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: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human subcultures (third passage) of glomerular visceral epithelial cells (VEC) isolated from one month old kidney were successfully transfected by two recombinant plasmids containing the cloned oncogenes from the simian virus 40 large T antigen and H-ras gene. One postcrisis cell clone (56/10 A1) was selected, propagated and characterized. One hundred percent of the 56/10 A1 cells (current passage greater than 100th; doubling time 30 hrs) expressed the nuclear T-SV40 antigen assayed by IF; the cells failed to express H-ras (RNA blot analysis). Immortalized cells were morphologically and phenotypically compared to parental cell type (third passage). Phenotypic characterization of the 56/10 A1 cells was achieved using indirect immunofluorescence (IF) and immunogold silver staining coupled to bright field and epipolarization microscopy. Both parental and 56/10 A1 cells displayed positivity for cytokeratin, CALLA and PHM5, whereas von Willebrand factor was not detected in the two cell types. Since we have previously shown that human glomerular epithelial cells in culture synthetize plaminogen activator (PA) related compounds, we investigated the secretion pattern of these products in parental and transfected cells. Zymographic analysis of secreted PA related compounds revealed production of free urokinase (u-PA) and type 1 plasminogen activator inhibitor (PAI-1) complexed to tissular plasminogen activator (t-PA). Finally, in the transfected cells, increased cGMP generation under atrial natriuretic factor (ANF) stimulation agreed with previous work performed on nontransfected human VEC. In conclusion, the establishment of a human permanent cell line which retains most of the phenotypic features of parental glomerular visceral epithelial cells should represent a new tool to study human glomerular cell functions.
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PMID:Stable cell line of T-SV40 immortalized human glomerular visceral epithelial cells. 166 15

Using an indirect immunoperoxidase technique, we tested frozen specimens from 12 Wilms' tumors with monoclonal antibodies (MoAbs) reacting against a large panel of molecules including laminin, fibronectin, cytokeratin, vimentin, villin, CD24, CALLA/CD10, CR1, CD26, class I and class II major histocompatibility complex (MHC) molecules, and endothelium factor VIII. These molecules were chosen because they are markers of specific segments of the mature kidney and because their loss or acquisition is indicative of different steps of human nephrogenesis. KI67 MoAb was used to evaluate the proliferating activity of the cells. The blastemal component (cell compact areas) of Wilms' tumors consisted of vimentin-positive cells with a fibronectin network. However, signs of epithelial maturation were present in compact areas where cytokeratin-positive cells producing laminin were observed. The cells exhibited a high degree of proliferating activity. The tubule formations consisted of cytokeratin-positive cells and had a defined laminin border. All the cells, whether in compact areas or in tubules, were strongly CD24-positive. Some tubular formations showed signs of proximal maturation with the presence of CALLA, CD26, and even villin. In four cases class I-MHC molecules were expressed by some tubular cells. Large cystic cavities present in five cases were edged by cytokeratin, CD24-positive cells, or by vimentin, CALLA, CR1-positive cells. Some glomeruloid bodies, present in two cases, were also composed of vimentin, CALLA, and CR1-positive cells which correspond to the mature podocyte phenotype. The interstitial tissue contained mainly laminin and fibronectin network with macrophages and few CD3 lymphocytes. The presence of large cells with muscular differentiation was noted; round vimentin and CD26-positive cells were also seen. The endothelial cells of the vessels exhibited vimentin, factor VIII, and class I and class II MHC molecules as do mature cells, but in some cases the endothelial cells lacked class II molecule expression and were CALLA-positive. These results which confirmed and extended those previously described show that cell differentiation in Wilms' tumor mimics that observed during metanephros development. Moreover, this study shows that tumoral cells in nephroblastoma share several antigens with cells from lymphoid lineage (CD24, CALLA, and CD26) as do developing and mature kidney cells. Such cell phenotype dissection provides a useful and reliable tool for testing the influence of various factors on the development of hetero-transplanted or cultured Wilms' tumors.
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PMID:Cell differentiation in Wilms' tumor (nephroblastoma): an immunohistochemical study. 169 63

The authors tested frozen sections from 28 renal cell carcinomas (RCC)--21 clear, 1 eosinophilic, 4 basophilic, and 2 spindle-shaped cell type--with monoclonal antibodies (MAb) reacting against cytokeratin, vimentin, CD24, CALLA/CD10, villin, CD26, and HLA class I and class II molecules. These molecules are markers of specific segments of the mature kidney, and their loss or acquisition reflects the different steps of human nephrogenesis. KI67 MAb was used to evaluate cell-proliferating activity. All RCC cases expressed cytokeratin. Coexpression of vimentin was observed in 21 of 28 cases. Whether of clear or chromophilic type, all tumoral cells strongly expressed CD24 molecule, present on primitive blastema cells. All clear-type RCCs expressed CALLA/CD10 and 60% were also villin positive; some were faintly positive for CD26. CALLA, villin, and CD26 were not detected in basophilic cell type. HLA class I molecules were variably expressed in almost all cases, but HLA class II were never detected on tumoral cells. Except for the spindle-shaped population, cell-proliferating activity was low. These results favor the hypothesis that RCCs derive from cells that have 'recovered' the different options of metanephric differentiation. Clear cells show evidence of maturation toward proximal type, while basophilic cells do not. It would be of interest to evaluate the usefulness of serum measurements of villin and/or CALLA as markers in clear cell-type RCC.
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PMID:Expression of the human nephron differentiation molecules in renal cell carcinomas. 169 23

A panel of cell-type specific monoclonal and polyclonal antibodies and lectins was used to examine the early, morphologically epithelial outgrowth of rat renal glomerular cells in culture. The cell type-specific reactivity of the monoclonal antibodies has been previously verified on tissue sections of rat kidneys at light and electron microscopic levels. Morphologically distinct epithelial cells grew out from the isolated glomeruli within 3 days in culture, followed by the growth of morphologically typical stellate mesangial-like cells. Endothelial and mesangial cells were positively identified from the early cultures (up to 10 days) with antibodies to a 350 kD protein, dipeptidyl peptidase IV, podocalyxin, factor VIII, OX-43 and with Bandeiraea simplicifolia (BS-I B4) lectin, and with antibodies to smooth muscle actin, desmin, Thy1.1 antigens and with Ricinus communis (RCA-1) lectin, respectively. The antibodies recognizing podocytes in vivo (antipodocalyxin, anti-O-acetyl GD3 ganglioside, anti-gp330, anti-C3b complement receptor, anti-vimentin and anti-CALLA) consistently failed to bind to the predominant epithelial cells in early cultures, although these antibodies readily bound to the cells of the intact glomeruli remaining in culture. The attempts to augment the expression of cell-type specific epitopes by culturing glomeruli on various matrices or by enriching the medium with various growth factors, failed to induce podocytic epitopes on the growing epithelial cells. Glomeruli from newborn rats cultured in vitro, but were also constantly negative for the markers of podocytes. In addition, we cultured glomerular-like bodies from in vitro were induced metanephric mesenchymes but failed to obtain evidence of growing podocytes. However, the epithelial cells reacted with antibodies to thrombospondin and cytokeratin that react with the parietal epithelium of glomeruli on tissue sections. The results show that early glomerular cultures consist of mesangial, endothelial and presumably parietal epithelial cells readily identifiable by immunocytochemical methods. No podocytes could be grown under the various growth conditions tested. This suggests that glomerular podocytes are effectively growth arrested and call for new approaches to obtain these cells in culture.
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PMID:Rat glomerular cells do not express podocytic markers when cultured in vitro. 175 4

Using an indirect immunoperoxidase technique, we tested frozen specimens from one Wilms' tumour composed of numerous glomeruloid bodies devoid of blood vessels, with monoclonal antibodies directed against vimentin, cytokeratin, CALLA/CD10, CD24, CR1/CD35, endothelium factor VIII, class I and II MHC molecules, laminin, fibronectin, and non-collagenic domain NC1 of type IV collagen. Two reagents against Goodpasture determinants were used: P1 monoclonal antibody and serum IgG (GP antibodies) from a biopsy-proven Goodpasture patient. Glomeruloid bodies comprised two cell types: a peripheral layer of parietal epithelial cells (cytokeratin and CD24-positive) and central cell clumps of podocytes (vimentin and CALLA-positive). The basal lamina surrounding the glomeruloid bodies contained laminin and NC1 domain of type IV collagen, while that present between the podocytes reacted strongly with laminin, and P1 and GP antibodies. Endothelium factor VIII was not detected within the glomeruloid bodies and CR1 molecules bound to the basement membrane material within them. These data favour the hypothesis that podocytes produce the basement membrane material which bears Goodpasture determinants recently identified as a novel chain, named the alpha 3 chain, of type IV collagen.
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PMID:Deduction from Wilms' tumour that glomerular podocytes produce the basement membrane material bearing Goodpasture determinants. 196 93

Recently, great interest has been shown in the histological identification of small cell tumours of childhood--nephroblastoma (Wilms' tumour), neuroblastoma, rhabdomyosarcoma and Ewing's sarcoma--using immunohistochemical methods. However, several antigens operationally specific for leucocyte typing in blood and marrow are also expressed on cells of epithelial and neural origin. We undertook phenotypic characterization of 17 non-haemopoietic small cell tumours of childhood using a panel of 30 monoclonal antibodies to leucocyte, epithelial and cytoskeletal antigens using a sensitive alkaline phosphatase-anti-alkaline phosphatase technique on cryostat sections of fresh tumour. Our results demonstrated frequent expression of the leucocyte-associated antigens CD10 (CALLA), CD9 (p24) and CDw32 (FcRII) in these small cell tumours and occasional expression of MHC class II (HLA-DR) and HNK-1 antigens. However, the leucocyte-associated antigens CD45 (leucocyte common), CD22 (pan B-cell), CD11b (C3bi receptor), CD15 (Lewisx) or CDw42 (platelet gp Ib) were not detected on any tumour. Aberrant expression of desmin, neurofilament and UJ13A antigen was found in nephroblastoma and of epithelial-associated markers (CIBr17 and 43-9F) in neuroblastoma. Our results also demonstrated broad reactivity in frozen section with two monoclonal antibodies specific for melanoma (NKI/C-3) or epithelial cells (OM-1) in paraffin sections. Hence, it is necessary to include monoclonal antibodies to CD45 and pan-epithelial antigens, e.g. LP34 (cytokeratin) or HEA125 for the precise immunohistochemical identification of small round cell malignancies of childhood.
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PMID:Phenotypic characterization of non-haemopoietic small cell tumours of childhood with monoclonal antibodies to leucocytes, epithelial cells and cytoskeletal proteins. 254

Previous studies have demonstrated a high level of heterogeneity associated with human renal cell carcinoma (RCC). In order to probe further this heterogeneity monoclonal antibodies were produced after immunization of mice with extracts of fresh renal tumor specimens. Four monoclonal antibodies designated LD-M1, LD-M2, LD-M5, and LD-M8 were generated and characterized immunohistochemically on a panel of tissue sections. The LD monoclonal antibodies strongly stained paraffin sections obtained from 77 to 100% of cases of RCC. Testing the sections with a library of polyclonal and monoclonal antibodies resulted in the definition of the following immunohistochemical phenotype of RCC: positive with the LD-M1, LD-M2, Ld-M5, LD-M8, Uro-2, Uro-7, Uro-10, cytokeratin, keratin, TPA, vimentin, Fx1A, retinol binding protein, CALLA and B72 antibodies; negative with the prekeratin, desmin, A5.48, uromucoid, and CEA antibodies. The pattern of immunohistochemical activity indicates that some RCC tumor cells contain epitopes associated with distal tubules in addition to previously documented antigens present in proximal tubules. Using a solid-phase competition radioimmunoassay it was observed that the serum of patients with renal cell carcinoma contains a circulating LD-M5-reactive tumor-associated antigen.
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PMID:Definition of the human renal cell carcinoma phenotype using monoclonal and polyclonal antibodies: a tumor marker study. 266 15

One case of breast neuroendocrine primary small cell carcinoma with light microscopic and immunohistochemical findings is reported. The patient died of unrelated disease 21 months after diagnosis and treatment by modified radical mastectomy, radiotherapy and subsequent chemotherapy. Immunohistochemical studies revealed cytokeratin and neuroendocrine markers (chromogranin, neuron-specific enolase) immunostaining on tumoral cells. Expression for neuropeptides (met-enkephalin, leu-enkephalin, beta-endorphin) and CALLA antigen was found. Based on this case report and six other previously reported cases, breast neuroendocrine primary small cell carcinoma appears to be a very aggressive tumor for which no firm conclusions regarding treatment can be drawn.
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PMID:Neuroendocrine primary small cell carcinoma of the breast. Report of a case and review of the literature. 863 51

Extensive immunohistochemical analyses of the hyperplastic human palatine tonsil disclosed variegated B cell phenotypes on the lymphoid cells among the crypt epithelium. The reticular epithelial network was evident by cytokeratin immunostaining. The reticular epithelium near the crypt lumen was positive for lysozyme. Secretory component was negative, while HLA-DR was frequently expressed. Intramucosal small lymphocytes, densely distributed in the luminal side, consisted mainly of B cells expressing CD19, CD20, CD21, CD22, CD45R, CD74, DBB42, HLA-DR, HLA-DQ, bcl-2 protein and surface IgM. Some B cells revealed mantle zone phenotypes (surface IgD+, CD5+, CD24+, DBA44+, CD10-, DNA7-). Cells of germinocyte phenotype (CD10+, DNA7+) were sparsely seen. A good number of intramucosal lymphoid cells were further labeled for CD11b, a phenotype of so-called B-1 cells. Plasma cells were clustered within the basal half. IgG was their major immunoglobulin class, followed by IgA, IgM and IgD classes. A smaller number of T cells (CD2+, CD3+, CD5+, CD45RO+, TCR alpha beta+) were identified among the epithelium. CD4+ cells predominated over CD8+ cells. TCR gamma delta+ cells were rare. Macrophages (CD68+), dendritic histiocytes (S-100 protein+, CD1+), and natural killer cells (CD16+ or CD57+) were also dispersed. Another unique feature of this lymphoepithelial complex was the existence of HLA-DR- intramucosal intramucosal microvasculature, where lymphocyte recirculation was suggested. Proliferating cell nuclear antigen was detected commonly in the epithelial cells but rarely in the lymphoid cells. Possible lymphoepithelial interactions and morphologic similarities to the thymic medulla are discussed.
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PMID:Reticular crypt epithelium and intra-epithelial lymphoid cells in the hyperplastic human palatine tonsil: an immunohistochemical analysis. 770 42

Studies assessing mechanisms of proximal tubular cell (PTC) physiology and pathophysiology increasingly utilize cell culture systems to avoid the complexity of whole organ/whole animal experiments. However, no well-differentiated PTC line derived from adult human kidney currently exists. Therefore, the goal of this research was to establish such a line by transduction with human papilloma virus (HPV 16) E6/E7 genes. A primary PTC culture from normal adult human renal cortex was exposed to a recombinant retrovirus containing the HPV 16 E6/E7 genes, resulting in a cell line designated HK-2 (human kidney-2) which has grown continuously in serum free media for more than one year. HK-2 cell growth is epidermal growth factor dependent and the cells retain a phenotype indicative of well-differentiated PTCs (positive for alkaline phosphatase, gamma glutamyltranspeptidase, leucine aminopeptidase, acid phosphatase, cytokeratin, alpha 3 beta 1 integrin, fibronectin; negative for factor VIII-related antigen, 6.19 antigen and CALLA endopeptidase). Furthermore, HK-2 cells retain functional characteristics of proximal tubular epithelium (Na+ dependent/phlorizin sensitive sugar transport; adenylate cyclase responsiveness to parathyroid, but not to antidiuretic, hormone). The E6/E7 genes are present in the HK-2 genome, as determined by PCR. To assess its potential usefulness as a tool for studying injury and repair, HK-2 cells were exposed to a toxic concentration of H2O2 +/- iron chelation (deferoxamine) or hydroxyl radical scavenger (Na benzoate) therapy. Only the former blocked H2O2 cytotoxicity, reproducing results previously obtained with freshly isolated rat proximal tubular segments. In conclusion, an immortalized adult human PTC line has been established by transduction with HPV 16 E6/E7 genes. It appears to be well-differentiated on the basis of its histochemical, immune cytochemical, and functional characteristics, and it can reproduce experimental results obtained with freshly isolated PTCs. Thus, this new PTC line could have substantial research application.
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PMID:HK-2: an immortalized proximal tubule epithelial cell line from normal adult human kidney. 812 21


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