Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hematopoietic tyrosine kinase receptors (HGF-TKRs or class III TKRs) are essential for the growth and differentiation of hematopoietic cells. In this report we present a novel method that generates expression profiles of these receptors. The method was tested and optimized using the myeloblastic/ promyelocytic cell line KG1. The method involves PCR of cDNA using class III-specific degenerate primers and subsequent restriction enzyme digests of the 147 bp amplicons followed by fractionation on denaturing poly-acrylamide gels. This primary fingerprint of KG1 revealed equal expression of c-kit and flt3 and to a lesser extent PDGF-R alpha and c-fms. One residual band of unknown origin was seen and appeared to be the proto-oncogene RET following cloning and sequence analysis. This tyrosine kinase receptor is known to play an important role in neural development. In order to detect less abundantly expressed sequences, a secondary fingerprint was generated by pre-digestion of the receptors present in the primary expression profile and subsequent amplification of the residual band. No other tyrosine kinase receptors were observed in KG1. In conclusion, this method allows direct visualization of expression of the HGF-TKRs and has the potential to detect novel homologous receptors.
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PMID:Direct display of hematopoietic tyrosine kinase receptor expression profiles in KG1 cells by PCR using degenerate primers. 870 51

We performed a combined manual and computer search of the FMS literature to identify controlled clinical trials in FMS from 1980 to June 1994 inclusive. Our specific objectives were: 1) to determine which outcome measures have been used in clinical trials for FMS, and the methods utilized to measure these outcomes; 2) to identify which outcome measures were most and least sensitive in distinguishing between treatment groups, and 3) to identify weakness in trial design. Our analysis of 24 clinical trials demonstrates the large diversity of outcome measures and measurement instruments that have been used to detect differences between treatment and placebo in the management of FMS. Whereas certain outcomes, such as self-reported pain and sleep quality, were frequently measured, other clinically important outcomes, such as functional and psychological status, were infrequently included in data collection. Finally, we identified several significant potential sources of bias, including potential flaws in subject selection and group allocation, inadequate randomization, incomplete blinding, errors in outcome measurement, and inappropriate analysis of data.
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PMID:An analytical review of 24 controlled clinical trials for fibromyalgia syndrome (FMS). 874 May 97

Murine epidermis contains two leukocyte populations: Langerhans cells (LC), which are APC of dendritic cell (DC) lineage, and dendritic epidermal T cells (DETC), which are members of the tissue-type gamma delta T cell family. Despite close physical approximation in vivo, the extent to which LC and DETC affect each other's function has remained unknown. We addressed this question using the long term DC line XS52 and the gamma delta T cell line 7-17, both of which were established from mouse epidermis, and both of which retain important features of the resident populations from which they were derived. XS52 DC proliferated maximally when cocultured with gamma-irradiated 7-17 DETC. They also proliferated in response to culture supernatants collected from anti-CD3- or Con A-activated 7-17 DETC, but not from nonstimulated DETC. In both systems, DETC-induced XS52 DC growth was inhibited partially (up to 70%) by Abs against granulocyte/macrophage CSF (GM-CSF) or CD115 (CSF-1 receptor) and nearly completely (up to 90%) by both together. Among 28 tested cytokines, only GM-CSF, CSF-1, IL-4, and IL-13 promoted XS52 DC growth significantly. Anti-IL-4 failed to inhibit DETC-induced XS52 cell growth, and IL-4 was not detectable in DETC supernatants. Thus, we conclude that GM-CSF and CSF-1 (and perhaps IL-13) account for the DC growth-promoting activity secreted by DETC. These results suggest that during coculture, XS52 DC activate 7-17 DETC to secrete both GM-CSF and CSF-1. In fact, when cultured with XS52 DC, 7-17 DETC also elevated their expression of the gamma c receptor and acquired proliferative responsiveness to their own growth factor IL-15. We propose that LC and DETC in situ may interact with each other in a similar manner, thereby regulating their residence and function.
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PMID:Cytokine-mediated communication between dendritic epidermal T cells and Langerhans cells. In vitro studies using cell lines. 875 35

Expression profiles were generated for the haemopoietic tyrosine kinase receptors (HGF-TKRs or class III TKRs) by PCR on cDNA samples (RT-PCR) using a degenerate primer set. Each profile consisted of primary and secondary, i.e. enriched for less-expressed sequences, fingerprints. This method was applied on FACS-purified haemopoietic CD34+ cells, both from bone marrow (BM) and umbilical cord blood (UCB), and on mature cells from peripheral blood. CD34+ BM cells showed expression of c-fms. flt3, whereas CD34+ UCB cells expressed c-fms and, to a lesser extent, c-kit and flt3. In mature blood cells, only c-fms was observed in monocytes and a weaker flt3 expression in monocytes and T lymphocytes, whereas no known class III TKRs were detected in B lymphocytes and polymorphonuclear cells (PMNs). In all fractions a novel band could be observed, which appeared to be RET. Expression of RET was confirmed by RT-PCR and showed the highest levels in monocytes, followed by PMNs and CD34+ cells. B lymphocytes revealed low levels of expression. RET is known to be essential in neural development. Our results suggest a possible role for this receptor in haemopoiesis.
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PMID:Haemopoietic growth factor tyrosine kinase receptor expression profiles in normal haemopoiesis. 875 81

Dendritic cells (DC) are a specific subset of APC characterized by the potent ability to activate immunologically naive T cells. We have observed previously that the murine epidermis-derived DC line XS52 undergoes a set of profound changes upon Ag-specific interaction with T cells, including IL-1 beta secretion acquired expression of CD86, and lost expression of CD115 (CSF-1 receptor) and proliferative responsiveness to CSF-1. These changes, which appear to reflect a critical transition during Ag presentation, have been termed T cell-mediated "terminal maturation" of DC, Here we report that XS52 cells also lose their adhesive and phagocytotic capacities during this event. XS52 cells, ordinarily adhere to petri dishes and phagocytose latex heads, as has been reported for DC freshly procured from spleen and skin. Importantly, XS52 cells lose both capacities after 3 to 24 h of incubation with HDK-1 T cells (keyhole limpet hemocyanin-specific TH1 clone) or with 5S8 T cells (dinitrobenzene sulfonate specific Th0 clone) in the presence of Ag. By contrast, incubation with T cells alone or with Ag alone has minimal effects, indicating that this regulation required both T cells and Ag. With respect to mechanisms, several lines of evidence suggest this IFN-gamma, which is secreted by T cells, serves as the primary mediator in down-regulating both capacities. Our observations illustrate a unique mechanism by which responding T cells upon Ag-specific activation by DC, suppress the machinery of Ag uptake through the elaboration of IFN-gamma.
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PMID:T cell-mediated terminal maturation of dendritic cells: loss of adhesive and phagocytotic capacities. 880 31

Two methods to generate human dendritic cells from hematopoietic precursor cells in peripheral blood have recently been published. One approach utilizes the rare CD34+ precursors and GM-CSF plus TNF-alpha. The other method makes use of the more abundant CD34- precursor population and GM-CSF plus IL-4. Here we report a method that is based on the latter approach. However, the GM-CSF and IL-4 treated cells are not stable mature dendritic cells, e.g., the characteristic morphology and nonadherence of dendritic cells is lost if the cytokines are removed. We describe the need for a monocyte-conditioned medium to generate fully mature and stable dendritic cells. This is achieved by adding a 3 day 'maturation culture' to the initial 6-7 day culture in the presence of GM-CSF and IL-4. Macrophage-conditioned medium contains the critical maturation factors. Mature dendritic cells are defined by their pronounced display of motile cytoplasmic processes ('veils'), their high capacity to induce proliferative responses in resting T cells, particularly in naive umbilical cord T cells, their down-regulated antigen processing ability, and their characteristic phenotype: expression of CD83, high levels of MHC molecules and CD86, lack of CD115 and perinuclear dot-like CD68 staining. These features are stable for at least 3 days upon withdrawal of cytokines and conditioned media. IL-4 can be replaced by IL-13. When CD34+ progenitors are depleted from blood, there is only a minor reduction in the yield of dendritic cells by this method. We have adapted the method to consider several variables that are pertinent to clinical use, including a change from fetal calf serum to human plasma and to media approved for clinical use like X-VIVO or AIM-V. 1% plasma and RPMI 1640 are currently optimal. Additional reagents used for cell culture (Ig. cytokines) and cell separation (immunomagnetic beads) are approved for or already used in clinical applications. For 40 ml blood, the yield is 0.8-3.3 x 10(6) mature dendritic cells as defined by the expression of the new dendritic cell-restricted marker CD83. CD83+ cells constitute between 30 and 80% of all cells recovered at the end of the culture period. Yields can be enhanced up to six-fold if the blood donors are pretreated with G-CSF. Stable, mature dendritic cells generated by this method should be a powerful tool for active immunotherapy.
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PMID:Generation of mature dendritic cells from human blood. An improved method with special regard to clinical applicability. 884 52

The stem cell tyrosine kinase 1 (STK1) protein is the human homologue of the murine FLT3 gene product, a receptor belonging to the FMS/KIT family. FLT3 and KIT with their ligands control the growth and differentiation of early human hemopoietic cells. In the present study, 16 cases of acute myeloid leukemia (AML) were examined by flow cytometry for cell surface expression of FLT3 and KIT receptors. All cases were also tested for their proliferative response to human FLT3 ligand (FL) and KIT ligand (KL) and for colony formation in the presence of single or associated cytokines. Among 16 AML cases tested, 10/16 expressed FLT3 receptor and 12/16 expressed KIT receptor, without any correlation with FAB subtype. FL and KL stimulated the proliferation of leukemic blasts in 11/16 AML cases (including five FLT3 or KIT receptor-negative cases), with an additive effect when added simultaneously. By contrast, some receptor-expressing AMLs did not display significant proliferative responses to their respective ligands. FL and KL as single factors induced or significantly increased the colony formation by clonogenic precursor cells respectively in eight and six of 13 cases tested. In some cases growth factor association significantly enhanced colony growth. Taken together these observations provide evidence that the pattern of FLT3 and KIT receptor expression is extremely variable among the AMLs and that receptor presence is not necessarily combined with proliferative and clonogenic response or vice versa.
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PMID:Expression of type III receptor tyrosine kinases FLT3 and KIT and responses to their ligands by acute myeloid leukemia blasts. 884 93

Levels of PCDDs, PCDFs and non-ortho PCBs are reported for fish oils available in Spain which are consumed by the population as a dietary supplement. Trace enrichment methodology based on the use of modified silica and activated carbon chromatography was combined with on-column extraction (FMS 100) to separate PCDDs, PCDFs and PCBs from lipid material. The extracts were further cleaned up on disposable Florisil columns and analysed by HRGC/HRMS (PCDD/F and non-ortho PCB fractions). Mean levels found in the samples were 10.50 ppt for total PCDDs and 9.95 ppt for total PCDFs. Calculated PCDD/F I-TEQ values were found to be 2.11 ppt on a lipid weight basis. Total mean levels found for co-planar PCBs (#77, 126 and 169) were 18.26 ppt and the calculated I-TEQ value was 0.31 ppt on a lipid weight basis.
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PMID:Levels of PCDDs, PCDFs and non-ortho PCBs in dietary supplement fish oil obtained in Spain. 890 23

The effect of the CSF-1 receptor, cFMS, on the phosphorylation of the retinoblastoma (RB) tumor suppressor protein and on the cell cycle and cell differentiation was analyzed in a cultured promyelocytic leukemia cell capable of induced myelomonocytic differentiation. A series of cFMS-transfected HL-60 sublines with progressively higher cell surface FMS expression was derived by flow cytometric cell sorting. Overexpression of FMS increased the duration of the cell cycle, prolonging all cell cycle phases especially S phase, which doubled. The increased cell cycle generation times occurred without any detectable changes in RB expression level or phosphorylation. For retinoic acid (RA)-induced myeloid differentiation, progressive overexpression of FMS caused a greater fraction of cells to differentiate and G1/0 arrest compared to wild-type cells after the same number of cell cycle generation times. FMS overexpression also progressively increased the relative amount of dephosphorylated RB protein induced, while reducing the total amount of RB protein. The inducer-originated and FMS-driven changes in RB hypophosphorylation were not effected through changes in p21/WAF1/CIP1 in this p53-negative cell. Similar effects on differentiation and G0 arrest occurred with 1,25-dihydroxy vitamin D3 (D3)-induced monocytic differentiation. FMS did not significantly affect myeloid differentiation induced by DMSO, which does not target steroid-thyroid hormone receptors like RA and D3. While differentiation is typically associated with hypophosphorylated RB in all these cases, the kinetics indicate that the FMS-induced changes in cell cycle and cell differentiation do not depend in a direct causal fashion on the interconversion between hyperphosphorylated and hypophosphorylated RB.
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PMID:FMS (CSF-1 receptor) prolongs cell cycle and promotes retinoic acid-induced hypophosphorylation of retinoblastoma protein, G1 arrest, and cell differentiation. 894 Feb 55

The authors studied the familial occurrence of fibromyalgia (FMS) to determine a possible role of genetic and familial factors in this syndrome. Fifty-eight offspring aged 5 to 46 years (35 males and 23 females) from 20 complete nuclear families ascertained through affected mothers with FMS were clinically evaluated for FMS according to the ACR 1990 diagnostic criteria. FMS symptoms, quality of life, physical functioning, and dolorimetry thresholds were assessed in all subjects. Sixteen offspring (28%) were found to have FMS. The M/F ratio among the affected was 0.8 compared with 1.5 in the whole study group. Offspring with and without FMS did not differ on anxiety, depression, global well-being, quality of life, and physical functioning. A high prevalence of FMS was observed among offspring of FMS mothers. Because psychological and familial factors were not different in children with and without FMS, the high familial occurrence of this syndrome may be attributable to genetic factors.
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PMID:Familial aggregation in the fibromyalgia syndrome. 898 5


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