Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05231 (interleukin-6)
 23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bone marrow microvascular endothelial cells (BMEC) are a functional component of the bone marrow stroma and have been shown to release hematopoietic regulatory factors as well as to selectively adhere and support the proliferation and differentiation of CD34+ hematopoietic progenitors. An early passage of these cells was immortalized by transfection with a vector (pSVT) encoding the large T antigen of SV40. The transformed cell line (CDC/CU.BMEC-1) expresses the SV40 transcript, retains the primary cell expression of Ulex europeaus and vWF/ FVIII, and incorporates acetylated low-density lipoprotein. In addition, BMEC-1 mirrors the phenotype of the primary cells with only a few exceptions. Both cell populations express the cellular adhesion molecules ICAM-1 and PECAM and also VCAM-1 and ELAM-1 after upregulation by tumor necrosis factor-alpha. The fibronectin receptor, hyaluronate receptor, collagen receptor, integrins VLA-alpha 3, VLA-alpha 4, and beta 4, endoglin, collagen IV, CD58, and CD61 are also expressed. The only differences are that BMEC-1 expresses higher levels of ICAM-1, CD58, CD34, CD36, and c-kit than the primary cells. The supernatants of primary cell and BMEC-1 contain stem cell factor, interleukin-6 (IL-6), granulocyte-macrophage colony-stimulating factor (GM-CSF), IL-1 alpha, IL-11, and G-CSF. The functional significance of these hematopoietic cytokines was demonstrated in transwell cultures. Both cell populations supported the expansion of progeny from CD34+ cell-enriched cord blood mononuclear cells suspended in the upper chamber. These characteristics, plus the fact that BMEC-1 can be maintained independently of exogenous growth factors and exhibit contact inhibition, indicate that this cell line can be used to further define the role of BMEC in hematopoiesis.
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PMID:BMEC-1: a human bone marrow microvascular endothelial cell line with primary cell characteristics. 895 64

New insights into the molecular biology of both multiple myeloma and chronic lymphocytic leukemia can potentially lead to new treatment modalities. For myeloma, its lack of CD34 expression can lead to a functional but less contaminated autograft for stem cell transplantation. Single or even double transplants are being used to treat high-risk or even relapsed disease. Cytokines, such as interleukin-6, appear to play a role in tumor growth and bony complications as well. The bisphosphonate drugs are now known to decrease skeletal complications. For chronic lymphocytic leukemia, the nucleoside analogues have produced impressive response rates in many patients. Cell surface markers and cytogenetic abnormalities continue to identify patients with poor prognoses. Myeloablative therapy remains controversial for this disease.
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PMID:Multiple myeloma and chronic lymphocytic leukemia. 937 8

In an effort to expand human hematopoietic progenitors and stem cells in vitro, we cultured human CD34(+)c-kitlow bone marrow cells in suspension in the presence of KIT ligand, FLK2/FLT3 ligand, interleukin-6 (IL-6), and erythropoietin with or without IL-3 and tested their engrafting capabilities by injecting them into sheep fetuses. As markers for engraftment, we analyzed CD45(+) cells and karyotypes of the colonies grown in methylcellulose culture. In three separate experiments, day-60 engraftment in the bone marrow was seen with both fresh cells and cells cultured in the presence or absence of IL-3. When fetuses were allowed to be born and analyzed for CD45(+) cells, no long-term engraftment was seen with cultured cells. We then pooled the CD45(+) cells of the fetal samples and transplanted them into secondary recipient fetuses. Day-60 engraftment in the secondary recipients was again noted when transplantation in the primary recipients was initiated with fresh cells. There were 3 cases in which cultured cells showed signs of engraftment in the secondary recipients, but the remaining 24 cases showed no signs of engraftment. These data documented that suspension culture for 2 weeks of enriched adult human bone marrow cells can maintain short-term (2 months) engrafting cells, but may not maintain longer term engrafting cells. This sheep/human xenograft model may serve as an excellent method for the evaluation of the engraftment potential of in vitro-expanded cells.
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PMID:Engraftment of cultured human hematopoietic cells in sheep. 957 5

Cytokines produced by stromal cells induce the proliferation and differentiation of hematopoietic cells in the marrow microenvironment. We hypothesized that cross-talk between hematopoietic cells at different stages of differentiation and stromal cells influences stromal cytokine production and is responsible for maintaining steady-state hematopoiesis and responding to stress situations. We show that coculture of primitive CD34(+) cells in contact with or separated by a transwell membrane from irradiated human bone marrow stromal layers induces a fourfold to fivefold increase in interleukin-6 (IL-6) and granulocyte colony-stimulating factor (G-CSF) levels in the stromal supernatant (SN) during the first week. Levels of both cytokines decreased to baseline after coculture of CD34(+) cells for 3 to 5 weeks. Coculture of more mature CD15(+)/CD14(-) myeloid precursors induced only a transient 1.5- to 2-fold increase in IL-6 and G-CSF at 48 hours. Neither CD34(+) nor CD15(+)/CD14(-) cells produced IL-6, G-CSF, IL-1beta, or tumor necrosis factor alpha. When CD34(+) cells were cultured in methylcellulose medium supplemented with cytokines at concentrations found in stromal SN or supplemented with stromal SN, a fourfold to fivefold increase in colony formation was seen over cultures supplemented with erythropoietin (EPO) only. When cultures were supplemented with the increased concentrations of IL-6 and G-CSF detected in cocultures of stroma and CD34(+) cells or when CD34(+) cells were cocultured in methylcellulose medium in a transwell above a stromal layer, a further increase in the number and size of colonies was seen. The colony-forming unit-granulocyte-macrophage-stimulating activity of stromal SN was neutralized by antibodies against G-CSF or IL-6. These studies indicate that primitive CD34(+) progenitors provide a soluble positive feedback signal to induce cytokine production by stromal cells and that the observed increase in cytokine levels is biologically relevant.
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PMID:Human CD34(+) bone marrow cells regulate stromal production of interleukin-6 and granulocyte colony-stimulating factor and increase the colony-stimulating activity of stroma. 957 9

We have used a competitive repopulation assay in baboons to develop improved methods for hematopoietic stem cell transduction and have previously shown increased gene transfer into baboon marrow repopulating cells using a gibbon ape leukemia virus (GALV)-pseudotype retroviral vector (Kiem et al, Blood 90:4638, 1997). In this study using GALV-pseudotype vectors, we examined additional variables that have been reported to increase gene transfer into hematopoietic progenitor cells in culture for their ability to increase gene transfer into baboon hematopoietic repopulating cells. Baboon marrow was harvested after in vivo administration (priming) of stem cell factor (SCF) and granulocyte colony-stimulating factor (G-CSF). CD34-enriched marrow cells were divided into two equal fractions to directly compare transduction efficiencies under different gene transfer conditions. Transduction by either incubation with retroviral vectors on CH-296-coated flasks or by cocultivation on vector-producing cells was studied in five animals; in one animal, transduction on CH-296 was compared with transduction on bovine serum albumin (BSA)-coated flasks. The highest level of gene transfer was obtained after 24 hours of prestimulation followed by 48 hours of incubation on CH-296 in vector-containing medium in the presence of multiple hematopoietic growth factors (interleukin-6, stem cell factor, FLT-3 ligand, and megakaryocyte growth and development factor). Using these conditions, up to 20% of peripheral blood and marrow cells contained vector sequences for more than 20 weeks, as determined by both polymerase chain reaction and Southern blot analysis. Gene transfer rates were higher for cells transduced on CH-296 as compared with BSA or cocultivation. In one animal, we have used a vector expressing a cell surface protein (human placental alkaline phosphatase) and have detected 10% and 5% of peripheral blood cells expressing the transduced gene 2 and 4 weeks after transplantation as measured by flow cytometry. In conclusion, the conditions described here have resulted in gene transfer rates that will allow detection of transduced cells by flow cytometry to facilitate the evaluation of gene expression. The levels of gene transfer obtained with these conditions suggest the potential for therapeutic efficacy in diseases affecting the hematopoietic system.
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PMID:Improved gene transfer into baboon marrow repopulating cells using recombinant human fibronectin fragment CH-296 in combination with interleukin-6, stem cell factor, FLT-3 ligand, and megakaryocyte growth and development factor. 973 Oct 44

We report here on a novel stromal cell line, AGM-S3, derived from the aorta-gonad-mesonephros (AGM) region of a 10.5 days postcoitum (dpc) mouse embryo. The AGM-S3 cells promoted production of hematopoietic progenitors and day-12 spleen colony-forming cells from Lin-c-Kit+Sca-1(+) murine primitive hematopoietic cells. They also supported for 6 weeks generation of human multipotential progenitors from cord blood CD34(+)CD38(-) primitive hematopoietic cells. Human long-term repopulating hematopoietic stem cells (LTR-HSC) with the potential to reconstitute hematopoiesis in NOD/SCID mice were maintained on AGM-S3 cells for at least 4 weeks. Flow cytometric analysis showed that CD13, vascular cellular adhesion molecule-1, and Sca-1 were expressed on AGM-S3 cells. Because stem cell factor, interleukin-6 (IL-6), and oncostatin M, but not IL-3, IL-11, leukemia- inhibitory factor, granulocyte colony-stimulating factor, granulocyte-macrophage colony-stimulating factor, thrombopoietin, and Flk2 ligand were detected in reverse transcription-polymerase chain reaction analysis of AGM-S3 cells, the cells seem to express species-cross reactive molecule(s) other than the cytokines examined and which act on primitive hematopoietic progenitor/stem cells. This cell line is expected to elucidate molecular mechanisms regulating early hematopoiesis and pave the way for developing strategies for expansion of human transplantable HSC.
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PMID:Stimulation of mouse and human primitive hematopoiesis by murine embryonic aorta-gonad-mesonephros-derived stromal cell lines. 973 Oct 61

KleinJan et al. (Allergy 1996;51:614-20) reported that Carnoy's fixative reduced the number of chymase-positive mast cells in the nasal mucosa. Therefore, in the present study, we investigated whether Carnoy's fixative reduces the number of chymase-positive cells from cord-blood-derived human cultured mast cells when compared with other types of fixatives. Human mast cells were obtained by culturing cord-blood-derived CD34-positive cells in the presence of stem cell factor and interleukin-6. Staining procedures of the cells in fixation with Carnoy's fixative and with other fixatives gave no differences among the number of tryptase-positive cells, whereas fixation with Carnoy's fixative for 15 min gave a significant decrease in the number of chymase-positive cells compared with acetone for 10 min. The number of chymase-positive cells decreased in a time-dependent manner under fixation with Carnoy's fixative, indicating that Carnoy's fixative had a negative effect on the number of chymase-positive cells from cord-blood-derived human cultured mast cells.
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PMID:Carnoy's fixative reduces the number of chymase-positive cells in immunocytochemical staining of cord-blood-derived human cultured mast cells. 982 79

There is a need to determine whether culture conditions may exist for ex vivo expansion of hematopoeitic stem cells (HSC), which favor solely proliferative self-renewal of HSC as opposed to proliferation with differentiation. Using single cells, we studied the effects of individual and combinations of cytokines in serum-free medium on the kinetics of the first cell doubling and the resulting phenotype of each of individual daughter cell. CD34(+)Thy-1(+)lin- cells were plated 1 cell per well in Terasaki plates in serum-free medium containing cytokines. Each well containing a single cell was monitored daily over 7 days for maintenance, division, or death. When division occurred in an individual well, the phenotype of the daughter cells was determined by staining with anti-CD34 fluorescein isothiocyanate (FITC)- and phycoerythrin (PE)-conjugated lineage specific antibodies. The cumulative percent of wells with an undivided single cell, wells in which the cell had divided, and wells in which the cell had died were scored. The number of doublets with conserved phenotype (CD34(+)lin-) was compared to those wells with one or more differentiated daughter cells (CD34(+)lin+). Over 7 days, cells cultured in single factors showed that between 13% (interleukin-6 [IL-6]) and 29% (thrombopoietin [TPO]) of the cells were undivided, between 13% (IL-1) and 35% (TPO) of the cells doubled, and between 35% (TPO) and greater than 60% (IL-11, IL-1, or hepatocyte growth factor [HGF]) died. When combinations of cytokines were used over 7 days, between 5% (FLT-3 ligand [FLT-3L], stem cell factor [SCF], IL-3, IL-6, granulocyte colony-stimulating factor [G-CSF], beta nerve growth factor [betaNGF]) and 22% (FLT-3L + HGF) of the cells remained undivided, between 15% (HGF, IL-1, IL-11, G-CSF) and 68% (SCF + TPO) of the cells had doubled and between 27% (FLT-3L + TPO) and 70% (HGF, IL-1, IL-11, G-CSF) died. The combination of FLT-3L + TPO induced the highest total percent (64. 6%) of cells with conserved phenotype (percent conserved doublets + percent with 1 cell conserved), followed by SCF + TPO, (50%) and the combination of FLT-3L, SCF, IL-3, IL-6, G-CSF, betaNGF (53%). These combinations also produced the highest yield of cells with conserved phenotype after one division (FLT-3L + TPO - 81 cells/100 initial cells, SCF + TPO - 68 cells/100 initial cells) (P =.01). Observation of the time of the initial cell division and phenotype of the daughter cells allowed us to identify candidate combinations of cytokines that promote maintenance of lin- cells (TPO), or recruit the primitive cells to divide and undergo phenotypic self-renewal (FLT-3L + TPO, SCF + TPO).
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PMID:Influence of cytokines on the growth kinetics and immunophenotype of daughter cells resulting from the first division of single CD34(+)Thy-1(+)lin- cells. 983 15

The escape of malignant cells from the immune response against the tumor may result from a defective differentiation or function of professional antigen-presenting cells (APC), ie, dendritic cells (DC). To test this hypothesis, the effect of human renal cell carcinoma cell lines (RCC) on the development of DC from CD34(+) progenitors was investigated in vitro. RCC cell lines were found to release soluble factors that inhibit the differentiation of CD34(+) cells into DC and trigger their commitment towards monocytic cells (CD14(+)CD64(+)CD1a-CD86(-)CD80(-)HLA-D Rlow) with a potent phagocytic capacity but lacking APC function. RCC CM were found to act on the two distinct subpopulations emerging in the culture at day 6 ([CD14(+)CD1a-] and [CD14(-)CD1a+]) by inhibiting the differentiation into DC of [CD14(+)CD1a-] precursors and blocking the acquisition of APC function of the [CD14(-)CD1a+] derived DC. Interleukin-6 (IL-6) and macrophage colony-stimulating factor (M-CSF) were found to be responsible for this phenomenon: antibodies against IL-6 and M-CSF abrogated the inhibitory effects of RCC CM; and recombinant IL-6 and/or M-CSF inhibited the differentiation of DC similarly to RCC CM. The inhibition of DC differentiation by RCC CM was preceeded by an induction of M-CSF receptor (M-CSFR; CD115) and a loss of granulocyte-macrophage colony-stimulating factor receptor (GM-CSFR; CD116) expression at the surface of CD34(+) cells, two phenomenon reversed by anti-IL-6/IL-6R and anti-M-CSF antibodies, respectively. Finally, a panel of tumor cell lines producing IL-6 and M-CSF induced similar effects. Taken together, the results suggest that the inhibition of DC development could represent a frequent mechanism by which tumor cells will escape immune recognition.
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PMID:Inhibition of the differentiation of dendritic cells from CD34(+) progenitors by tumor cells: role of interleukin-6 and macrophage colony-stimulating factor. 984 45

We have recently shown that stimulation of glycoprotein (gp) 130, the membrane-anchored signal transducing receptor component of IL-6, by a complex of human soluble interleukin-6 receptor (sIL-6R) and IL-6 (sIL-6R/IL-6), potently stimulates the ex vivo expansion as well as erythropoiesis of human stem/progenitor cells in the presence of stem cell factor (SCF). Here we show that sIL-6R dose-dependently enhanced the generation of megakaryocytes (Mks) (IIbIIIa-positive cells) from human CD34(+) cells in serum-free suspension culture supplemented with IL-6 and SCF. The sIL-6R/IL-6 complex also synergistically acted with IL-3 and thrombopoietin (TPO) on the generation of Mks from CD34(+) cells, whereas the synergy of IL-6 alone with TPO was barely detectable. Accordingly, the addition of sIL-6R to the combination of SCF + IL-6 also supported a substantial number of Mk colonies from CD34(+) cells in serum-free methylcellulose culture, whereas SCF + IL-6 in the absence of sIL-6R rarely induced Mk colonies. The addition of monoclonal antibodies against gp130 to the suspension and clonal cultures completely abrogated the megakaryopoiesis induced by sIL-6R/IL-6 in the presence of SCF, whereas an anti-TPO antibody did not, indicating that the observed megakaryopoiesis by sIL-6R/IL-6 is a response to gp130 signaling and independent of TPO. Furthermore, human CD34(+) cells were subfractionated into two populations of IL-6R-negative (CD34(+) IL-6R-) and IL-6R-positive (CD34(+) IL-6R+) cells by fluorescence-activated cell sorting. The CD34(+) IL-6R- cells produced a number of Mks as well as Mk colonies in cultures supplemented with sIL-6R/IL-6 or TPO in the presence of SCF. In contrast, CD34(+) IL-6R+ cells generated much less Mks and lacked Mk colony forming activity under the same conditions. Collectively, the present results indicate that most of the human Mk progenitors do not express IL-6R, and that sIL-6R confers the responsiveness of human Mk progenitors to IL-6. Together with the presence of functional sIL-6R in human serum and relative unresponsiveness of human Mk progenitors to IL-6 in vitro, current results suggest that the role of IL-6 may be mainly mediated by sIL-6R, and that the gp130 signaling initiated by the sIL-6R/ IL-6 complex is involved in human megakaryopoiesis in vivo.
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PMID:Soluble interleukin-6 (IL-6) receptor with IL-6 stimulates megakaryopoiesis from human CD34(+) cells through glycoprotein (gp)130 signaling. 1019 31


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