Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mechanical input is known to regulate skeletal mass. In vitro, application of strain inhibits osteoclast formation by decreasing expression of the ligand RANKL in bone stromal cells, but the mechanism responsible for this down-regulation is unknown. In experiments here, application of 1.8% equibiaxial strain for 6 h reduced vitamin D-stimulated RANKL mRNA expression by nearly one-half in primary bone stromal cells. Application of strain caused a rapid activation of ERK1/2, which returned to baseline by 60 minutes. Adding the ERK1/2 inhibitor PD98059 30 minutes before strain delivery prevented the strain effect on RANKL mRNA expression, suggesting that activation of ERK1/2 was required for transduction of the mechanical force. Mechanical strain also activated N-terminal Jun kinase (JNK) that, in contrast, did not return to baseline during 24 h of continuous strain. This suggests that JNK may represent an accessory pathway for mechanical transduction in bone cells. Our data indicate that strain modulation of RANKL expression involves activation of MAPK pathways.
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PMID:Activation of extracellular signal-regulated kinase is involved in mechanical strain inhibition of RANKL expression in bone stromal cells. 1216 99

Histone deacetylase (HDAC) inhibitors are emerging as a new class of anticancer therapeutic agents and have been demonstrated to induce differentiation in some myeloid leukemia cell lines. In this study, we show that HDAC inhibitors have a novel action on osteoclast differentiation. The effect of 2 HDAC inhibitors, trichostatin A (TSA) and sodium butyrate (NaB), on osteoclastogenesis was investigated using rat and mouse bone marrow cultures and a murine macrophage cell line RAW264. Both TSA and NaB inhibited the formation of preosteoclast-like cells (POCs) and multinucleated osteoclast-like cells (MNCs) in rat bone marrow culture. By reverse transcription-polymerase chain reaction analysis, TSA reduced osteoclast-specific mRNA expression of cathepsin K and calcitonin receptor (CTR). In contrast, TSA and NaB did not affect the formation of bone marrow macrophages (BMMs) induced by macrophage colony-stimulating factor as examined by nonspecific esterase staining. Fluorescence-activated cell sorting analysis showed that TSA did not affect the surface expression of macrophage markers for CD11b and F4/80 of BMMs. TSA and NaB also inhibited osteoclast formation and osteoclast-specific mRNA expression in RAW264 cells stimulated with receptor activator of nuclear factor-kappa B (NF-kappa B) ligand (RANKL). Transient transfection assay revealed that TSA and NaB dose dependently reduced the sRANKL-stimulated or tumor necrosis factor alpha (TNF-alpha)-stimulated transactivation of NF-kappa B-dependent reporter genes. The treatment of RAW264 cells with TSA and NaB inhibited TNF-alpha-induced nuclear translocation of NF-kappa B and sRANKL-induced activation of p38 mitogen-activated protein kinase (MAPK) signals. These data suggest that both TSA and NaB exert their inhibitory effects by modulating osteoclast-specific signals and that HDAC activity regulates the process of osteoclastogenesis.
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PMID:Two histone deacetylase inhibitors, trichostatin A and sodium butyrate, suppress differentiation into osteoclasts but not into macrophages. 1251 13

We have examined highly purified osteoclasts that were generated in vitro from murine co-culture of marrow precursors with stromal support cells and have found evidence of activation of the MEK/ERK and AKT/NFkappaB survival pathways. Many mature marrow-derived osteoclasts survived for at least 48 h in culture whether or not they are maintained with stromal cells. Moreover, supplementing purified osteoclasts with RANKL and/or M-CSF had no impact on their survival pattern. In addition, spleen-derived osteoclasts generated with RANKL and M-CSF treatment exhibited a similar survival pattern. Blocking MEK, AKT, or NFkappaB activity resulted in apoptosis of many, but not all, of the osteoclasts in purified marrow-derived osteoclasts, marrow-derived osteoclasts co-cultured with stromal cells, and spleen-derived osteoclasts maintained with RANKL and M-CSF. These data support that both the MEK/ERK and AKT/NFkappaB pathways contribute to osteoclast survival. Since PI3K has been shown to activate either of these pathways, we have examined its role in osteoclast survival. PI3K inhibition caused apoptosis of nearly all osteoclasts in purified and co-cultured marrow-derived osteoclasts and spleen-derived osteoclasts maintained with RANKL and M-CSF. Interestingly, in marrow-derived co-cultures, the apoptotic response was restricted to osteoclasts as there was no evidence of stromal support cell apoptosis. PI3K inhibition also blocked MEK1/2, ERK1/2, and AKT phosphorylation and NFkappaB activation in purified osteoclasts. Simultaneous blockage of both AKT and MEK1/2 caused rapid apoptosis of nearly all osteoclasts, mimicking the response to PI3K inhibition. These data reveal that PI3K coordinately activates two distinct survival pathways that are both important in osteoclast survival.
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PMID:Phosphatidylinositol 3-kinase coordinately activates the MEK/ERK and AKT/NFkappaB pathways to maintain osteoclast survival. 1268 17

Tumor necrosis factor-like weak inducer of apoptosis (TWEAK) is a member of the tumor necrosis factor family that is implicated in apoptosis, proliferation, migration, and inflammation. We describe our findings showing that TWEAK mediated the differentiation of RAW264.7 (RAW) monocyte/macrophage cells into multinuclear, functional osteoclasts. The effect of TWEAK was direct and not mediated by the receptor activator of nuclear factor-kappa B (NF-kappa B) ligand (RANKL) as shown by the use of TWEAK- or RANKL-neutralizing antibodies and by osteoprotegerin, a decoy receptor for RANKL. Recently, fibroblast growth factor-inducible 14 (Fn14) was suggested to be a receptor for TWEAK. We show that the Fn14/TWEAK receptor (TweakR) was not responsible for the osteoclastic effect of TWEAK on RAW cells. Flow cytometry analysis did not reveal the expression of Fn14/TweakR on RAW cells. Moreover, Fn14/TweakR-neutralizing antibodies did not block TWEAK-induced RAW cell differentiation into osteoclasts. This indicated that a second TweakR, TweakR2, exists on RAW cells and is responsible for mediating TWEAK-induced differentiation. We next compared the signaling pathways that are activated by the two receptors. TWEAK binding to TweakR2 activated the NF-kappa B, mitogen-activated protein kinase and c-Jun N-terminal kinase signaling cascades in RAW cells. In contrast, TWEAK binding to Fn14/TweakR activated the NF-kappa B and c-Jun N-terminal kinase pathways but induced only a weak activation of MAPK in HT-29 human colon adenocarcinoma cells expressing endogenous Fn14/TweakR. We propose that the biological effects of TWEAK are mediated by binding to one of at least two distinct receptors that induce differential activation of downstream signaling pathways.
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PMID:TWEAK mediates signal transduction and differentiation of RAW264.7 cells in the absence of Fn14/TweakR. Evidence for a second TWEAK receptor. 1279 80

Development of bone depends on a continuous supply of bone-degrading osteoclasts. Although several factors such as the matrix metalloproteinases and the integrins have been shown to be important for osteoclast recruitment, the mechanism of action remains poorly understood. In this study we investigated the molecular mechanisms homing osteoclasts to their future site of resorption during bone development. We show that RANKL and VEGF, two cytokines known to be present in bone, possess chemotactic properties toward osteoclasts cultured in modified Boyden chambers. Furthermore, in ex vivo cultures of embryonic murine metatarsals, a well established model of osteoclast recruitment, antagonists of RANKL and VEGF reduced calcium release, showing that both cytokines play roles during bone development. In cultures of purified osteoclasts both RANKL and VEGF induced phosphorylation of ERK1/2 MAP kinase. M-CSF, a well-known chemoattractant of osteoclast, also induced activation of ERK1/2, although this activation followed a kinetic pattern differing from that of RANKL and VEGF. RANKL and VEGF-induced, but not M-CSF-induced, osteoclast invasion was completely blocked by the specific inhibitor of ERK1/2 phosphorylation, PD98059. In addition, PD98059 was able to inhibit calcium release in cultures of embryonic metatarsals. In contrast, PD98059 was unable to abrogate the RANKL-induced calcium release in the tibia model, demonstrating that only some of the RANKL functions on osteoclast physiology are regulated through the ERK1/2 pathway. Taken together, these results show that RANKL and VEGF, in addition to their role in osteoclast differentiation and activation of resorption, are important components of the processes regulating osteoclast chemotaxis.
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PMID:RANKL and vascular endothelial growth factor (VEGF) induce osteoclast chemotaxis through an ERK1/2-dependent mechanism. 1450 49

Inflammatory osteolysis induced by implant-derived wear debris is associated with infiltration of various cell-types to the implant-bone interface leading to abundant secretion of pro-inflammatory cytokines and activation of proteinases that together lead to propagation of the localized inflammatory response and periprosthetic bone erosion. Tumor necrosis factor family members are considered to be direct mediators of inflammation and osteolysis. These cytokines exert their osteoclastic effects via activation of the transcription factor NF-kappaB and certain MAP kinases, including c-Jun, Erks and p38, all known to be essential for the development of osteoclasts. We have recently documented that the osteoclastogenic cytokines TNF and RANKL play a pivotal role in the development of inflammatory osteolysis. We have also found that PMMA particles stimulate osteoclastogenesis, at least in part, by induction of RANKL, TNF, and by activation of the transcription factor NF-kappaB. More importantly, our data indicate that inhibitors of the osteoclastogenic factors, TNF and RANKL abrogate particle-induced osteoclastogenesis. In the current study, we investigated if PMMA particles activate MAP kinases, and the potential role of these kinases as mediators of osteolysis. Using kinase assays, we show that in osteoclast precursors, PMMA particles markedly and rapidly activate p38 and ERK MAP kinases. This activation was specific, evident by complete blockade with specific inhibitory compounds. Similarly, we show that PMMA particles activate the JNK pathway, which is known to be involved in inflammatory and osteoclastogenic events. We also show that p38 MAP kinase regulates PMMA-activation of NF-kappaB, thus providing a possible mechanism for particle action in osteoclast precursors. Finally, we provide evidence that specific inhibitors of MAP kinases are capable of inhibiting PMMA-stimulated osteoclastogenesis. These data provide evidence that MAP kinases are potent mediators of particle-induced osteoclastogenesis.
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PMID:Mitogen-activated protein (MAP) kinases mediate PMMA-induction of osteoclasts. 1455 17

C-src is known to play an essential role in osteoclastogenesis. We studied the regulatory mechanism as well as the significance of c-src induction in RANKL-induced differentiation of mouse monocytic RAW264 cells to TRAP-positive-multinucleated cells. We determined the genomic organization of the 5'-terminal region of mouse c-src. Mutational and biochemical analyses in the region 0.9 kb upstream of the transcription start site revealed that c-Fos and JNK pathways, in addition to NF-kappaB, participate in c-src induction in response to RANKL. On the other hand, when the expression of c-src was suppressed by introducing antisense src, the number of multinucleated cells formed was significantly reduced. Together, these findings show that the expression of c-src is under the control of AP-1 and NF-kappaB in the differentiation of RAW264 cells and that c-src plays an essential role at the stage of progression to multinucleated cell formation.
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PMID:Induction of mouse c-src in RAW264 cells is dependent on AP-1 and NF-kappaB and important for progression to multinucleated cell formation. 1554 55

Bone remodeling is accompanied by the differentiation of osteoclasts from the monocyte/macrophage lineage of hematopoietic cells. The osteoclast differentiation process requires receptor activator of nuclear factor kappa B (NF-kappa B) ligand (RANKL), which causes complex changes in the expression of various genes. In a cDNA microarray study to identify genes targeted by RANKL, we found that monokine induced by the interferon-gamma (IFN-gamma) (MIG) gene was up-regulated in osteoclast precursor cells. The increase in MIG expression by RANKL was confirmed by reverse transcription-polymerase chain reaction and Western blot analysis. RANKL induction of MIG required the activity of NF-kappa B, whose binding site is present in the MIG promoter. MIG induction by RANKL was also dependent on p38 mitogen-activated protein kinase (MAPK) and signal transducer and activator of transcription 1 (STAT1). RANKL stimulated the phosphorylation of Ser727 of STAT1, which required p38 activity. MIG secreted on RANKL treatment could stimulate the migration and adhesion of osteoclast precursors and osteoclasts that were primed to express CXCR3, the MIG receptor, by macrophage-colony-stimulating factor (M-CSF). Therefore, we provide the first evidence demonstrating that RANKL stimulates the serine phosphorylation of STAT1 through the p38 MAPK pathway, causing MIG gene transcription and secretion, which may have a role in recruiting CXCR3-positive osteoclast precursors and osteoclasts to bone remodeling or inflammatory sites.
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PMID:Monokine induced by interferon-gamma is induced by receptor activator of nuclear factor kappa B ligand and is involved in osteoclast adhesion and migration. 1558 57

The OPG/RANKL/RANK cytokine system is essential for osteoclast biology. Various studies suggest that human metabolic bone diseases are related to alterations of this system. Here we summarize OPG/RANKL/RANK abnormalities in different forms of osteoporoses and hyperparathyroidism. Skeletal estrogen agonists (including 17beta-estradiol, raloxifene, and genistein) induce osteoblastic OPG production through estrogen receptor-alpha activation in vitro, while immune cells appear to over-express RANKL in estrogen deficiency in vivo. Of note, OPG administration can prevent bone loss associated with estrogen deficiency as observed in both animal models and a small clinical study. Glucocorticoids and immunosuppressants concurrently up-regulate RANKL and suppress OPG in osteoblastic cells in vitro, and glucocorticoids are among the most powerful drugs to suppress OPG serum levels in vivo. As for mechanisms of immobilization-induced bone loss, it appears that mechanical strain inhibits RANKL production through the ERK 1/2 MAP kinase pathway and up-regulates OPG production in vitro. Hence, lack of mechanical strainduring immobilization may favor an enhanced RANKL-to-OPG ratio leading to increased bone loss. As for hyperparathyroidism, chronic PTH exposure concurrently enhances RANKL production and suppresses OPG secretion through activation of osteoblastic protein kinase A in vitro which would favour increased osteoclastic activity. In sum, the capacity for OPG to antagonize the increases in bone loss seen in many rodent models of metabolic bone disease implicates RANKL/OPG imbalances as the likely etiology and supports the potential role for a RANKL antagonist as a therapeutic intervention in these settings.
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PMID:The OPG/RANKL/RANK system in metabolic bone diseases. 1561 94

Phosphodiesterases (PDEs) are enzymes that degrade intracellular cAMP. In the present study, 3-isobutyl-1-methylxanthine (IBMX) and pentoxifylline, PDE inhibitors, induced osteoclast formation in cocultures of mouse bone marrow cells and calvarial osteoblasts. These inhibitors induced the expression of the osteoclast differentiation factor, TNF-related activation induced cytokine (TRANCE, identical to RANKL, ODF, and OPGL), in calvarial osteoblasts. IBMX induced phosphorylation of extracellular signal-regulated kinase (ERK) and p38 mitogen-activated protein kinase (MAPK) in osteoblasts. Induction of TRANCE expression by IBMX was partially suppressed by the inhibitors of protein kinase A (PKA), ERK, and p38 MAPK, suggesting that activation of ERK and p38 MAPK, as well as PKA, is involved in TRANCE expression by IBMX. Osteoblasts expressed PDE4, a PDE subtype, and rolipram, a selective inhibitor of PDE4, induced TRANCE expression. These results suggest that PDE4 is a key regulator of TRANCE expression in osteoblasts, which in turn controls osteoclast formation.
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PMID:Phosphodiesterase inhibitors stimulate osteoclast formation via TRANCE/RANKL expression in osteoblasts: possible involvement of ERK and p38 MAPK pathways. 1567 Aug 56


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