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)

Two new myeloid cell lines (K051 and K052) were established from a patient with multilineage CD7-positive acute leukemia. The K051 and K052 were established from the patient's bone marrow cells at diagnosis and at relapse, respectively. The K051 cell expressed myeloid-associated antigens (CD13 and CD33), a platelet-associated antigen (CD41), and an erythroid antigen (glycophorin A). The K052 cell expressed myeloid-associated antigens (CD13, CD14, and CD33), lymphoid markers (CD2, CD5, and CD7), and HLA-DR. Chromosome analysis of both cell lines showed a 17p- chromosome. Both cell lines were investigated for aberrations of the p53 gene and the N-ras gene. A p53 mutation detected in both cell lines consisted of a C-->T substitution in codon 248. An N-ras mutation detected only in the K052 cell consisted of a G-->C substitution in codon 13. Expression of the multidrug resistance gene (MDR1) was also investigated by the semiquantitative reverse transcriptase-polymerase chain reaction (RT-PCR). MDR1-mRNA was more highly expressed by the K052 cell than the K051 cell, being equivalent to that in HEL cells. The functional MDR1-protein against vincristine was also observed, and its function was inhibited by verapamile and Cyclosporin A. The K052 cells were capable of phenotypic or morphologic differentiation after being incubated with granulocyte colony-stimulating factor, interleukin-2, phorbol 12-myristate 13-acetate, or 1,25-dihydroxy-vitamin D3. In contrast, the K051 cells responded phenotypically to retinoic acid. Thus, the K051 and K052 cell lines will be useful for investigating the cellular and molecular events in leukemogenesis and differentiation, and the mechanism of expression of the MDR1 gene.
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PMID:p53 and N-ras mutations in two new leukemia cell lines established from a patient with multilineage CD7-positive acute leukemia. 769 50

The development of esophageal adenocarcinoma is frequently associated with intestinal-type Barrett's metaplasia. Barrett's metaplasia and esophageal adenocarcinomas were examined for expression of the intestinal brush-border-associated hydrolase aminopeptidase N (APN). APN mRNA was detected by utilizing the reverse transcription polymerase chain reaction (RT-PCR) in 50% of Barrett's metaplasia specimens and in 26% of esophageal adenocarcinomas. APN protein was detected by utilizing immunohistochemistry in 84% of Barrett's metaplasia specimens and in 71% of adenocarcinomas, although a decrease or loss of APN protein was sometimes observed in dysplastic Barrett's metaplasia and adenocarcinomas. Alterations in the p53 tumor-suppressor gene have previously been found in both dysplastic Barrett's mucosa and esophageal adenocarcinomas. The same specimens analyzed for APN were examined for the nuclear accumulation of the p53 protein. Utilizing immunohistochemistry, p53 staining was detected in 42% of Barrett's metaplasia specimens, most of which were dysplastic, and in 58% of adenocarcinomas. In the samples positive for p53 protein, gene mutations in exons 5, 7 and 8 were detected by utilizing single-strand conformation polymorphism analysis (SSCP) in 1 Barrett's metaplasia specimen and 6 adenocarcinomas. In Barrett's metaplasia, there was an inverse correlation between APN protein expression and p53 protein accumulation (p < 0.05) suggesting a link between genetic alterations and loss of this marker. The analysis of markers of intestinal differentiation with markers of disease progression may prove to be a useful approach for studying carcinogenesis in Barrett's metaplasia.
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PMID:Intestinal differentiation and p53 gene alterations in Barrett's esophagus and esophageal adenocarcinoma. 790 78

Eight histiocytic sarcomas, identified by examination of more than 2000 malignant lymphomas, are described. For comparison, tumor infiltrates from five monoblastic leukemias were also analyzed. The histiocytic sarcomas were all high-grade malignancies consisting of markedly pleomorphic large cells with many mitotic figures. At presentation, six of the patients had systemic symptoms (fever, fatigue, loss of weight), skin infiltrates, and lymphadenopathy. Despite aggressive chemotherapy, clinical remissions were short, and six patients died of disease .5-48 months (mean, 6.5 months) after diagnosis. The remaining two patients are alive and in partial or complete remission 7 and 12 months after diagnosis. Immunotypic examination showed that all the histiocytic sarcomas were positive for macrophage-related antigens and negative for antigens on B cells, T cells, myeloid cells, epithelial cells, and melanocytes. T-cell receptor and immunoglobulin genes were studied in three cases and were present in a germline configuration. One of the histiocytic sarcomas resembled Langerhans' cells in phenotype and morphology; it was classified as a Langerhans' cell sarcoma. The remaining histiocytic sarcomas did not express accessory cell-associated antigens, but more closely resembled "ordinary" tissue macrophages; they were positive for lysozyme and/or CD68, followed in frequency by CD11c, CD4, CD11b, CDw32, peanut agglutinin receptor, and CD13. Similar features were seen in the monoblastic leukemias. These conditions could only be distinguished from histiocytic sarcoma by clinical and morphologic, rather than immunophenotypic, criteria. Expression of oncoprotein p53 was studied in nine cases and was positive in six of six histiocytic sarcomas and one of three monoblastic leukemias. Rare malignancies show features consistent with the derivation from macrophages. Two entities may be distinguished: those that resemble antigen-presenting accessory cells and those that more closely resemble ordinary tissue macrophages. Recognition of these tumors is important clinically and requires assessment of clinical, morphologic, and immunophenotypic features, supplemented by analysis of T-cell receptor and immunoglobulin genes. Whether (or how) p53 gene mutations are implicated in their pathogenesis will be an important topic for future investigation.
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PMID:Histiocytic sarcomas and monoblastic leukemias. A clinical, histologic, and immunophenotypical study. 803 67

A cell line designated SKM-1 was newly established from leukaemic cells of a 76-year-old Japanese male patient with monoblastic leukaemia following myelodysplastic syndrome (MDS). The cells were obtained from peripheral blood of the patient when he lost multiple point mutations of ras genes with acquisition of chromosomal abnormalities during disease progression in MDS. The cells grew as a single floating cell, and have been continuously growing with the morphological characteristics of immature monoblasts by serial passages during the past 42 months with a doubling time of about 48 h. By cytochemical analysis, the cloned cells were positive for butyrate esterase, but negative for the Epstein-Barr virus associated nuclear antigen. Phenotypic analysis revealed the expression of myelomonocyte specific antigens such as CD4, CD13, CD33 and HLA-DR. Cells from the primary peripheral blood and those from 50 passages of the SKM-1 cell line both possessed no activated ras genes but showed karyotype abnormalities with 46,XY, del(9)(q13;q22), der(17) t(17;?)(p13;?). The SKM-1 cells have two mutations in p53 gene and overexpress the p53 products. This cell line may contribute to a better understanding of molecular mechanisms in the progression from MDS to myelogenous leukaemia.
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PMID:Establishment of a leukaemic cell line from a patient with acquisition of chromosomal abnormalities during disease progression in myelodysplastic syndrome. 813 67

Betulinic acid is a naturally occurring pentacyclic triterpenoid which has demonstrated selective cytotoxicity against a number of specific tumor types, a variety of infectious agents such as HIV, malaria and bacteria, and the inflammatory process in general. Biological activity was first demonstrated in melanoma cell lines and was confirmed in mice bearing human melanoma xenografts. These in vivo studies also established a favorable safety margin for betulinic acid, as systemic side effects were not observed at any dose. Recently, considerable in vitro evidence has demonstrated that betulinic acid is effective against small- and non-small-cell lung, ovarian, cervical, and head and neck carcinomas. Published data suggest that betulinic acid induces apoptosis in sensitive cells in a p53- and CD95-independent fashion. While the precise molecular target and mechanism of action remain elusive and are the focus of a number of ongoing research programs, accumulated experimental evidence indicates that betulinic acid functions through a mitochondrial-mediated pathway. Supplemental reports suggest that the generation of reactive oxygen species, inhibition of topoisomerase I, activation of the MAP kinase cascade, inhibition of angiogenesis, and modulation of pro-growth transcriptional activators and aminopeptidase N activity may play a role in betulinic acid-induced apoptosis. These potential mechanisms of action may enable betulinic acid to be effective in cells resistant to other chemotherapeutic agents. Arguments supporting the role of this agent in the treatment of cancers and other infectious conditions will be reviewed.
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PMID:Betulinic acid: a promising anticancer candidate. 1505 42

We recently reported a novel coupling strategy involving salicylhydroxamic acid and phenyl(di)boronic acid molecules to attach the CNGRC peptide to PEI/DNA for CD13 targeting in tumors. Here, we doubly coupled Simian Virus (SV) 40 peptide-(nuclear localization signal)) and oligonucleotide-based (DNA nuclear targeting signal) nuclear signals to the same vector using peptide nucleic acid chemistry. This vector, CNGRC/PEG/PEI/DNA-betagal/NLS/DNTS, was predominantly localized in the cell nucleus, yielding about 200-fold higher betagal gene expression in vitro, more than 20-fold increase in tumor-specific gene delivery, and a robust betagal gene expression as demonstrated in stained tumor sections. For gene therapy purposes, we further engineered a similar targeting polyplex, CNGRC/PEG/PEI/DNA-p53/NLS/DNTS, with EBV-based episomal vector for sustained p53 gene expression. A distribution of vector DNA and apoptosis in p53-containing tumors was observed, yielding a significant tumor regression and 95% animal survival after 60 days. This multicomponent vector also co-targeted tumor and tumor-associated endothelial cells but not normal cells, and had more efficient therapeutic index than each vector administered as a single modality. The use of an efficient coupling strategy without compromising the vector's integrity for DNA condensation and endosomal escape; nuclear import; tumor-specific and persistent p53 gene expression clearly provides a basis for developing a single combinatorial approach for non-viral gene therapy.
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PMID:A multifunctional PEI-based cationic polyplex for enhanced systemic p53-mediated gene therapy. 1676 64

SBDS/7q11 gene mutations underlie the congenital Shwachman Diamond syndrome (SDS), characterized by bone marrow failure and high risk of haematological malignancies. In two cases of SDS with bone marrow failure and isolated del(20q) interphase fluorescence in situ hybridization (I-FISH) found no abnormalities in FHIT/3p14.2, IKZF1/7p13, D7S486/7q31, PTEN/10q23.3, WT1/11p13, ATM/11q23, D13S25/13q14, TP53/17p13, NF1/17q11, SMAD2/18q21, RUNX1/21q22. Fluorescence immunophenotype combined with I-FISH found del(20q) in a totipotent haematopoietic stem cell (CD34(+), CD133(+)) and downstream myelocyte (CD33(+), CD14(+), CD13(+)), erythrocyte (Glycophorin A(+)) and lymphocyte lineages (CD19(+), CD20(+), CD3(+), CD7(+)). These findings and clinical follow-ups confirm the benign course of SDS with isolated del(20q).
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PMID:Totipotent stem cells bearing del(20q) maintain multipotential differentiation in Shwachman Diamond syndrome. 1901 24

Techniques for medical tissue regeneration require an abundant source of human adult stem cells. There is increasing evidence that adipose stem cells contribute to restoration of tissue vascularization and organ function. The object of our study was to isolate and characterize adult adipose-derived stem cells from patients undergoing on lipoaspirate transplant with the aim to improve tissue regeneration. Adipose-derived stem cells were isolated and purified from the lipoaspirate of 15 patients and characterized for CD markers and the ability to differentiate toward the adipogenic lineage. We found that purified adipose stem cells express high level of CD49d, CD44, CD90, CD105, CD13, and CD71 and these markers of staminality were maintained at high level for at least 3 months and seven passages of in vitro culture. As expected, these cells resulted negative for the endothelial and hematopoietic-specific markers CD31, CD106, CD34, and CD45. Differentiation towards adipogenic lineage demonstrated that purified adipose-derived stem cells are still able to become adipocytes at least 3 months after in vitro culture. The analysis of Akt and MAPK phosphorylation confirmed a modulation of their activity during differentiation. Interestingly, we established for the first time that, among the p53 family members, a strong upregulation of p63 expression occurs in adipocytic differentiation, indicating a role for this transcription factor in adipocytic differentiation. Taken together, these data indicate that purified lipoaspirate-derived stem cells maintain their characteristic of staminality for a long period of in vitro culture, suggesting that they could be applied for cell-based therapy to improve autologous lipoaspirate transplant.
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PMID:Purification and characterization of adipose-derived stem cells from patients with lipoaspirate transplant. 2120 30

We previously discovered the coexistence of dormant and proliferating cancer stem cells (CSCs) in gastrointestinal cancer, which leads to chemoradiation resistance. CD13-/CD90+ proliferating liver CSCs are sensitive to chemotherapy, and CD13+/CD90- dormant CSCs have a limited proliferation ability, survive in hypoxic areas with reduced oxidative stress, and relapse and metastasize to other organs. In such CD13+ dormant cells, non-homologous end-joining, an error-prone repair mechanism, is dominant after DNA damage, whereas high-fidelity homologous recombination is apparent in CD13- proliferating cells, suggesting the significance of dormancy as an essential protective mechanism of therapy resistance. However, this mechanism may also play a role in the generation and accumulation of heterogeneity during cancer progression, although the exact mechanism remains to be understood. Through transcriptomic study, we elucidated the underlying epigenetic mechanism for malignant behavior of dormant CSCs, i.e., simultaneous activation of several pathways including EZH2- and TP53-related proteins in response to microRNA101, suggesting that a pharmacogenomic approach would open an era to novel molecular targeting cancer therapy.
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PMID:Transcriptomic study of dormant gastrointestinal cancer stem cells. 2273 80

Protein-protein interactions (PPIs) play an important role in almost all vital processes involved in many diseases, especially cancer. Peptides are perfect candidates that modulate PPIs as they can closely mimic principle features of protein. However, the intrinsic drawbacks of peptides, including poor stability and member impenetrability, severely limit the development of peptide-derived therapeutics. Nanotechnology offers a feasible route for anti-cancer peptide delivery, but much remains to be done, especially with respect to the pressing need for a simple method for efficient delivery of peptides into sites of interest towards potent and safe therapy. Herein, we report a one-step method to conjugate lanthanide-doped nanoparticles with p53-activating peptide (PMI: TSFAEYWALLSP), Bcl2-blocking peptide (BIM: IWIAQELRRIGDEFNAYYARR) and CD13-binding peptide (iNGR: CRNGRGPDC) by mercaptogenic self-assembly. The resultant LDN-iNGRPMI-BIM nanoparticles can tumor-specifically accumulate at interest sites, and potently induce apoptosis of cancer cells in vitro and in vivo, while keeping a favorable biosafety profile. Taken together, the general therapeutically viable method reported here will enable us to develop a novel class of peptide-based nanomedicines, and likely reinvigorate peptide drug discovery efforts in general, which will target intracellular protein-protein interactions responsible for initiation and progression of a great variety of human diseases.
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PMID:Modulating Protein-Protein Interactions In Vivo via Peptide-Lanthanide-Derived Nanoparticles for Hazard-Free Cancer Therapy. 3138 80

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