase inhibitors on radiation-induced WAF1 accumulation in human cultured melanoma cells. 1058 12

Adult cardiac myocytes are terminally differentiated cells that are no longer able to divide. Accumulating data support the idea that apoptosis in these cells is involved in the transition from cardiac compensation to decompensated heart failure. Since a number of neurohormonal factors are activated in this state, these factors may be involved in the positive and negative regulation of apoptosis in cardiac myocytes. beta1-Adrenergic receptor and angiotensin type 1 receptor pathways, nitric oxide and natriuretic peptides are involved in the induction of apoptosis in these cells, while alpha1- and beta2-adrenergic receptor and endothelin-1 type A receptor pathways and gp130-related cytokines are antiapoptotic. The myocardial protection of the latter is mediated, at least in part, through mitogen-activated protein kinase-dependent pathways, compatible with the findings in other cell types. In contrast, signaling pathways leading to apoptosis in cardiac myocytes are distinct from those in other cell types. The cAMP/PKA pathway induces apoptosis in cardiac myocytes and blocks apoptosis in other cell types. The p300 protein, a coactivator of p53, mediates apoptosis in fibroblasts but appears to play a protective role in differentiated cardiac myocytes. The inhibition of myocardial cell apoptosis in heart failure may be achieved by directly blocking apoptosis signaling pathways or by modulating neurohormonal factors involved in their regulation. These may provide novel therapeutic strategies in some forms of heart failure.
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PMID:Neurohormonal regulation of myocardial cell apoptosis during the development of heart failure. 1114 5

Thyroid nodule genesis may be considered as an amplification of thyroid heterogeneity due to genetic and/or epigenetic mechanisms. We classified the thyroid nodules in five types with distinct histological features: hyperplastic, neoplastic, colloid, cystic and thyroiditic nodules. Hyperplastic: Thyrocyte proliferation is under the control of TSH but several other paracrine and autocrine factors are secreted by follicular cells, the stromal apparatus and the lymphocytes, which are implicated in initiation and perpetuation of thyroid hyperplasia. Growth occurs mainly through TSHR, cAMP and PKA. Constitutive cAMP overproduction has been shown to be due to point mutation of the TSHR or Gs protein, producing overgrowth and hyperfunction. Neoplastic: Several activated oncogenes have been identified in thyroid malignancies. Oncogenes relevant to the thyroid carcinogenesis are: mutated TSHR and gsp (constitutive activation of cAMP); TRK (receptor for NGF); RET/PTC (phosphorylation of tyrosine kinase receptor)--an isoform of this oncogene is induced by radiation: ras (it encodes Gs proteins transducing mitogenic signals); and c-MET (receptor for hepatocyte growth factor). The evolution of a differentiated thyroid cancer towards an undifferentiated cancer is due to a mutation of a family of proteins (i.e., p53), which acts as a brake, preventing the genomic instability of cancer. It is suggested that a tumor initiates by RET or ras and possibly progresses--as a result of additional mutations and by p53 mutation--to anaplastic carcinoma. Colloid: Flattening of the epithelium and dilatation of follicles containing viscous material--made up by a concentrated solution of thyroglobulin (hTg)--is the characteristic of the colloid nodule. A defect of intraluminal reabsorption of hTg has been suggested but not proven. Experimentally, a load of iodine is able to change thyroid hyperplasia to a colloid feature; however, a load of iodine is rarely found in the clinical history of patients. A new clue to the pathogenesis comes from the finding that a relevant part of the colloid (10-20%) is made up of insoluble globules, where hTg is compacted in a polymeric form. It is suggested that stocking hTg into globules is defective in colloid nodules, leading to enormous enlargement of the follicle. Cystic: It is estimated that between 15 and 40% of thyroid nodules are partly or entirely cystic. The 'true cyst' is rare; most of the so-called cystic nodules are 'pseudocysts', which follow necrosis and colliquation. Necrosis issues as an imbalance between growth and the precisely regulated process of angiogenesis. More recently, the VEGF/VPF has been found to be at the origin of recent and recurrent cysts. Immunotoxic and apoptotic mechanisms have also been suggested. Chemical analysis of cystic fluid showed a 'denatured' and 'serum-like' pattern suggesting different mechanisms in the pathogenesis of the pseudocystic thyroid nodules. Thyroiditic: Nodular lymphocytic thyroiditis (NLT) includes two different entities: 1) lymphocyte thyroiditis growing as a nodule in a hyperplastic or normal gland, and 2) lymphocyte thyroiditis associated in the same nodule with other nodular diseases of the thyroid: papillary thyroid carcinoma and lymphoma have been found to be associated to chronic lymphocytic thyroiditis.
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PMID:Pathogenesis of thyroid nodules: histological classification? 1123 84

Pituitary tumors constitute 10% of intracranial neoplasms and are mostly benign, monoclonal adenomas derived from single mutant cells. Pituitary oncogenes have been intensively studied and three of them, gsp, ccnd1, and PTTG are abundant in significant numbers of cases. gsp is present in approximately 40% of Caucasian patients with GH-secreting tumors and results from a mutated, constitutively active alpha subunit of Gs protein. Persistent activation of the cAMP-PKA-CREB pathway may lead to uncontrolled cell proliferation and GH secretion. ccnd1 is overexpressed cyclin D1, and cyclin D1 gene is amplified in some pituitary tumors. PTTG is expressed in most pituitary tumors. PTTG is localized to both the nucleus and cytoplasm and interacts with several protein partners. At least three tumorigenesis mechanisms are proposed for human PTTG. 1) PTTG and FGF form a positive feedback loop and stimulate tumor vascularity. 2) PTTG transactivates c-myc or other pro-proliferation genes. 3) PTTG overexpression causes aneuploidy. PTTG expression activates p53 and causes p53-dependent and -independent apoptosis. Due to lack of functional human pituitary cell cultures and appropriate animal models for pituitary tumors, many of the results reviewed here are obtained from heterologous systems.
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PMID:Oncogene activation in pituitary tumors. 1141 75

Recent progress made in molecular biology, biotechnology, and genetics, especially in identifying, cloning, sequencing and characterization of normal and pathogenic genes, has led to the development of genetic therapy. Major efforts in the field can be summarized in two general approaches: gene therapy and antisense therapy. The second is to deliver to the target cells antisense molecules that target to mRNA with which they can hybridize and specifically inhibit the expression of pathogenic genes. Antisense oligonucleotides offer the possibility of specific, rational, genetic-based therapeutics. With encouraging results from preclinical and clinical studies of antisense oligonucleotides in the past decade, significant progress has been made in developing antisense therapy, with the first antisense drug now being approved for clinical use. In this article, we will discuss approaches to developing these drugs from preclinical to clinical settings. Of particular interest for the area of human cancer therapy, several cancer targets, including bcl-2, BCR-ABL, C-raf-1, Ha-ras, c-myc, PKC, PKA, p53 and MDM2, are reviewed as examples to illustrate the progress in this field and emphasize the importance of target selection and advanced antisense chemistry in the development of antisense therapy.
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PMID:Antisense anticancer oligonucleotide therapeutics. 1218 78

Butyrolactone I (BL) is a competitive inhibitor of ATP for binding and activation of cyclin-dependent kinases and is a potent inhibitor of cell cycle progression. Treatment of H460 human lung and SW480 human colon cancer cells with doses of BL that exceed the Ki for CDK inhibition but which are much lower than doses required to inhibit MAPK, PKA, PKC, or EGFR lead to a rapid significant reduction of endogenous p21 protein expression. BL-dependent inhibition of p21 expression appears to be p53-independent. BL-dependent p21 degradation was blocked by lactacystin, consistent with the hypothesis that there is accelerated p21 proteasomal degradation in the presence of BL. BL also inhibited the p53-dependent increase of p21 protein expression in cells exposed to the DNA damag-ing agent etoposide, and favored a greater G2/M arrest as compared to the non-BL exposed cells. BL accelerated the degradation of exogenously expressed p21 that was not observed with a C-terminal truncated form of p21. Degradation of exogenous p21 led to a shift to G2 accumulation in the cells exposed to BL. We conclude that BL has effects on the cell cycle beyond its role as a CDK inhibitor and can be used as a novel tool to study the mechanism of p21 degradation and the consequences towards p21- dependent checkpoints.
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PMID:The cyclin-dependent kinase inhibitor butyrolactone is a potent inhibitor of p21 (WAF1/CIP1 expression). 1242 18

Apoptosis and proliferation are intimately coupled. Some cell cycle regulators can influence both cell division and programmed cell death. The linkage of cell cycle and apoptosis has been recognized for c-Myc, p53, pRb, Ras, PKA, PKC, Bcl-2, NF-kappa B, CDK, cyclins and CKI. This review summarizes the different functions of the proteins presently known to control both apoptosis and cell cycle progression. These proteins can influence apoptosis or proliferation but different variables, including cell type, cellular environment and genetic background, make it difficult to predict the outcome of cell proliferation, cell cycle arrest or cell death. These important decisions of cell proliferation or cell death are likely to be controlled by more than one signal and are necessary to ensure a proper cellular response.
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PMID:Cell cycle and apoptosis. 1281 32

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