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: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We developed a method for avoiding contamination by fibroblasts when cultures of peritoneal cells are initiated. Macrophages were identified by immunogold detection [light microscope, transmission (TEM) and scanning (SEM) electron microscopes] of membrane antigens (Mac-1+, Thy-1,2-), non-specific esterase activity and ultrastructural features (TEM). As compared with controls, the yield of peritoneal macrophages was 2- and 12-fold higher, respectively, in acutely and chronically infected mice. In all, 30 "chronic", 18 "acute" and 18 control cultures were followed up. At a given cell-density seeding, the decline of control, "acute" and "chronic" cultures starts at about day 10, 15, and 27, respectively. In "chronic" cultures only, fibroblast-like cells appear from day 6 onwards; their number increases with time. Cells showing characters intermediary between macrophages and fibroblasts were observed. We suggest that fibroblast-like cells result from the in vitro transdifferentiation of a limited number of in vivo committed macrophages.
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PMID:Schistosomiasis and in vitro transdifferentiation of murine peritoneal macrophages into fibroblastic cells. 251 39

Intravenous administration of rabbit anti-rat thymocyte serum (ATS) reactive with Thy-1-like antigens present on rat mesangial cells induces almost immediate (1-hr) mesangial cell injury in rats followed by sequential mesangiolytic and mesangial-proliferative/infiltrative lesions. To determine the role of complement in these ATS-induced glomerular lesions, ATS was given to Lewis rats that had been depleted of C3 by cobra venom factor (CVF). CVF treatment prevented the degenerative changes in mesangial cells and accumulation of even the few polymorphonuclear leukocytes (PMN) seen in the glomeruli (2.67 PMN/glomerulus) 1 hr after ATS-treatment in rats not given CVF. In addition, CVF prevented the mesangiolysis and mesangial hypercellularity seen at day 4. Rat C3 and late complement components identified in the mesangial of ATS-treated rats in close association with the deposition of rabbit immunoglobulin G was also absent as a result of CVF treatment. CVF treatment did not affect binding of ATS to glomeruli as studied by immunofluorescence or paired label radioisotope techniques. The depletion of leukocytes and/or PMN by irradiation or treatment with anti-I-MN serum had no effect on the induction of the acute mesangial cell damage or the mesangiolytic lesion. Irradiation did diminish the 4-day proliferative/infiltrative lesion. Complement depletion normalized the ATS-induced increase in mesangial uptake of heat-aggregated human gamma-globulin (655.0 +/- 35.2 micrograms in ATS-treated vs 20.3 +/- 2.9 micrograms/5 X 10(4) glomeruli in ATS plus CVF-treated rats; mean +/- SEM). Small immune deposits present in the mesangial areas of kidneys 4 to 5 days after CVF treatment represented CVF-anti-CVF antibody-C3 complexes. The model of mesangial cell damage induced by ATS in the rat is complement-dependent and may relate, at least in part, to complement-mediated mesangial cell lysis.
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PMID:Complement dependence of antibody-induced mesangial cell injury in the rat. 349 69

It was the objective of the study to characterize CD34+ hematopoietic progenitor cells from peripheral blood (PB) and bone marrow (BM) in a group of 24 cancer patients. After cytotoxic chemotherapy, R-metHu granulocyte colony-stimulating factor (R-metHuG-CSF; filgrastim, 300 micrograms daily, subcutaneously) was given to shorten the time of neutropenia as well as to increase the rebound of peripheral blood progenitor cells (PBPC) for harvesting. The proportion of CD34+ cells in the leukapheresis products (LPs) was 1.4-fold greater than in BM samples that were obtained at the same day (LP: median, 1.4% v BM: median, 1.0%, P < .01). Two- and three-color immunofluorescence showed that blood-derived CD34+ cells comprised a greater proportion of a particular early progenitor cell than CD34+ cells of bone marrow. Blood-derived progenitor cells tended to have a higher mean fluorescence intensity of CD34 and expressed significantly lower levels of HLA-DR (mean fluorescence intensity of HLA-DR: 442.6 +/- 44.9 [LP] v 661.5 +/- 64.6 [BM], mean +/- SEM, P < .01). Furthermore, the blood-derived CD34+ cells comprised a 1.7-fold greater proportion of Thy-1+ cells (LP: median, 24.4% v BM: median, 14.4%, P < .001) and expressed significantly less c-kit (LP: median, 20.5% v BM: median, 31.0%, P < .01). Three-color analysis showed that high levels of Thy-1 expression were restricted to CD34+/HLA-DRdim or CD34+/HLA-DR- cells confirming the early developmental stage of this progenitor cell subset. The proportion of CD34+/CD45RA(bright) cells representing late colony-forming unit granulocyte-macrophage (CFU-GM) was smaller in LPs compared with BM (P < .05). For an examination of BM CD34+ cells before the mobilization chemotherapy, samples of 16 patients were available. The mean proportion of c-kit expressing CD34+ cells in the bone marrow during G-CSF-stimulated reconstitution decreased 1.8-fold compared with baseline values. There was no difference in the proportion of BM-derived CD34+/Thy-1+ cells and CD34+/CD45RA+ cells between steady-state hematopoiesis and G-CSF-supported recovery. Our data suggest that during G-CSF-enhanced recovery, CD34+ cells in the PB are enriched with more primitive progenitor cells to evenly replenish the BM after the chemotherapy-related cytotoxic damage.
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PMID:Blood-derived autografts collected during granulocyte colony-stimulating factor-enhanced recovery are enriched with early Thy-1+ hematopoietic progenitor cells. 753 95

We used transmission and scanning electron microscopy in conjunction with immunogold labeling to study cell surface molecules for evidence of distribution-function relationships. Ascription of functional significance to surface distribution therefore requires preservation of cell morphology and maintenance of molecular expression and distribution through the multiple steps of cell preparation. These requirements prompted us to compare two methods for preparing leukocytes for analysis of surface molecule distribution: one method involved using low temperature to "stabilize" cell morphology and surface molecular organization through immunolabeling; the other involved fixation of the cells with dilute glutaraldehyde before their isolation and labeling. Binding of primary antibodies to several surface molecules, measured by flow cytometry, was comparable for cells prepared by the two methods. Cell morphology and molecular distributions, assessed by high-resolution field emission SEM, were likewise comparable. These results support the conclusion that cell morphologies and CAM distributions previously reported were not affected by exposure of the cells to low temperature through isolation and immunolabeling. Our additional observation that Thy-1 is expressed on both non-projecting and projecting membrane domains of mouse lymph node lymphocytes and rat thymocytes represents a third and new pattern of surface molecule distribution.
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PMID:Preservation of spatial organization and antigenicity of leukocyte surface molecules by aldehyde fixation: flow cytometry and high-resolution FESEM studies of CD62L, CD11b, and Thy-1. 881 76

It was the aim of our study to determine the collection efficiency and yield of CD34+ cells in 88 cancer patients (pts, 44 males/44 females) who underwent 154 large-volume leukaphereses (LV-LPs). The diagnoses were as follows: 18 patients had Non-Hodgkin's lymphoma, 9 Hodgkin's disease, 24 multiple myeloma, 6 acute leukemia, 27 breast cancer, and 4 patients had solid tumors of different types. During the course of LV-LPs, 20 liters (1) of blood were processed at a median flow-rate of 85 ml/min (CS 3000 Baxter) and 130 ml/min (COBE Spectra), respectively. Peripheral blood stem cells (PBSC) were collected following granulocyte colony-stimulating factor (G-CSF)-supported cytotoxic chemotherapy. A 31% and 21% mean decrease in the platelet and white blood count was noted at the end of the LV-LPs when compared with the pre-leukapheresis values. The aphereses were well tolerated without adverse effects. The level of circulating CD34+ cells was closely related to the number of CD34+ cells contained in the respective leukapheresis product (R = 0.89, P < 0.001). Compared with 270 patients who underwent 838 regular 10 1 LPs, the yield of CD34+ cells/kg was almost two-fold greater (4.84 +/- 0.63 x 10(6) [Mean +/- SEM] vs. 2.60 +/- 0.16 x 10(6), P < 0.001). The antigenic profile of CD34+ cells was assessed in 54 separate products collected on the occasion of 27 LV-LPs following the processing of 10 1 and 20 1, respectively. The intra-individual comparison included differentiation- as well as lineage-associated markers (CD38, Thy-1, c-kit, CD33, CD45RA). No difference in the subset composition was observed between the first and second product, arguing against a preferential release of particular CD34+ cell subsets during the procedure. As shown by molecular biological or immunocytochemical examination, the likelihood of harvesting malignant cells using large-volume aphereses was not increased in comparison with regular leukaphereses. Single harvests of > or = 2.5 x 10(6) CD34+ cells/kg could be obtained in 74% of the patients, compared with 52% in case of regular LPs. As the majority of patients were autografted with more than 2.5 x 10(6) CD34+ cells/kg following high-dose therapy, hematological recovery in general was rapid and not related to the type of apheresis product used. Considering patient comfort and savings in resource utilization, large-volume leukaphereses have become the standard procedure for PBSC collection in our center.
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PMID:Successful collection and transplantation of peripheral blood stem cells in cancer patients using large-volume leukaphereses. 898 64

Capillary repair can occur in damaged glomeruli in recovery models of glomerulonephritis (GN). In order to clarify whether capillary repair is an essential component in glomerular recovery from GN, we have examined the development of the capillary repair after inflammatory injury in both the repairing glomeruli and the segmental sclerotic scar lesions in Thy-1 GN. Mesangiolytic glomerular damage was induced in rats with anti-Thy-1.1 antibody administration. Diffuse mesangiolysis and segmental microaneurysmal ballooning developed in damaged glomeruli by day 3, with reduction of endothelial cellularity. Thereafter, histological proliferative GN developed between day 5 and week 3. Endothelial cell proliferation began on day 1 and peaked on day 5, and the number of glomerular endothelial cells increased and exceeded the level of control values on day 7. Angiogenic glomerular capillary repair occurred through the process of not only capillary regeneration from remaining endothelial cells in capillary aneurysmal lesions but also new capillary growth derived from the glomerular vascular poles by day 7. The number of glomerular capillary lumina also increased to the level of controls by week 3. Subsequently, mesangial proliferative GN resolved, and most of the glomeruli recovered to their normal structure with the reconstruction of the capillary network by weeks 4-6. In the glomerular capillary repair, significant apoptosis of glomerular endothelial cells was present during the period of mild endothelial cell hypercellularity between day 7 and day 10 (0.06 +/- 0.02 apoptotic endothelial cells/glomerular cross section vs. 0.00 +/- 0.00 in controls, mean +/- SEM; p < 0.05. In Thy-1 GN, most of the damaged glomeruli recovered with angiogenic capillary repair. However, segmental sclerotic scar lesions remained in 10-30% of the glomeruli with an incomplete repair of glomerular capillaries. Therefore, it is concluded that following the destruction of the glomerular capillary network in GN, angiogenic capillary repair plays an essential role in the recovery of damaged glomeruli, and incomplete capillary repair leads to sclerotic scar lesions in damaged glomeruli. Glomerular capillary repair occurs through the process of capillary regeneration from remaining endothelial cells as well as new glomerular capillary growth from the glomerular vascular poles. In glomerular capillary repair, apoptosis is necessary in regulating the number of intrinsic endothelial cells.
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PMID:Recovery of damaged glomerular capillary network with endothelial cell apoptosis in experimental proliferative glomerulonephritis. 964 2

The magnetic cell sorter (MACS) technique was applied to isolate retinal ganglion cells (RGCs) for culture. RGCs were labeled retrogradely with 1.1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine perchlorate (Dil). Subsequently retinal cell suspensions were incubated with biotinylated anti-rat Thy-1 antibody and MACS Streptavidin MicroBeads, and then applied onto the column in the magnetic fields. Cells attached on the column were flashed out without magnetism and plated on glass cover slips. RGCs were enriched to 31.0% of all cells with MACS from 0.55% before applying onto the magnetic column. Mean diameters of Dil-labeled cells were significantly larger than those of unlabeled cells. All cells with soma diameter over 11 microm were labeled. The number of viable RGCs were counted in the 10 fields of six cultures at a magnification of x200; the mean numbers on the 2nd, 7th and 14th culture-day were 53+/-3, 24+/-2 and 21+/-3, respectively (mean +/- SEM, n = 6). Thus, the MACS technique was confirmed to be useful for enrichment of RGCs and long-term study of cultured RGCs.
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PMID:Rat retinal ganglion cells culture enriched with the magnetic cell sorter. 1002 70

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