Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0027121 (
myositis
)
4,538
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this study we analysed by immunohistochemistry the expression of
p53 protein
in 14 malignant fibrous histocytomas (MFHs), 22 other types of sarcoma (eight leiomyosarcomas, four rhabdomyosarcomas, four liposarcomas, two fibrosarcomas, two chondrosarcomas, one malignant schwannoma, and one dermatofibrosarcoma protuberans), and 25 non-malignant mesenchymal lesions (eight dermatofibromas, four cases of nodular fasciitis, three leiomyomas, three fibromatoses, two epithelioid.leiomyomas, two neurofibromas, one schwannoma, one
myositis
ossificans, and one giant cell tumour of tendon sheath). Four MFHs and nine other types of sarcoma (four leiomyosarcomas, two chondrosarcomas, one liposarcoma, one fibrosarcoma, and one dermatofibrosarcoma protuberans) showed nuclear positivity for
p53
. Of the benign soft tissue lesions,
p53
positivity was observed in two fibromatoses, one nodular fasciitis, and one dermatofibroma. The number of
p53
-positive cells in these benign lesions was considerably smaller than that in most of the
p53
-positive sarcomas. The
p53
positivity in MFHs and other types of sarcoma indicates that
p53
gene alterations may play a part in the neoplastic transformation of these tumours. The occurrence of
p53
positivity in benign mesenchymal lesions suggests that sometimes
p53 protein
may accumulate in cells without an associated malignancy. Because of this,
p53
immunoreactivity cannot, by itself, be used as a criterion of malignancy. According to our results,
p53
positivity in over 1 per cent of tumour cells in mesenchymal lesions favours malignancy.
...
PMID:p53 immunohistochemistry in malignant fibrous histiocytomas and other mesenchymal tumours. 133 24
Alterations of tumour suppressor genes are considered crucial steps in the development of human cancers. Expressions of
p53 protein
, a product of the tumour suppressor gene altered most commonly in human cancers examined so far, were investigated immunohistochemically in 18 osteosarcomas and 40 other malignant and benign lesions of bone. A monoclonal antibody clone PAb240, which recognizes a common conformational epitope of mutant p53 proteins, stained nuclei of tumour cells in 12 of 18 osteosarcomas (67%). Six tumours (33%) particularly showed positive immunoreactions in more than half of the tumour cells. PAb240 also stained tumour cells in a small number of other malignant bone tumours, such as malignant fibrous histiocytoma, chondrosarcoma, and Ewing's sarcomas. Furthermore, a small number of cells of giant-cell tumours were positively stained. In contrast, PAb240 was completely negative in 21 benign bone tumours and reactive lesions examined. Another monoclonal antibody clone PAb1801, which reacts with both wild- and mutant-type
p53 protein
, reacted in nuclei of tumour cells of 7 osteosarcomas (39%). Most of those also reacted with PAb240. PAb1801 was expressed much more frequently in other malignant bone tumours and giant-cell tumours. In addition, PAb1801 showed intranuclear positive reactions in tumour cells of a benign chondroblastoma, and reactive cells such as actively proliferating preosteoblasts in a
myositis
ossificans and osteoclast-like giant cells in a giant-cell tumour. The immunoelectron-microscopic observation that
p53 protein
was localized in euchromatic areas of nuclei of osteosarcoma cells supported the specificity of immunoreaction for
p53 protein
, indicating an active role of
p53 protein
in the regulation of DNA synthesis and transcription. These findings suggest that point mutation of the
p53
gene is frequently involved in the development of osteosarcomas. PAb240 may be a useful tool not only in screening point mutations of the
p53
gene in osteosarcomas but also in the differential diagnosis between osteosarcomas and reactive bone-forming lesions. Expressions of mutant p53 protein were not correlated with any clinical or pathological factors examined, although the results should be confirmed in studies of a large number of osteosarcomas.
...
PMID:Analysis of mutant P53 protein in osteosarcomas and other malignant and benign lesions of bone. 841 91
SIRT1 belongs to the sirtuin family of NAD(+)-dependent histone/protein deacetylases. Experimentally, increased activity of SIRT1 facilitates calorie-restricted longevity, and decreases NF-kappaB activation and the amount of the amyloid-beta (Abeta). We studied SIRT1 in an aging-associated muscle disease, sporadic inclusion-body
myositis
(s-IBM), whose muscle fibers contain increased NF-kappaB activation and abnormal accumulation of Abeta. We show that, as compared to the age-matched controls, in s-IBM muscle fibers: (1) SIRT1 activity and deacetylation of SIRT1 targets, H4, NF-kappaB and
p53
were decreased; (2) SIRT1 mRNA and protein were significantly increased; (3) in the cytoplasm, SIRT1 protein was accumulated in the form of cytoplasmic aggregates; (4) in the nuclei, SIRT1 protein was decreased. To our knowledge, this is the first demonstration of SIRT1 abnormalities, including decreased SIRT1 deacetylase activity, in human disease associated with aging. We propose that in s-IBM muscle fibers, inadequate activity of SIRT1 may be detrimental by increasing NF-kappaB activation and contributing to abnormal Abeta accumulation. Improving SIRT1 action by treatment with known SIRT1 activators might benefit s-IBM patients.
...
PMID:Decreased SIRT1 deacetylase activity in sporadic inclusion-body myositis muscle fibers. 1892 3
Statins, the 3-hydroxy-3-methyl-glutaryl (HMG)-CoA reductase inhibitors, are widely prescribed for treatment of hypercholesterolemia. Although statins are generally well tolerated, up to ten percent of statin-treated patients experience myalgia symptoms, defined as muscle pain without elevated creatinine phosphokinase (CPK) levels. Myalgia is the most frequent reason for discontinuation of statin therapy. The mechanisms underlying statin myalgia are not clearly understood. To elucidate changes in gene expression associated with statin myalgia, we compared profiles of gene expression in skeletal muscle biopsies from patients with statin myalgia who were undergoing statin re-challenge (cases) versus those of statin-tolerant controls. A robust separation of case and control cohorts was revealed by Principal Component Analysis of differentially expressed genes (DEGs). To identify putative gene expression and metabolic pathways that may be perturbed in skeletal muscles of patients with statin myalgia, we subjected DEGs to Ingenuity Pathways (IPA) and DAVID (Database for Annotation, Visualization and Integrated Discovery) analyses. The most prominent pathways altered by statins included cellular stress, apoptosis, cell senescence and DNA repair (
TP53
, BARD1, Mre11 and RAD51); activation of pro-inflammatory immune response (CXCL12, CST5, POU2F1); protein catabolism, cholesterol biosynthesis, protein prenylation and RAS-GTPase activation (FDFT1, LSS,
TP53
, UBD, ATF2, H-ras). Based on these data we tentatively conclude that persistent myalgia in response to statins may emanate from cellular stress underpinned by mechanisms of post-inflammatory repair and regeneration. We also posit that this subset of individuals is genetically predisposed to eliciting altered statin metabolism and/or increased end-organ susceptibility that lead to a range of statin-induced myopathies. This mechanistic scenario is further bolstered by the discovery that a number of single nucleotide polymorphisms (e.g., SLCO1B1, SLCO2B1 and RYR2) associated with statin myalgia and
myositis
were observed with increased frequency among patients with statin myalgia.
...
PMID:Patients experiencing statin-induced myalgia exhibit a unique program of skeletal muscle gene expression following statin re-challenge. 2877 94
