Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The migration of Langerhans cells is an initial event in the sensitization phase of contact sensitivity. Langerhans cells travel from the epidermis to the regional lymph node, and can be variously modulated in the skin where many cytokines are released from epidermal cells, dermal cells, T helper (Th) cells, and other inflammatory cells during the sensitization and elicitation phase of contact dermatitis, and thus induce an altered inflammatory skin reaction. The modulatory effect of the cytokines released in the skin, such as IL-1beta, GM-CSF, and TNF-alpha as epidermal cytokines, IL-2, IL-12, and IFN-gamma as Th1 type cytokines, and IL-4 and IL-10 as Th2 type cytokines, was analyzed using the chemotactic chamber method in this study. Both GM-CSF and TNF-alpha induced the migration of human Langerhans cells in vitro, whereas IL-1beta, IL-2, IL-10, IL-12, and IFN-gamma had no effect on Langerhans cell migration. In contrast, IL-4 inhibited Langerhans cell migration in a dose dependent manner. The inhibitory activity of IL-4 was reversed by both anti-human IL-4 monoclonal antibody and anti-human IL-4 receptor monoclonal antibody. IL-4 inhibited the Langerhans cell migration induced by both TNF-alpha and GM-CSF. Furthermore, anti-TNF-RII monoclonal antibody inhibited both random migration and the migration induced by TNF-alpha, but not that induced by GM-CSF. A reverse-transcriptase-polymerase chain reaction and fluorescence-activated cell sorter analysis revealed that TNF-alpha up-regulated and IL-4 downregulated the TNF receptor II (TNF-RII) expression of Langerhans cells at both the mRNA and the protein levels. The pretreatment of Langerhans cells with TNF-alpha enhanced the migration of Langerhans cells and the expression of TNF-RII. After pretreating Langerhans cells with TNF-alpha, IL-4 inhibited both the migration of Langerhans cells and the expression of TNF-RII in a time dependent manner. These results indicate that IL-4 inhibits the migratory activity of Langerhans cells by downregulating the expression of TNF-RII in human Langerhans cells and thereby modulates the immune response in the skin.
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PMID:IL-4 inhibits the migration of human Langerhans cells through the downregulation of TNF receptor II expression. 1050 38

Substance P (SP) is an immunoregulatory tachykinin which augments antigen- and mitogen-induced lymphocyte proliferation via signaling through the neurokinin-1 receptor (NK1-R). Non-neuronal cells of the immune system such as monocytes, T lymphocytes and eosinophils can be a source of SP. We have investigated if antigen-presenting dendritic cells (DC) produce SP. DC were grown from bone marrow precursors using a cocktail of GM-CSF, IL-4 and Flt-3 ligand. Reverse transcriptase-PCR amplification using primers for the mouse preprotachykinin-A gene and direct DNA sequencing of amplified products from purified DC demonstrated the presence of the gamma-transcript of the gene, coding for SP and neurokinin A. At the protein level, mouse DC expressed SP as determined by an enzyme immunoassay and confirmed by immunostaining. The functional role of endogenous SP release was determined. During the interaction with syngeneic or allogeneic DC, the addition of a specific NK1-R antagonist partly reduced proliferation in responding T lymphocytes. This was confirmed by using responders derived from NK1-R-deficient mice. In the absence of DC, proliferation of T cells induced by direct TCR ligation and soluble CD28 was partly dependent on signaling through NK1-R, revealing an autocrine effect of SP production by T cells. In conclusion, these results demonstrate that endogenously produced SP contributes to T cell proliferation induced by DC or TCR / CD28 stimulation.
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PMID:Endogenously produced substance P contributes to lymphocyte proliferation induced by dendritic cells and direct TCR ligation. 1060 89

Increasing evidence suggests that paraneoplastic syndrome may be mediated by tumor-related cytokine release, although the specific factors involved remain to be clearly defined. The cancer cells used in the present study were obtained from a 67-year-old man with metastatic renal cell carcinoma in the subcutaneous space who demonstrated marked leukocytosis (37,800/mm3). The primary tumor of the kidney was pathologically diagnosed as renal cell carcinoma consistent with the sarcomatoid type. On microscopic observation, the cultured cells exhibited an epithelial appearance with vacuole formation in their cytoplasm. Ultrastructural observations revealed relatively marked microvilli and a tight junction. Significant amounts of GM-CSF, G-CSF, IL-6, and IL-8 concentrations in the culture media were identified by an enzyme-linked immunosorbent assay. Reverse transcriptase polymerase chain reaction (RT-PCR) significantly exhibited marker protein m-RNA expression in cancer cells. In addition, GM-CSF receptor and IL-6 receptor mRNA expression was also demonstrated by RT-PCR. The administration of both IL-6 and GM-CSF induced cell-proliferation activities estimated by both [3H]-thymidine and bromodeoxyuridine labeling. Anti-IL-6 antibody and anti-GM-CSF antibody neutralized the enhanced proliferative activities generated by these cytokines. Our findings indicate that the established renal cancer cell line can be demonstrated by both the production of multiple cytokines and by their promotion of autocrine growth. These cells are thus considered to be useful as an effective model for multipotent differentiated renal cell carcinoma, as well as for studying the mechanisms of action of autocrine growth.
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PMID:Autocrine growth promotion by multiple hematopoietic growth factors in the established renal cell carcinoma line KU-19-20. 1099 81

Previous studies have demonstrated that the c-kit encoded tyrosine kinase receptor and its ligand, steel factor (SLF), are critical for normal blood cell development. We have reported that transduction of the c-kit gene into single hematopoietic progenitor cells (HPC), CD34(+++) cells, from cord blood (CB) enhances erythroid colony formation via a SLF-dependent mechanism. We therefore decided to evaluate the impact on cell proliferation of co-transducing c-kit and SLF cDNAs into these cells. CD34(+++) cells were sorted as a population or as 1 cell/well for cells expressing the highest levels of CD34 and different levels of c-kit. Cells were then prestimulated with granulocyte macrophage (GM)-colony stimulating factor (CSF), interleukin (IL)-3, IL-6, erythropoietin (Epo) in the presence and absence of various concentrations of SLF. Cells were then transduced with SLF and/or c-kit cDNAs, and then assayed for colony formation with the same cytokine combination. At a single cell level, co-transduction with c-kit and SLF genes significantly enhanced colony formation compared with individual gene transduction, especially by erythroid and multipotential progenitors that responded to stimulation by added cytokines. Little or no growth was seen with the c-kit- and/or SLF-transduced cells without addition of cytokines. The degree of enhancement effected by co-transduction inversely correlated with the degree of expression of c-kit protein before transduction. Optimal enhancing effects were noted in CD34(+++) kit(Lo/-) cells co-transduced with both c-kit and SLF cDNAs. Reverse transcriptase-polymerase chain (RT-PCR) analysis of SLF mRNA expression in CD34(+++) cells and enzyme-linked immunoadsorbent assay (ELISA) measurement of secreted SLF protein demonstrated that the transduced SLF cDNA was expressed and soluble SLF was released in medium cultured with SLF gene transduced MACS-separated CD34(+) cells in the presence, but not in the absence, of IL-3, GM-CSF, IL-6, and Epo. These results demonstrate the enhancement of the proliferation of growth factor responsive HPC that express transduced c-kit and SLF genes.
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PMID:Co-transduction of cDNAs for c-kit and steel factor into single CD34+ cord blood cells further enhances the growth of erythroid and multipotential progenitors. 1117 93

Several reverse-transcriptase polymerase chain reaction (rtPCR) assays have been designed for the detection of disseminated cancer cells. The specificity of these discussed molecular approaches is controversial. Biological interference of the cytokeratin-20 and mammaglobin rtPCR assays has been investigated. Cell lines of different lineages and bone marrow and peripheral stem cells from patients without epithelial cancer have been examined for the transcription of the cytokeratin-20 (CK20) and mammaglobin messages prior to and after stimulation with different cytokines in a total of 370 liquid cultures. Amplification of both messages from clinical samples prior to stimulation does not support the high specificity for the detection of disseminated epithelial cancer cells as reported. Cytokeratin-20 was amplified from the chronic myeloic leukemia (CML)-derived line K562. Transcription was not influenced by cytokines, either in cell-line experiments or in clinical samples. The thesis of a low-level background transcription in granulocytes is supported. Mammaglobin was induced in cell lines significantly by GM-CSF and in clinical samples additionally by several more cytokines. These results indicate that under certain conditions involving cytokine production, the use of mammaglobin rtPCR for the detection of epithelial cancer cells could be limited. In conclusion, the mechanism of interference of both rtPCR assays are completely different and further research is necessary before the cytokeratin-20 or mammaglobin rtPCR could become standard methods for the detection of disseminated epithelial cancer cells. These factors leading to so-called false-positive results have to be considered in future applications of rtPCR for the detection of minimal residual disease.
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PMID:Interference of cytokeratin-20 and mammaglobin-reverse-transcriptase polymerase chain assays designed for the detection of disseminated cancer cells. 1177 68

Antigen-presenting dendritic cells (DCs), which play a major role in the triggering of primary anti viral immune reactions, may also contribute, in some viral models, to the pathogenesis of persistent viral infection. In fact, impaired immune response to hepatitis B virus (HBV)-encoded antigens is seen in patients with chronic hepatitis B (CH-B). The aim of this study was to check the function of DCs in these patients and to investigate the underlying mechanism. DCs were enriched from peripheral blood mononuclear cells by culturing with interleukin (IL)-4 and granulocyte-macrophage colony stimulating factor for 7 days. The stimulatory capacity of DCs were checked in allogenic mixed leukocyte (MLR) reaction. The levels of IL-12 in the culture supernatants were measured by an enzyme-linked immunosorbent assay. HBV DNA and HBV RNA were localized in DCs by polymerase chain reaction (PCR) in situ hybridization and reverse-transcriptase (RT)-PCR in situ hybridization. The stimulatory capacity of DCs in allogenic MLR was significantly lower in patients with CH-B (36321+/-12523 cpm, n=18) compared to that of normal controls (65678+/-11174 cpm, n=18) (p<0.0001). Significantly lower levels of IL-12 were detected in cultures containing DCs from patients with CH-B than normal controls (46.7+/-25.6 versus 122.4+/- 37.1 pg/ml, p<0.0001). In situ hybridization revealed the localization of HBV DNA and HBV RNA in DCs from patients with CH-B. These results indicate that chronic infection by HBV is associated with functional defects of DCs. Localization of HBV DNA and HBV RNA indicates that DCs may constitute an extra hepatic reservoir and possibly of replication of HBV.
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PMID:Impaired function of antigen-presenting dendritic cells in patients with chronic hepatitis B: localization of HBV DNA and HBV RNA in blood DC by in situ hybridization. 1252 72

In this work, we have investigated the immune response in pigs to two recombinant plasmids containing immunodominant neutralizing antibody epitopes of foot-and-mouth disease virus structural protein (VP1) coexpressed with viral non-structural proteins as a source of T cell epitopes. The plasmid pcDNA3.1/3D15 contained a sequence coding for the 3D polymerase upstream of a sequence coding for peptide FMDV15, a peptide derived from VP1, previously shown to stimulate protective immunity to foot-and-mouth disease virus (FMDV), that consisted of the carboxy terminal peptide [VP1(200-213)] linked by ProProSer to the "loop" peptide [VP1(143-160)] and terminating in CysGly. The plasmid, pcDNA3.1/2B15 contained a sequence coding for the non-structural protein 2B, and the same FMDV15 peptide sequence. Pigs injected with both constructs showed antibody and T cell responses to 3D and 2B, but not to the FMDV15 peptide. Additionally, delayed type hypersensitivity responses were observed in some cases to both 3D or 2B and to FMDV virus. Finally, no protection was seen against FMDV infection in animals immunized with either of the two FMDV DNA constructs. The additional co-immunization of plasmids encoding for GMCSF did not result in any significant change in the immune responses to the plasmids encoding for FMDV. This work gives some optimism for the construction of a DNA vaccine for FMDV in the future.
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PMID:Immunogenicity of plasmids encoding T and B cell epitopes of foot-and-mouth disease virus (FMDV) in swine. 1450 8

To investigate the molecular effects of the periodontopathogens Fusobacterium nucleatum (FN) and Porphyromonas gingivalis (PG) on the oral epithelium, the H400 oral epithelial cell line was cultured in the presence of non-viable bacteria. Following confirmation of the presence of transcripts for the bacterial pattern recognition receptors in H400 cells, Toll-like receptors -2, -4 and -9, and components of the NF-kappaB signalling pathway, immunocytochemical analyses were performed showing that NF-kappaB was activated within 1 h of exposure to both periodontopathogens. A significantly greater number of NF-kappaB nuclear translocations were apparent following H400 cell exposure to FN as compared with PG. Gene expression analyses indicated that transcripts known to be regulated by the NF-kappaB pathway, including cytokines/chemokines TNF-alpha, IL-1beta, IL-8, MCP-1/CCL2 and GM-CSF, were up-regulated following 4 and 24 h of exposure to both periodontopathogens. In addition, H400 periodontopathogen exposure resulted in differential regulation of transcripts for several cytokeratin gene family members. Consistent with the immunocytochemical data, microarray results indicated that FN induced a greater number of gene expression changes than PG following 24 h of exposure, 609 and 409 genes, respectively. Ninety-one genes were commonly differentially expressed by both periodontopathogens and represented biological processes commonly associated with periodontitis. Gene expression analyses by reserve transcriptase-polymerase chain reaction (RT-PCR) of molecules identified from the microarray data sets, including Heme oxygenase-1, lysyl oxidase, SOD2, CCL20 and calprotectin components, confirmed their differential expression profiles induced by the two periodontopathogens. FN and PG have clearly different molecular effects on oral epithelial cells, potentially highlighting the importance of the composition of the plaque biofilm in periodontitis pathogenesis.
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PMID:Differential activation of NF-kappaB and gene expression in oral epithelial cells by periodontal pathogens. 1735 48

Multipotent mesenchymal stromal cells (MSCs) from the human olfactory mucosa (OM) are cells that have been proposed as a niche for neural progenitors. OM-MSCs share phenotypic and functional properties with bone marrow (BM) MSCs, which constitute fundamental components of the hematopoietic niche. In this work, we investigated whether human OM-MSCs may promote the survival, proliferation, and differentiation of human hematopoietic stem cells (HSCs). For this purpose, human bone marrow cells (BMCs) were co-cultured with OM-MSCs in the absence of exogenous cytokines. At different intervals, nonadherent cells (NACs) were harvested from BMC/OM-MSC co-cultures, and examined for the expression of blood cell markers by flow cytometry. OM-MSCs supported the survival (cell viability >90%) and proliferation of BMCs, after 54 days of co-culture. At 20 days of co-culture, flow cytometric and microscopic analyses showed a high percentage (73%) of cells expressing the pan-leukocyte marker CD45, and the presence of cells of myeloid origin, including polymorphonuclear leukocytes, monocytes, basophils, eosinophils, erythroid cells, and megakaryocytes. Likewise, T (CD3), B (CD19), and NK (CD56/CD16) cells were detected in the NAC fraction. Colony-forming unit-granulocyte/macrophage (CFU-GM) progenitors and CD34(+) cells were found, at 43 days of co-culture. Reverse transcriptase-polymerase chain reaction (RT-PCR) studies showed that OM-MSCs constitutively express early and late-acting hematopoietic cytokines (i.e., stem cell factor [SCF] and granulocyte- macrophage colony-stimulating factor [GM-CSF]). These results constitute the first evidence that OM-MSCs may provide an in vitro microenvironment for HSCs. The capacity of OM-MSCs to support the survival and differentiation of HSCs may be related with the capacity of OM-MSCs to produce hematopoietic cytokines.
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PMID:Human olfactory mucosa multipotent mesenchymal stromal cells promote survival, proliferation, and differentiation of human hematopoietic cells. 2247 39


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