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)

Over expression of P53 has been described in many inflammatory conditions including rheumatoid arthritis (RA) and osteoarthritis (OA) as a protective mechanism to induce apoptosis of synovial cells. Lack of P53 function through mutation in human synoviocytes increases the development of normal synovial fibroblasts into transformed aggressive synovial fibroblasts. P53 levels were determined in supernatant of cultured mononuclear cells (MCs) isolated from peripheral blood (PBMCs) of patients with RA (n = 10) and OA (n = 10) as well as 10 normal healthy controls (C). P53 levels were also determined in supernatants of MCs isolated from synovial fluid (SFMCs) of RA and OA patients. Results of this work revealed that P53 level was significantly higher in PBMCs supernatant of RA group than those of both (C) and (OA) groups (P = 0.022). P53 level was non-significantly higher in SFMCs supernatant of RA than OA group. Significantly higher levels of P53 was detected in SFMCs culture supernatant than that of PBMCs within each RA (P = 0.003) and OA (P = 0.001) group. Results also showed a significantly positive correlation between P53 levels (in both PBMCs and SFMCs) and the disease activity score (DAS) in RA group (P = 0.01, P = 0.02 respectively) while insignificantly positive correlations between P53 level (in both PBMCs and SFMCs) and radiological grading of OA group were obtained. These results indicate that mutations and consequent dysfunction of P53 gene may result in chronic inflammation and hyperplasia in RA patients. In conclusion, gene therapy targeting P53-dependent pathway could be a promising therapy for RA and OA diseases.
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PMID:Study of P53 in peripheral blood and synovial mononuclear cells of rheumatoid arthritis and osteoarthritis patients and its relation to the degree of disease activity. 1797 11

The metastasis-associated protein S100A4 belongs to the large family of S100 calcium-binding proteins that appear to play regulatory roles in diverse biological activities. Moreover, a prognostic role of S100A4 has been suggested for patients with several types of cancer. Cancer promoting properties for S100A4 have been demonstrated, particularly through its regulation of cell motility, proliferation and apoptosis, as well as by stimulation of angiogenesis and remodelling of the extracellular matrix. Increased expression of S100A4 mRNA has been detected in proliferating synovial fibroblasts in rheumatoid arthritis. Furthermore, strong upregulation of the S100A4 protein in rheumatoid arthritis synovial tissue compared with osteoarthritis and control tissues has been demonstrated recently, especially at sites of joint invasion. Several immune and vascular cells were also identified to be producing S100A4 within the synovium. The local upregulation of S100A4 was accompanied by high plasma and synovial fluid concentrations of the S100A4 protein existing in the bioactive oligomeric form in patients with rheumatoid arthritis. Consistent with data from cancer studies, the extracellular S100A4 oligomer appears to be involved in regulation of several matrix-degrading enzymes and modulation of the transcriptional activation function of the tumour suppressor protein p53 in rheumatoid arthritis synovial fibroblasts. Taken together, one can speculate that increased S100A4 protein in circulation and locally at sites of inflammation, particularly at sites of joint destruction, might be linked to the process of aggressive fibroblast behaviour contributing to the pathogenesis of chronic autoinflammatory diseases such as rheumatoid arthritis.
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PMID:The metastasis associated protein S100A4: a potential novel link to inflammation and consequent aggressive behaviour of rheumatoid arthritis synovial fibroblasts. 1805 57

Idiopathic osteonecrosis of the femoral head (ION) is a devastating pathological condition of unknown etiology. In this study, we developed a simple murine model of osteonecrosis and investigated the underlying molecular mechanisms. In this model, the central portion of the tails of male C57BL/6 mice were tightly ligated to produce ischemic regions at sites distal to the ligatures. The occlusive ligatures were maintained for the indicated periods and then removed to induce reperfusion. The tails were histologically examined, and gene expression was analyzed by PCR array. The effect of p53 expression on osteocytes apoptosis was examined using preosteocytic MLO-A5 cells. In addition, the expression of p53 was analyzed in the femoral head samples obtained from hip osteoarthritis (OA) patients and ION patients. Caudal vertebrae distal to the ligatures (distal region) exhibited histological changes mimicking those observed in ION. Expression of p53 was increased in the distal region, and overexpression of p53 induced apoptosis in MLO-A5 cells. Treatment with a p53 inhibitor suppressed osteocyte apoptosis in the distal region. Strong p53 immunostaining was observed in osteocytes, vascular endothelial cells, and bone marrow cells in the femoral heads from ION patients but not from OA patients. Ischemia/reperfusion of the caudal vertebrae is a useful murine model of osteonecrosis, mimicking the histological changes found in ION. Using this model, we found the possible involvement of p53 in the osteocyte apoptosis observed in ION. Therapeutics targeting p53 might be a useful approach to ameliorating or even preventing osteonecrosis in ION patients.
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PMID:Potential involvement of p53 in ischemia/reperfusion-induced osteonecrosis. 1897 57

Protein p53 is a key player in mitochondrial mediated apoptotic cell death and excess p53 activity has been implicated in many disease states such athrosclerosis, diabetes, osteoarthritis, Alzheimer's disease, Parkinson's disease, Huntington's disease, AIDS, P. falciparum and S. typhimurium infections. Thus, chemical inhibitors of p53 activation might prove effective in suppressing diseases associated with excess p53 activity. Diverse chemical compounds are being synthesized and evaluated as potent inhibitors of p53 in many cell types. In this review, we have focused on the effects of apoptosis, which is involved in p53 protein and inhibition of p53 induced apoptosis. Peculiar features of p53 protein and its roles in various diseases are summarized along with important inhibitors developed in recent years.
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PMID:p53-Induced apoptosis and inhibitors of p53. 1960

We investigated whether N-acetylcysteine (NAC), a precursor of glutathione, could protect rabbit articular chondrocytes against nitric oxide (NO)-induced apoptosis and could prevent cartilage destruction in an experimental model of osteoarthritis (OA) in rats. Isolated chondrocytes were treated with various concentrations of NAC (0-2 mM). Apoptosis was induced by 0.75 mM sodium nitroprusside (SNP) dehydrate, which produces NO. Cell viability was assessed by MTT assay, while apoptosis was evaluated by Hoechst 33342 and TUNEL staining. Intracellular reactive oxygen species (ROS) and glutathione levels were measured, and expression of p53 and caspase-3 were determined by Western blotting. To determine whether intraarticular injection of NAC prevents cartilage destruction in vivo, cartilage samples of an OA model were subjected to H&E, Safranin O, and TUNEL staining. NAC prevented NO-induced apoptosis, ROS overproduction, p53 up-regulation, and caspase-3 activation. The protective effects of NAC were significantly blocked by buthionine sulfoximine, a glutathione synthetase inhibitor, indicating that the apoptosis-preventing activity of NAC was mediated by glutathione. Using a rat model of experimentally induced OA, we found that NAC also significantly prevented cartilage destruction and chondrocyte apoptosis in vivo. These results indicate that NAC inhibits NO-induced apoptosis of chondrocytes through glutathione in vitro, and inhibits chondrocyte apoptosis and articular cartilage degeneration in vivo.
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PMID:N-acetylcysteine prevents nitric oxide-induced chondrocyte apoptosis and cartilage degeneration in an experimental model of osteoarthritis. 1972 96

The prevalence of osteoarthritis rises directly with age. Articular chondrocytes exhibit an age-related increase in the cytokine and MMPs and decline in synthetic capacity of growth factors. They also exhibited the increased the senescence marker (SA-betagal, p53, p21 and p16 activity) and telomere shortening. Recent studies demonstrated that reactive oxygen species (ROS) cause the stress-induced senescence. ROS also were induced with the mechanical stress loaded on the chondrocyte. These data suggest the involvement of ROS formation stimulated by mechanical stress in the pathogenesis of osteoarthritis.
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PMID:[Progress of research in osteoarthritis. Involvement of reactive oxygen species in the pathogenesis of osteoarthritis]. 1988 Sep 92

Excessive mechanical loading of cartilage producing hydrostatic stress, tensile strain and fluid flow leads to chondrocyte apoptosis and osteoarthritis. High fluid flow induces cyclooxygenase-2 (COX-2) expression in sheared chondrocytes, which suppresses their antioxidant capacity and contributes to apoptosis. The pivotal role of COX-2 in shear-induced chondrocyte apoptosis and the conflicting literature data on the roles of prostaglandin (PG)E(2), PGD(2) and its metabolite 15-deoxy-Delta(12,14)-PGJ(2) (15d-PGJ(2)) in chondrocyte apoptosis prompted us to analyze which COX-2-derived PG is involved in this process. We show that exogenously added PGD(2) and 15d-PGJ(2), but not PGE(2), diminish the viability of human T/C-28a2 chondrocytes under static conditions. In agreement with these observations, knockdown of L-PGD synthase (L-PGDS) abolishes shear-induced chondrocyte apoptosis. Using cDNA microarrays in conjunction with clustering algorithms, we propose a novel signaling pathway by which high fluid shear mediates COX-2/L-PGDS-dependent chondrocyte apoptosis, which is validated by molecular interventions. We show that L-PGDS controls the downregulation of protein kinase A (PKA), which in turn regulates Polo-like kinase1 (Plk1) and Plk3. Plks target p53, which controls the transcription of p53 effectors (TP53INPs, FAS and Bax) involved in chondrocyte apoptosis. Reconstructing the signaling network regulating chondrocyte apoptosis may provide insights to optimize conditions for culturing artificial cartilage in bioreactors and for developing therapeutic strategies for arthritic disorders.
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PMID:Prostaglandin (PG)D(2) and 15-deoxy-Delta(12,14)-PGJ(2), but not PGE(2), mediate shear-induced chondrocyte apoptosis via protein kinase A-dependent regulation of polo-like kinases. 2015 Sep 12

Inadequate apoptosis contributes to synovial hyperplasia in rheumatoid arthritis (RA). Recent study shows that low expression of Puma might be partially responsible for the decreased apoptosis of fibroblast-like synoviocytes (FLS). Slug, a highly conserved zinc finger transcriptional repressor, is known to antagonize apoptosis of hematopoietic progenitor cells by repressing Puma transactivation. In this study, we examined the expression and function of Slug in RA FLS. Slug mRNA expression was measured in the synovial tissue (ST) and FLS obtained from RA and osteoarthritis patients. Slug and Puma mRNA expression in FLS by apoptotic stimuli were measured by real-time PCR analysis. FLS were transfected with control siRNA or Slug siRNA. Apoptosis was quantified by trypan blue exclusion, DNA fragmentation and caspase-3 assay. RA ST expressed higher level of Slug mRNA compared with osteoarthritis ST. Slug was significantly induced by hydrogen peroxide (H2O2) but not by exogenous p53 in RA FLS. Puma induction by H2O2 stimulation was significantly higher in Slug siRNA-transfected FLS compared with control siRNA-transfected FLS. After H2O2 stimulation, viable cell number was significantly lower in Slug siRNA-transfected FLS compared with control siRNA-transfected FLS. Apoptosis enhancing effect of Slug siRNA was further confirmed by ELISA that detects cytoplasmic histone-associated DNA fragments and caspase-3 assay. These data demonstrate that Slug is overexpressed in RA ST and that suppression of Slug gene facilitates apoptosis of FLS by increasing Puma transactivation. Slug may therefore represent a potential therapeutic target in RA.
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PMID:Slug suppression induces apoptosis via Puma transactivation in rheumatoid arthritis fibroblast-like synoviocytes treated with hydrogen peroxide. 2041 52

Main features of rheumatoid arthritis (RA), hyperplasia of fibroblast-like synoviocytes (FLS) and joint destruction are caused by inflammatory cytokines produced in chronic autoimmune inflammation. Cell-intrinsic acquisition of tumour-like phenotypes of RA-FLS could also be responsible for the aggressive proliferation and invasion, which are supported by the fact that in some cases RA-FLS has mutations of a tumour suppressor gene TP53. However, the underlying molecular mechanism for TP53 mutations in RA-FLS has not yet been clarified. Recently it has been reported that the non-lymphoid cells in the inflammatory tissues express ectopically the activation-induced cytidine deaminase (AID) gene that induces somatic hypermutations, not only at the immunoglobulin (Ig) gene variable regions in germinal centre B lymphocytes but also at coding regions in TP53. Real-time polymerase chain reaction (PCR) analyses revealed more than half (five of nine) of the RA-FLS lines we established showed the markedly increased expression of AID. AID transcription in RA-FLS was augmented by tumour necrosis factor (TNF)-alpha and even by physiological concentration of beta-oestradiol that could not induce AID transcription in osteoarthritis-FLS. Furthermore, AID-positive RA-FLS presented a higher frequency of somatic mutations in TP53. Cytological and immunohistochemical analyses demonstrated clearly the ectopic expression of AID in the FLS at the RA synovium. These data suggested strongly a novel consequence of RA; the ectopic expression of AID in RA-FLS causes the somatic mutations and dysfunction of TP53, leading to acquisition of tumour-like properties by RA-FLS.
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PMID:TP53 mutations coincide with the ectopic expression of activation-induced cytidine deaminase in the fibroblast-like synoviocytes derived from a fraction of patients with rheumatoid arthritis. 2049 88

Rheumatoid arthritis (RA) is a chronic autoimmune disease with features of inflammatory cell infiltration, synovial cell invasive proliferation, and ultimately, irreversible joint destruction. It has been reported that the p53 pathway is involved in RA pathogenesis. MDM4/MDMX is a major negative regulator of p53. To determine whether MDM4 contributes to RA pathogenesis, MDM4 mRNA and protein expression were assessed in fibroblast-like synoviocytes (FLS) by real-time PCR, western blotting, and in synovial tissues by immunohistochemistry. Furthermore, MDM4 was knocked down and overexpressed by lentivirus-mediated expression, and the proliferative capacity of FLS was determined by MTS assay. We found that cultured FLS from RA and osteoarthritis (OA) patients exhibited higher levels of MDM4 mRNA and protein expression than those from trauma controls. MDM4 protein was highly expressed in the synovial lining and sublining cells from both types of arthritis. Finally, MDM4 knockdown inhibited the proliferation of RA FLS by enhancing functional p53 levels while MDM4 overexpression promoted the growth of RA FLS by inhibiting p53 effects. Taken together, our results suggest that the abundant expression of MDM4 in FLS may contribute to the hyperplasia phenotype of RA synovial tissues.
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PMID:MDM4 overexpression contributes to synoviocyte proliferation in patients with rheumatoid arthritis. 2086 13

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