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

Bone destruction is a hallmark of myeloma, with 70% to 80% of patients manifesting bone involvement. Destruction is mediated through normal osteoclasts (OCLs), which respond to local osteoclast-activating factors (OAFs) produced by myeloma cells or by other cells in the local microenvironment. OAFs implicated in myeloma bone disease include tumor necrosis factor-beta (TNFbeta), RANK ligand (RANKL), interleukin-1 (IL-1), parathyroid hormone-related protein (PTHrP), hepatocyte growth factor (HGH), interleukin-6 (IL-6), tumor necrosis factor-alpha (TNFalpha), and macrophage inflammatory protein-1-alpha (MIP-1alpha). To date, the leading candidates for OAFs are MIP-1alpha and RANKL. Adhesive interactions between marrow stromal cells and myeloma cells induce marrow stromal cells to secrete IL-6, a potent myeloma growth/survival factor that may contribute to the bone disease. Evaluation of myeloma bone disease includes plain radiographs, and newer methods, such as magnetic resonance imaging (MRI), positron emission tomography (PET) scans, technetium-99m-sestamibi (Mibi) scanning, and dual-energy x-ray absorptiometry (DEXA) scanning, may provide more complete information. In addition, biochemical markers of bone resorption are being evaluated, although the limited availability of these assays and lack of extensive testing in patients make their routine use premature. Treatment of myeloma bone disease includes radiation therapy, vertebroplasty, surgery, and bisphosphonates. New developments on the pathogenesis and treatment of myeloma bone disease present great opportunities to combat bone disease.
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PMID:Myeloma bone disease. 1148 16

In this study we demonstrate that tumor necrosis factor alpha (TNFalpha) triggers only modest proliferation, as well as p44/p42 mitogen-activated protein kinase (MAPK) and NF-kappaB activation, in MM.1S multiple myeloma (MM) cells. TNFalpha also activates NF-kappaB and markedly upregulates (fivefold) secretion of interleukin-6 (IL-6), a myeloma growth and survival factor, in bone marrow stromal cells (BMSCs). TNFalpha in both a dose and time dependent fashion induced expression of CD11a (LFA-1), CD54 (intercellular adhesion molecule-1, ICAM-1), CD106 (vascular cell adhesion molecule-1, VCAM-1), CD49d (very late activating antigen-4, VLA-4), and/or MUC-1 on MM cell lines; as well as CD106 (VCAM-1) and CD54 (ICAM-1) expression on BMSCs. This resulted in increased (2-4-fold) per cent specific binding of MM cells to BMSCs, with related IL-6 secretion. Importantly, the proteasome inhibitor PS-341 abrogated TNFalpha-induced NF-kappaB activation, induction of ICAM-1 or VCAM-1, and increased adhesion of MM cells to BMSCs. Agents which act to inhibit TNFalpha may therefore abrogate the paracrine growth and survival advantage conferred by MM cell adhesion in the BM microenvironment.
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PMID:The role of tumor necrosis factor alpha in the pathophysiology of human multiple myeloma: therapeutic applications. 1149 47

Recent advances in our understanding of the molecular regulation of myeloma cells suggest novel strategies for treating multiple myeloma. Some myeloma cells express a 69 kD variant of Ku86, a heterodimer subunit that is essential for double-stranded DNA break repair. Presence of the variant impairs DNA repair; therefore normal Ku86 in myeloma cells confers resistance to therapy and may represent a therapeutic target. The upregulation of NF-kappaB-dependent interleukin-6 (IL-6) transcription and secretion that occurs following adhesion of myeloma cells to bone marrow stromal cells (BMSCs) may serve as a potential therapeutic target, as IL-6 is a growth and survival factor for myeloma cells. Accordingly, proteasome inhibitors inhibit activation of NF-kappaB and induce apoptosis of myeloma cells; they also inhibit the NF-kappaB-dependent up-regulation of IL-6 in BMSCs and related paracrine growth of adherent tumor cells. Therapeutic strategies may also target the mitogen-activated protein kinase (MAPK) pathway that is thought to mediate the IL-6-induced proliferation of myeloma cells. Vascular endothelial growth factor (VEGF) is also upregulated by adhesion of myeloma cells to BMSCs and may serve as a growth and/or survival factor for myeloma cells; preliminary studies suggest that VEGF receptor inhibitors may block proliferation of tumor cells. Thalidomide was recently used successfully to treat myeloma in patients whose disease was refractory to conventional treatment. An enhanced understanding of the mechanisms of action of thalidomide may result in the development of analogues with enhanced potency and fewer side effects. The potential mechanisms of action of thalidomide are reviewed, including antiangiogenic effects; direct effects of thalidomide on the growth and survival of myeloma cells and BMSCs; modulation of adhesive interactions; and regulation of secretion and bioactivity of cytokines. Immune-based strategies for treating multiple myeloma are also reviewed. Therapeutic obstacles include excessive toxicity after allografting, contaminating tumor cells in autografts, and the persistence of minimal residual disease (MRD) after high-dose therapy followed by allogenic or autologous stem cell transplantation. Allografting can be performed safely in myeloma, donor lymphocyte infusions (DLI) may effectively treat relapsed myeloma post allografting; and use of CD4+ T cell-enriched DLI may reduce the risk of graft-versus-host disease. Treatment with autografting is frequently compromised by MRD in the autograft and in the patient post myeloablative therapy. Adenoviral purging prior to autotransplantation and in vivo and ex vivo stimulation of autoimmune cells are discussed as potential approaches to address these problems.
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PMID:Novel biologically based therapies for myeloma. 1150 80

Increased angiogenesis has recently been recognized in active multiple myeloma (MM). Since vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) are two key mediators of angiogenesis, we characterized the production of VEGF, b-FGF and interleukin-6 (IL-6) (a MM growth and survival factor) in MM cell lines and Epstein-Barr virus (EBV) transformed B cell lines from MM patients, patient MM cells, as well as bone marrow stromal cells (BMSCs) from normal healthy donors and MM patients. We detected secretion of VEGF, but no bFGF and IL-6, in MM cell lines (MM.1S, RPMI 8226 and U266); EBV transformed B cell lines from MM patients (IM-9, HS-Sultan and ARH77); MM cell lines resistant to doxorubicin (RPMI-DOX40), mitoxantrone (RPMI-MR20), melphalan (RPMI-LR5) and dexamethasone (MM.1R); and patient MM cells (MM1 and MM2). BMSCs from MM patients and normal donors secreted VEGF, b-FGF and IL-6. Importantly, when MM cells were adhered to BMSCs, there was a significant increase in VEGF (1.5- to 3.1-fold) and IL-6 (1.9- to 56-fold) secretion. In contrast, the bFGF decreased in co-cultures of BMSCs and MM cells. Paraformaldehyde fixation of BMSCs or MM cells prior to adhesion revealed that VEGF was produced both from BMSCs and MM cells, though it may come primarily from BMSCs in some cultures. IL-6 was produced exclusively in BMSCs, rather than MM cells. Moreover, when MM cells were placed in Transwell insert chambers to allow their juxtaposition to BMSCs without cell to cell contact, induction of VEGF and IL-6 secretion persisted, suggesting the importance of humoral factors. Addition of exogenous IL-6 (10 ng/ml) increased VEGF secretion by BMSCs. Conversely, VEGF (100 ng/ml) significantly increased IL-6 secretion by BMSCs. Moreover, anti-human VEGF (1 microg/ml) and anti-human IL-6 (10 microg/ml) neutralizing antibodies reduced IL-6 and VEGF secretion, respectively, in cultures of BMSCs alone and co-cultures of BMSCs and MM cells. Finally, thalidomide (100 microM) and its immunomodulatory analog IMiD1-CC4047 (1 microM) decreased the upregulation of IL-6 and VEGF secretion in cultures of BMSCs, MM cells and co-cultures of BMSCs with MM cells. These data demonstrate the importance of stromal-MM cell interactions in regulating VEGF and IL-6 secretion, and suggest additional mechanisms whereby thalidomide and IMiD1-CC4047 act against MM cells in the BM millieu.
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PMID:Adherence of multiple myeloma cells to bone marrow stromal cells upregulates vascular endothelial growth factor secretion: therapeutic applications. 1175 17

Ciliary neurotrophic factor prevents behavioural deficits and striatal degeneration in rat and primate models of Huntington's disease. Interleukin-6, another member of the cytokine family, and the chimeric molecule (IL6/IL6R) in which interleukin-6 and its soluble receptor are fused, have been shown to exert trophic action on various neuronal populations in the central nervous system. Therefore, we investigated the neuroprotective effect of these two molecules in the quinolinic acid model of Huntington's disease. LacZ-, interleukin-6- and IL6/IL6R-expressing lentiviral vectors were stereotaxically injected into the striatum of Wistar rats. Three weeks later the animals were lesioned through the intrastriatal injection of 180 nmol of quinolinic acid. The extent of the striatal damage was significantly diminished in the rats that had been treated with interleukin-6 or IL6/IL6R. The neuroprotective effect was, however, more pronounced with the IL6/IL6R chimera than with interleukin-6 as indicated by the volume of the lesions (38.6 +/- 10% in the IL6/IL6R group, 63.3 +/- 3.6% in the IL-6 group and 84.3 +/-2.9% in the control group). Quantitative analysis of striatal interneurons further demonstrated that the IL6/IL6R chimera is more neuroprotective than IL-6 on ChAT- and NADPH-d-immunoreactive neurons. These results suggest that the IL6/IL6R chimera is a potential treatment for Huntington's disease.
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PMID:Neuroprotective effect of interleukin-6 and IL6/IL6R chimera in the quinolinic acid rat model of Huntington's syndrome. 1186 Apr 69

Multiple myeloma (MM) is characterized by the accumulation of malignant plasma cells in the bone marrow caused primarily by failure of normal homeostatic mechanisms to prevent the expansion of postgerminal center plasma cells. We have examined the molecular mechanisms that promote the survival of MM cells and have identified a key role for myeloid cell factor-1 (Mcl-1), an antiapoptotic member of the Bcl-2 family. These experiments were initiated by the observation that MM cells were exquisitely sensitive to culture in the presence of actinomycin D: caspase activation occurred within 3 hours of treatment and cells were not protected by interleukin-6, the main MM cell growth and survival factor. Actinomycin D-induced apoptosis was blocked by proteasome inhibitors, suggesting that a labile protein was required for MM cell survival. Further analysis demonstrated that Mcl-1 was likely to be the labile factor governing MM cell survival. Mcl-1 protein levels decreased rapidly after culture in the presence of actinomycin D in concordance with effector caspase activation, but addition of proteasome inhibitors reversed the loss of Mcl-1 and maintained cell viability. The levels of other antiapoptotic proteins, including Bcl-2 and members of the inhibitors-of-apoptosis family, were unaffected by these interventions. Furthermore, Mcl-1 antisense oligonucleotides caused a rapid down-regulation of Mcl-1 protein levels and the coincident induction of apoptosis, whereas overexpression of Mcl-1 delayed actinomycin D-induced apoptosis with kinetics that correlated with expression levels of Mcl-1. These data indicate that Mcl-1 expression is required for the survival of MM cells and may represent an important target for future therapeutics.
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PMID:Myeloid cell factor-1 is a critical survival factor for multiple myeloma. 1187 56

We hypothesized that glutathione transferases could be induced and may participate to cellular defenses against the oxidative stress occurring during liver regeneration. Here, we evidenced that murine GSTA1 (mGSTA1), A4, Pi, and Mu are up-regulated during mouse liver regeneration, exhibiting a biphasic pattern of induction correlating early G(1) phase and G(1)/S transition of the cell cycle. Using confocal microscopy immunolocalization and subcellular fractionation, mGSTA4 was demonstrated in both mitochondria and cytosol and found preferentially increased in cytosol during liver regeneration. In addition, mGSTA4 was induced in vivo and in cultured hepatocytes by tumor necrosis factor alpha (TNFalpha), interleukin-6 (IL-6), and epidermal growth factor (EGF), factors that play crucial roles in hepatocyte survival and proliferation during liver regeneration. However, the mitogenic effect of EGF was not responsible for the induction of mGSTA4. In transient transfections, IL-6 and EGF, but not TNFalpha, transactivated the human GSTA4 (hGSTA4) promoter cloned upstream of the luciferase reporter gene suggesting that IL-6 and EGF up-regulated hGSTA4 at a transcriptional level, whereas TNFalpha could rather act at a post-transcriptional level. The inhibition of phosphoinositide 3-kinase, p38 MAPK, and MEK/ERK signaling pathways, using specific inhibitors, prevented EGF-dependent induction of mGSTA4 and transactivation of hGSTA4 promoter. Altogether, these data favor the conclusion that, in regenerating hepatocytes, several GST isoforms are induced and that cytokines TNFalpha and IL-6 and survival factor EGF positively regulate mGSTA4 via survival signaling pathways.
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PMID:Pro-inflammatory cytokines tumor necrosis factor alpha and interleukin-6 and survival factor epidermal growth factor positively regulate the murine GSTA4 enzyme in hepatocytes. 1188 96

Ciliary neurotrophic factor (CNTF) is a member of the gp130 family of cytokines. The functional receptor complex of CNTF is composed of the CNTF receptor alpha (CNTFR), gp130 and the leukemia inhibitory factor receptor (LIFR). Three regions on CNTF have been identified as binding sites for its receptors. The ligand-receptor interactions are mediated through the cytokine binding domains (CBDs) and/or the immunoglobulin-like domains of the receptors. However, in the case of CNTF, the precise nature of the protein-protein contacts in the signaling complex has not yet been resolved. In this study, we provide the first demonstration that the membrane distal CBD (CBD1) of LIFR associates in vitro with soluble CNTFR in the absence of CNTF. Moreover, purified CBD1 partially blocks CNTF signaling, but not that of interleukin-6 or LIF, in human embryonal carcinoma cell line Ntera/D1 cells. These data raise the possibility that LIFR has the capability to form a ligand-free complex with CNTFR.
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PMID:Membrane distal cytokine binding domain of LIFR interacts with soluble CNTFR in vitro. 1194 54

Oxaliplatin (L-OHP), a diaminocyclohexane platinum derivative, is an active and well tolerated anticancer drug which is presently used in the treatment of gastrointestinal tumours. Since the efficacy of L-OHP in the treatment of multiple myeloma (MM) has not yet been evaluated, we studied the antiproliferative activity of this compound in vitro in a panel of MM cell lines (XG1, XG1a, U266 and IM-9). We found that L-OHP inhibited the growth of MM cells at therapeutically achievable concentrations (IC(50): 5-10 microM after 24 h of exposure) and was more active than Cisplatin (CDDP) or Carboplatin (CBDCA). The activity of L-OHP was apparently not affected by interleukin-6 (IL-6), the major growth and survival factor of MM cells. We also found that L-OHP induced apoptotic cell death. We demonstrated that the combination of L-OHP with Dexamethasone (Dex) resulted in the enhancement of the anti-myeloma effects. L-OHP and Dex both induced poly adenosine diphosphate (ADP)-ribose polymerase (PARP) cleavage and this induction was enhanced by the combined treatment. L-OHP-induced apoptosis correlated with caspase-3 cleavage, but this correlation could not be demonstrated in Dex-treated cells. Taken together, these in vitro results provide a rationale for the experimental use of L-OHP in the treatment of MM patients and suggest therapeutic combinations of potential value.
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PMID:Oxaliplatin (L-OHP) treatment of human myeloma cells induces in vitro growth inhibition and apoptotic cell death. 1200 4

The leukemia inhibitory factor/interleukin-6 (LIF/IL-6) family of cytokines is known to play a major role in bone physiology. Although much work has focused on the regulation of bone resorption by IL-6 and related cytokines, their effects on osteoblast development and bone formation have not been as well studied. Previously, we reported that LIF inhibits, in a non-IL-6-dependent manner, osteoblast differentiation and bone nodule formation in the rat calvaria (RC) model, an effect that is antagonized by dexamethasone (Dex). The culture time-sensitive window suggested that LIF targets late preosteoblasts or early osteoblasts, and that this stage-specific effect coincided with a period of low endogenous production of LIF and IL-6. To detect potential crosstalk between members of this family, we have extended these observations by assessing the expression levels of other LIF/IL-6 cytokines (CNTF, OSM, IL-11, CT-1) and their receptors in the same RC cell model treated with or without LIF or Dex. Semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) analysis showed that IL-11 and its receptor, CNTF and its receptor, LIFR, and gp130 were constitutively expressed throughout the culture period. Expression of CT-1 and OSM increased with culture time - that is, with osteoblast differentiation - whereas the specific receptor for OSM (OSMR) was highly expressed at early timepoints and either plateaued or decreased thereafter. Continuous treatment with Dex (10(-8) mol/L) inhibited the endogenous production of IL-6, LIF, OSM, IL-11R, and OSMR, but had no detectable effect on the expression of IL-11, CT-1, CNTF, CNTFR, LIFR, or gp130. Finally, treatment with exogenously added LIF stimulated IL-6, LIF, LIFR, and OSMR, but had no other detectable effects. These data indicate that multiple members of the LIF/IL-6 family and their receptors are expressed in RC cell cultures, and are differentially regulated by Dex and LIF, suggesting that these cytokines play a complex and interdependent role, further modulated by glucocorticoid levels, in osteoprogenitor differentiation and bone nodule formation.
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PMID:Expression of leukemia inhibitory factor (LIF)/interleukin-6 family cytokines and receptors during in vitro osteogenesis: differential regulation by dexamethasone and LIF. 1211 Apr 37


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