UNIPROT:P05231 - FACTA Search

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Query: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin-6 (IL-6) has been postulated as a possible mediator of bone loss after estrogen deficiency, and its signal is transduced via glycoprotein 130 (gp130) after binding IL-6 receptor (IL-6R) in the membrane of target cells. In this study, the expression of IL-6R and gp130 in bone marrow cells during osteoclast differentiation was investigated. Mouse bone marrow cells were isolated and cultured with or without 1alpha,25-dihydroxyvitamin D3 [1,25(OH)2D3]. During the formation of tartrate-resistant acid phosphatase (TRAP)-positive multinucleated cells (MNCs), IL-6R and gp130 expression in the mononuclear cells, stromal cells, and TRAP-positive MNCs were quantitated, using a laser cytometer with a fluorescence confocal microscopy. With 1,25(OH)2D3 stimulus, the level of gp130 significantly increased, but that of IL-6R did not in the stromal cells. In contrast, the levels of both gp130 and IL-6R significantly increased in the mononuclear cells by the treatment with 1,25(OH)2D3. The high expression of both gp130 and IL-6R was observed in the TRAP-positive mononuclear cells. Moreover, both IL-6R and gp130 were expressed in the TRAP-positive MNCs and isolated murine osteoclasts. The treatment of TRAP-positive MNCs with IL-6 caused enhancement of the resorbing activity in a dose-dependent manner, and the effect was prevented by a neutralizing antibody against IL-6R. These data suggest that gp130 and IL-6R, as well as IL-6, are involved in the formation and activation of osteoclasts.
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PMID:Expression of IL-6 receptor and GP130 in mouse bone marrow cells during osteoclast differentiation. 960 Jul 82

Osteotropic hormones and cytokines are involved in the differentiation of osteoclast progenitors from haematopoietic stem cells to multinucleated osteoclasts which mediate bone resorption. Stem cell factor, interleukin-6, nitric oxide, and transforming growth factor-beta are implicated in the regulation of bone resorption by osteoclast. We test whether stem cell factor, interleukin-6, nitric oxide, and transforming growth factor-beta affect the generation of osteoclast-like multi-nucleated cells induced by 1 alpha,25-(OH)2D3. 1 alpha,25-(OH)2D3 increase the generation of osteoclast-like cells retaining osteoclast characteristics including multinuclearity and positive staining for tartrate-resistant acid phosphatase. Combined treatment of stem cell factor with interleukin-6 synergistically potentiates the ability of 1 alpha,25-(OH)2D3 to generate tartrate-resistant acid phosphatase-positive multinucleated cells. However, either stem cell factor or interleukin-6 alone does not induce the generation of tartrate-resistant acid phosphatase-positive multinucleated cells. Transforming growth factor-beta produces a biphasic effect on osteoclast generation induced by 1 alpha,25-(OH)2D3. Transforming growth factor-beta stimulates osteoclast generation at low concentration (0.1 ng/ml) whereas it suppresses the formation of osteoclast-like cell at higher concentration (1 ng/ml). Sodium nitroprusside, a donor of nitric oxide, almost completely inhibits the generation of 1 alpha,25-(OH)2D3-induced osteoclast at high concentration (100 microM), but it significantly enhances the osteoclast generation at low concentrations (3 microM). These results suggest that stem cell factor, interleukin-6, transforming growth factor-beta, and nitric oxide interact with 1 alpha,25-(OH)2D3 to modulate the differentiation of hematopoietic precursors toward committed osteoclast precursors.
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PMID:Effect of stem cell factor, interleukin-6, nitric oxide and transforming growth factor-beta on the osteoclast differentiation induced by 1 alpha,25-(OH)2D3 in primary murine bone marrow cultures. 964 27

It is reported that Chinese hamster ovary cells transfected with human alpha4 cDNA (alpha4CHOs) and expressing functional alpha4beta1 integrin developed bone metasasis in nude mice. To clarify the role of alpha4beta1 integrin in bone metastasis, in terms of tumor-mediated bone destruction, we examined whether alpha4CHOs stimulate osteoclast formation in cocultures with mouse bone marrow cells. The number of osteoclast-like cells identified as tartrate-resistant acid phosphatase positive multinucleated cells (TRAP(+) MNCs) formed from bone marrow cells increased with the increasing number of alpha4CHOs cocultured. The effects of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) and prostaglandin E2 (PGE2) on TRAP(+) MNC formation were enhanced in cocultures with alpha4CHOs. TRAP(+) MNCs induced by alpha4CHOs possessed calcitonin receptors and resorbed calcified tissues. In cocultures, alpha4CHOs and bone marrow stromal cells were in contact with each other and bone marrow stromal cells expressed vascular cell adhesion molecule-1 (VCAM-1), which is one of the ligands for alpha4beta1 integrin. TRAP(+) MNC formation was not stimulated in cocultures where direct contact between alpha4CHOs and bone marrow cells was inhibited by membrane filters. Alpha4CHOs do not support TRAP(+) MNC formation in cocultures with spleen cells but do support TRAP(+) mononuclear cell and MNC formation from spleen cells in the presence of osteoblastic cells. Cultured media from alpha4CHOs, bone marrow cells, and cocultures of alpha4CHOs and bone marrow cells did not stimulate TRAP(+) MNC formation or enhance the effects of 1,25(OH)2D3 and PGE2 in bone marrow cultures. The concentrations of PGE2 and interleukin-6 (IL-6) in cultured media were not different between the cultures of bone marrow cells and the cocultures of bone marrow cells and alpha4CHOs. Anti-human alpha4 and anti-mouse VCAM-1 antibodies inhibited TRAP(+) MNC formation induced by alpha4CHOs. These results indicate that alpha4CHOs stimulated TRAP(+) MNC formation through direct cell-to-cell interaction between alpha4beta1 and VCAM-1. It is suggested that in addition to various soluble factors regulating osteoclast formation, cell-to-cell interaction between tumor cells and bone marrow cells is important for inducing osteoclasts at the site of bone metastasis and leading to bone destruction.
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PMID:Chinese hamster ovary cells expressing alpha4beta1 integrin stimulate osteoclast formation in vitro. 971 93

Periprosthetic bone resorption has been implicated in the failure of total joint arthroplasty. Osteolysis is reported to be associated with bone resorption induced by bone-resorbing cytokines, which are released from macrophages and fibroblasts in periprosthetic tissues after stimulation by wear debris generated in the joint cavity. Recent reports have suggested the concept of the effective joint space, which includes all periprosthetic regions that are accessible to joint fluid and wear debris. In this study, we examined the levels of interleukin-6 (IL-6), soluble IL-6 receptor (sIL-6R), and tartrate-resistant acid phosphatase (TRAP) in joint fluid after failed total hip arthroplasty (THA) with osteolysis and investigated whether the joint fluid could activate osteoclastic bone resorption using unfractionated mouse bone cells cultured on dentin slices. Histochemical analysis showed the presence of more TRAP-positive cells in synovial capsules from failed THA patients when compared with osteoarthritis (OA) patients (controls). The levels of IL-6, sIL-6R, and TRAP in joint fluid from failed THA patients were significantly higher than in OA patients. Mouse osteoclasts cultured on dentin slices with joint fluid from failed THA patients with osteolysis produced a significant increase of pit area, whereas cells cultured with joint fluid from OA patients did not. Interestingly, osteoclastic bone resorption on dentin slices was significantly correlated with TRAP activity in joint fluid (p < 0.0001). These results suggest that joint fluid containing bone-resorbing cytokines is produced by synovial capsules in failed THA patients with osteolysis and may activate osteoclasts around the prosthesis in combination with those produced by interface tissues, thus contributing to periprosthetic bone resorption.
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PMID:Joint fluid from patients with failed total hip arthroplasty stimulates pit formation by mouse osteoclasts on dentin slices. 973 60

Periprosthetic bone loss is an important contributory factor for aseptic loosening of total joint replacements. It has recently been shown that osteoclast precursor cells are present in the wear particle-associated macrophage infiltrate found in the membrane surrounding loose implants and that these cells are capable of differentiating into osteoclastic bone-resorbing cells. Long-term co-culture of arthroplasty-derived macrophages and the rat osteoblast-like cell line, UMR-106, in the presence of 1,25(OH)2D3 results in the formation of numerous multinucleated cells that are positive for tartrate-resistant acid phosphatase and vitronectin receptor and capable of extensive lacunar bone resorption. The aim of this study was to determine the effect of cytokines/growth factors, known to be present in the arthroplasty membrane, on this process of osteoclast differentiation. During osteoclast formation, increased levels of macrophage colony-stimulating factor, interleukin-6, and to a lesser extent, interleukin-1beta, but not tumour necrosis factor alpha, were detected in the co-culture supernatants. Addition of neutralising antibodies to human interleukin-1beta or tumour necrosis factor alpha to the co-culture system did not inhibit osteoclast formation. In contrast, co-cultures to which neutralising antibodies to human macrophage colony-stimulating factor or interleukin-6 were added contained fewer cells positive for tartrate-resistant acid phosphatase and vitronectin receptor and formed significantly fewer resorption pits. Time-course studies showed that macrophage colony-stimulating factor and interleukin-6 increase osteoclast formation mainly in the early stages of osteoclast differentiation. These results indicate that the release of macrophage colony-stimulating factor and interleukin-6 by activated cells in the arthroplasty membrane is likely to contribute to pathological bone resorption associated with aseptic loosening by stimulating differentiation of mononuclear phagocyte osteoclast precursors into mature bone-resorbing cells.
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PMID:Macrophage colony-stimulating factor and interleukin-6 release by periprosthetic cells stimulates osteoclast formation and bone resorption. 1056 77

A great deal of evidence has been accumulating that implicates the immune system in normal and pathological bone turnover. The objective of the present study was to examine the possible involvement of cytokines produced by T lymphocytes in bone metabolism. We have chosen the immunologically compromised athymic mouse, which demonstrate sclerotic features in its trabecular bone, as the animal model for assessment of possible modulation effects of interleukin-1alpha (IL-1alpha) and interleukin-6 (IL-6) on bone and cartilage metabolism. The cytokines were applied by daily subcutaneous injections for 3 consecutive days. Histomorphometry, measuring epiphyseal trabecular bone volume (ETBV), metaphyseal trabecular bone volume (MTBV), and the width of the growth plate, and tartrate-resistant acid phosphatase (TRAP) histochemistry were used to assess parameters of bone turnover in the proximal tibia. IL-6, but not IL-1alpha, reduced ETBV and MTBV. Both IL-6 and IL-1alpha reduced the width of the growth plate. IL-6, but not IL-1alpha, increased the number of chondroclasts and osteoclasts in the primary spongiosa of the proximal tibia, as well as the number of nuclei. The resultant bone resembled that of the wild-type mouse. The results point to IL-6 as a possible regulator of bone turnover in vivo. It is suggested that the athymic mouse has a deficiency somewhere in the cascade of events leading to the production of IL-6 or, alternatively, that IL-6 replaces other factors that are supplied by T lymphocytes directly or indirectly. As T lymphocytes interact with B lymphocytes it is suggested that the athymic mouse might be appropriate for studying the in vivo effects of the immune system on normal bone metabolism.
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PMID:Interleukin-6 modulates trabecular and endochondral bone turnover in the nude mouse by stimulating osteoclast differentiation. 1077 86

Due to irreversible joint destruction caused by the various arthritides, more than 400,000 total joint arthroplasties are performed each year in the United States. As many as 20% of these require revision surgery because of aseptic loosening. The current paradigm to explain aseptic loosening is that wear debris generated from the prosthesis stimulates the release of proinflammatory cytokines (i.e., tumor necrosis factor-alpha and interleukins 1 and 6) following phagocytosis by resident macrophages. These cytokines, in turn, initiate an inflammatory response, with the development of an erosive pannus that stimulates bone resorption by osteoclasts. In support of this model, we have previously shown that human monocytes produce large quantities of tumor necrosis factor-alpha in response to titanium particles in vitro. In the current study, we characterized the role of tumor necrosis factor-alpha/nuclear transcription factor-kappaB signaling in the proinflammatory response to titanium particles in vitro and in vivo. Using the mouse macrophage cell line J774, we showed that these cells produce an amount of tumor necrosis factor-alpha in response to titanium particles similar to that produced by human peripheral blood monocytes. The production of tumor necrosis factor-alpha was preceded by a drop in cellular levels of inhibitory factor-kappaBalpha protein and translocation of p50/p65 nuclear transcription factor-KB to the nucleus 30 minutes after stimulation. Levels of tumor necrosis factor-alpha and inhibitory factor-kappaBalpha mRNA increased 30 minutes after stimulation, consistent with the activation of nuclear transcription factor-kappaB. Interleukin-6 mRNA was first seen 4 hours after the addition of the titanium particles, indicating that the production of this cytokine is secondary to the immediate nuclear transcription factor-kappaB response. To test the relevance of tumor necrosis factor-alpha/nuclear transcription factor-kappaB signaling in response to titanium particles in vivo, we adopted an animal model in which the particles were surgically implanted on the calvaria of mice. The animals displayed a dramatic histological response to the debris, with the formation of fibrous tissue and extensive bone resorption after only 1 week. With use of immunohistochemistry and tartrate-resistant acid phosphatase staining, tumor necrosis factor-alpha and osteoclasts were readily detected at the site of inflammation and bone resorption in the calvaria of the treated mice. By testing mice that genetically over-produce tumor necrosis factor-alpha (hTNFalpha-Tg), those defective in tumor necrosis factor-alpha signaling (TNF-RI-/-), and those that are nuclear transcription factor-kappaB1-deficient (NFkappaB1-/-), we evaluated the importance of tumor necrosis factor-alpha/nuclear transcription factor-kappaB signaling in the biological processes responsible for aseptic loosening. The hTNFalpha-Tg mice had a grossly exaggerated response, the TNF-RI(-/-) mice showed little evidence of inflammation or bone resorption, and the nuclear transcription factor-kappaB1(-/-) mice had an inflammatory response without bone resorption. On the basis of these results, we propose a model for periprosthetic osteolysis in which wear debris particles are phagocytosed by macrophages, resulting in the activation of nuclear transcription factor-kappaB and the production of tumor necrosis factor-alpha. Tumor necrosis factor-alpha directly induces fibroblast proliferation and tissue fibrosis and recruits or activates, or both, osteoclasts to resorb adjacent bone.
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PMID:Tumor necrosis factor-alpha/nuclear transcription factor-kappaB signaling in periprosthetic osteolysis. 1093 36

A characteristic feature of Paget's disease is an increase in the number of osteoclasts in bone. Osteoclasts are formed from mononuclear phagocyte precursors that circulate in the monocyte fraction of peripheral blood. These cells require the presence of RANK ligand (RANKL)-expressing osteoblastic cells and human macrophage colony-stimulating factor (M-CSF) to form osteoclasts in vitro. To determine the role of osteoclast differentiation from circulating precursors in Paget's disease, we cultured monocytes from Paget's patients and gender- and age-matched normal controls with no evidence of bone disease for up to 21 days in the presence of UMR 106 cells and various concentrations of M-CSF (1-25 ng/mL) and 1,25-dihydroxyvitamin D(3) [1,25(OH)(2)D(3)] (10(-10) to 10(-7) mol/L). Relative to controls, there was a significant increase in the extent of osteoclast differentiation from pagetic monocytes as assessed by expression of tartrate-resistant acid phosphatase (TRAP), vitronectin receptor (VNR), and lacunar bone resorption. Serial dilution experiments (2 x 10(5) to 2 x 10(2) cells/well) showed no difference in the concentration of osteoclast precursors in the peripheral blood. In Paget's patients with high serum alkaline phosphatase (sAP) levels, increased sensitivity to the osteoclastogenic effect of 1,25(OH)(2)D(3) was noted. Osteoclast differentiation did not occur when M-CSF was substituted by interleukin-6 (IL-6) and soluble IL-6 receptor (sIL-6R), and these factors did not stimulate osteoclast differentiation in the presence of M-CSF. In this in vitro coculture system, osteoclast formation was inhibited by osteoprotegerin in a dose-dependent manner. In the presence of RANKL (5-30 ng/mL) and M-CSF (25 ng/mL), osteoclast formation and bone resorption were significantly increased in cultures of monocytes from patients with high and low sAP levels as compared with normal controls. Our findings suggest that the increase in osteoclast numbers seen in Paget's disease results not from an increase in the number of circulating precursors in peripheral blood but rather from an increased sensitivity of osteoclast precursors to the humoral factors, 1,25(OH)(2)D(3) and RANKL, which regulate osteoclast formation.
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PMID:Osteoclast differentiation from circulating mononuclear precursors in Paget's disease is hypersensitive to 1,25-dihydroxyvitamin D(3) and RANKL. 1155 75

Spindle-shaped cells were established from four giant-cell tumors of bone. When human blood monocytes were co-cultured with these cells, multinucleated giant-cell formation of monocytes was induced. Intriguingly, even when a filter (pore size: 0.45 microm) was interposed between monocytes and the spindle-shaped cells, polykaryocytes also appeared. These multinucleated giant cells were positive for tartrate-resistant acid phosphatase, expressed calcitonin receptor, and showed bone-resorption activity, characteristics of osteoclast-like cells. These findings indicate that soluble factors secreted from these cells play an important role in osteoclast-like cell formation from blood monocytes. These data additionally suggest that these cells support osteoclast-like cell formation in giant-cell tumors of bone. The cells also expressed mannose receptor, fibronectin, receptor activator of nuclear factorkappaB, and several cytokine mRNAs, including interleukin-6, receptor activator of nuclear factorkappaB ligand/osteoclast differentiation factor/osteoprotegerin ligand, and macrophage colony-stimulating factor. However, all of these molecules except receptor activator of nuclear factorkappaB ligand mRNA could also be detected in control HeLa and CV-1 cells. Although the soluble receptor activator of nuclear factorkappaB ligand has not been found under physiological conditions, it is possible that it is cleaved by cellular proteases and the truncated receptor activator of nuclear factorkappaB is released from cells. Identification of the soluble factors capable of inducing osteoclast formation from blood monocytes is a pressing problem to be solved.
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PMID:Spindle-shaped cells derived from giant-cell tumor of bone support differentiation of blood monocytes to osteoclast-like cells. 1105 2

Polyethylene debris from joint replacements may be transported in synovial fluid and be phagocytosed by macrophages. The activation and migration of macrophages may play important roles in osteolysis and implant loosening. Tissues from the bone-implant interface do not always contain wear debris, which may mean that osteolysis may not require direct contact with wear debris. We hypothesized that the release of polyethylene debris from the implants induces macrophage activation in the joint space. Then the activated macrophages release humoral factors, such as inflammatory cytokines, into the joint fluid. These cytokines may be transported to the bone marrow tissues around the implants where they stimulate the differentiation of the bone marrow cells into osteoclasts. Finally, the activated osteoclasts resorb the surrounding bone. To test this hypothesis, macrophages were stimulated by polyethylene particles. The levels of interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-alpha) were determined by enzyme-linked immunosorbent assay and were increased significantly. To test humoral interaction between macrophages and bone-marrow cells, a co-culture system was used in an in vitro model. With this system, two kinds of cells can be cultured together with humoral contact without the two cell types having to contact each other. We stimulated the macrophages with 5 microm of polyethylene particles and observed whether the bone marrow cells differentiated into the osteoclasts without contact with the macrophages. The numbers of osteoclasts were assessed using tartrate-resistant acid phosphatase (TRAP) staining. The numbers of TRAP-positive cells in the polyethylene particle-stimulated group were higher than in the control group. The ability of the TRAP-positive cells to resorb bone was confirmed by dentine pit formation assay. The results of this study support our hypothesis and suggest that one mechanism of osteolysis in failed joint arthroplasty is the more distant effects of pro-inflammatory cytokine release on osteoclast differentiation and/or activity.
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PMID:Osteoclast induction from bone marrow cells is due to pro-inflammatory mediators from macrophages exposed to polyethylene particles: a possible mechanism of osteolysis in failed THA. 1134 May 87

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