• Title/Summary/Keyword: Mouse Calvarial Cell

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A Study on Anti-Bone Resorption & Osteoporosis by Taeyoungion-Jahage Extracts

  • Bae, Hyo-Sang;Cho, Hyung-Lae;Kim, Dong-Il;Lee, Tae-Kyun;Kim, Jun-Ki;Shin, Jung-Sik
    • The Journal of Korean Obstetrics and Gynecology
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    • v.15 no.4
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    • pp.61-75
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    • 2002
  • Recombinant human $interleukin-1{\beta}$ $(rhIL-1{\beta})$ regulates several activities of the osteoblast cells derived from mouse calvarial bone explants in vitro. $rhIL-1{\beta}$ stimulated cellular proliferation and the synthesis of prostaglandin $E_2(PGE_2)$ and plasminogen activator activity in the cultured cells in a dose-dependent manner. However, the induction of osteocalcin synthesis and alkaine phosphatase activity in response to vitamine D, two characteristics of the osteoblast phenotype, were antagonized by $rhIL-1{\beta}$ over a similar dose range. This study supports the role of $IL-1{\beta}$ in the pathological modulation of bone cell metabolism, with regard to implication in the pathogenesis of osteoporosis by $IL-1{\beta}$. When the mouse calvarial bone cells were used, the bone resorption induced by $IL-1{\beta}$ was strongly inhibited by calcitonin treatment, indicating osteoclast-mediated bone resorption. On the other hand, the medicinal extracts of Taeyoungjon-Jahage (T.Y.J-J.H.G extracts) was tested for whether they could inhibit $IL-1{\beta}-induced$ $PGE_2$ production. Cell viability was not significantly affected by treatment with the indicated concentration of the extracts. The T.Y.J.-J.H.G. extracts were shown to have the inhibitory effects against the synthesis of $PGE_2$. We also examined the effect of the pretreatment with a various concentrations of the T.Y.J.-J.H.G. extracts then treated the $PGE_2-induction$ agents. Pretreatment of the T.Y.J.-J.H.G. extracts for 1 h, which by itself had little effect on cell survival, did not enhance the synthesis of $PGE_2$. Furthermore, the T.Y.J-J.H.G. extracts were shown to have the protective effects against plasminogen dependent fibrinolysis induced by the bone resorption agents of $IL-1{\beta}$. Pretreatment of the T.Y.J.-J.H.G. extracts for 1 h did not enhance the plasminogen dependent fibrinolysis. Finally, calcitonin showed the inhibitory activity the $IL-1{\beta}-stimulated$ bone resorption in the mouse calvarial bone cells having both of the osteoblast and osteoclast cells. Seemingly, pretreatment of the T.Y.J.-J.H.G. extracts for 1 h reduced the bone resorption. These results clearly indicated that calcitonin and T.Y.J.-J.H.G. extracts play key roles in inhibition of the osteoclast-mediated bone resorption.

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Effect of Parathyroid Hormone and Calcitonin on the Enzyme and Mineral Metabolism of Bone Cells and Phosphorylation (뼈 세포의 효소 및 무기질대사에 미치는 PTH와 Calcitonin 호르몬의 효과의 인산화 반응)

  • 정차권
    • Journal of Nutrition and Health
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    • v.28 no.8
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    • pp.737-748
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    • 1995
  • Osteoblast(OBL) cells were isolated from ICR Swiss neonatal mouse calvarial tissues and cultured in a CO2 incubator with minimum essential medium (MEM) containing 0.25g BSA. The cells were cultured for 7 days and were treated with bovine parathyroid hormone (bPTH, 1-34) and calcitonin(CT). Enzyme activities related to mineral metabolism and other biochemical actions within the bone cells including protein phosphorylation were investigated. In other experiments using cultured calvarial bone tissues, hormones were treated for 24, 48, 72 or 96 hours. The activities of $\beta$-glucuronidase enzymes involved in bone collagen synthesis and mineral deposits were increased by 8% with bPTH and were inhibited with CT treatment, while those were 67% increase treated with bPTH and CT together. On the other hand, alkaline phophatase(AP) activities were inhibited by PTH hormone at all the time courses observed. Protein phosphorylation reaction in OBL was mediated by bPTH, cAMP and ionized Ca. Phosphorylation was observed in different cell fractions including homogenate, membrane and cytosol. The number of proteins phosphorylated by PTH, cAMP, and Ca were 10, 5, and 9, respectively. Most of the protein kinases(PKs) were existed in cytosolic compartment. In membrane fractions, two bPTH-dependent-PKs (70K, 50K Da) were observed of which 70K Da protein was also Ca-dependent. Most of the cAMP-dependent PKs were regulated via bPTH. 70K, 50K, 5K, 19K, 16K, 10.5K phosphoproteins regulated by Ca share the same pathways as those by bPTH-dependent proteins. Ca seems to regulate PK activities differently from cAMP.

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Extracellular S100A4 negatively regulates osteoblast function by activating the NF-κB pathway

  • Kim, Haemin;Lee, Yong Deok;Kim, Min Kyung;Kwon, Jun-Oh;Song, Min-Kyoung;Lee, Zang Hee;Kim, Hong-Hee
    • BMB Reports
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    • v.50 no.2
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    • pp.97-102
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    • 2017
  • Patients with inflammatory bone disease or cancer exhibit an increased risk of fractures and delayed bone healing. The S100A4 protein is a member of the calcium-binding S100 protein family, which is abundantly expressed in inflammatory diseases and cancers. We investigated the effects of extracellular S100A4 on osteoblasts, which are cells responsible for bone formation. Treating primary calvarial osteoblasts with recombinant S100A4 resulted in matrix mineralization reductions. The expression of osteoblast marker genes including osteocalcin and osterix was also suppressed. Interestingly, S100A4 stimulated the nuclear factor-kappaB (NF-${\kappa}B$) signaling pathway in osteoblasts. More importantly, the ex vivo organ culture of mouse calvariae with recombinant S100A4 decreased the expression levels of osteocalcin, supporting the results of our in vitro experiments. This suggests that extracellular S100A4 is important for the regulation of bone formation by activating the NF-${\kappa}B$ signaling pathway in osteoblasts.

EFFECT OF INTERLEUKIM-10 ON THE BONE RESORPTION INDUCED BY INTERLEUKIN-1B (Interleukin-10 이 $interleukin-1{\beta}$로 유도되는 골흡수에 미치는 효과)

  • Yu, Yun-Jung;Kang, Yun-Sun;Lee, Syng-Ill
    • Journal of Periodontal and Implant Science
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    • v.24 no.2
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    • pp.321-339
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    • 1994
  • The cytokines released by osteoblasts induce bone resorption via the differentiation of osteoclast precursors. In this process, $interleukin-1{\beta}$($IL-1{\beta}$)-induced bone resorption is mediated by granulocyte macrophage-colony stimulation factor(GM-CSF), interleukin-6 (IL-6), and tumor necrosis factor ${\alpha}$($TNF-{\alpha}$) released from osteoblasts. Since these cytokines (GM-CSF, IL-6, $TNF-{\alpha}$) are produced by not only osteoblasts but also monocytes, and interleukin-10(I1-10) inhibits the secretion of these cytokines from monocytes, it may be speculated that IL 10 could modulate the production of GM-CSF, IL-6, and $TNF-{\alpha}$ by osteoblasts, then control $IL-1{\beta}-induced$ bone resorption. Therefore, the aims of the present study were to examine the effects of IL-10 on bone resorption. The sixten or seventeen-day pregnant ICR mice were injected with $^{45}Ca$ and sacrificed one day after injection. Then fetal mouse calvaria prelabeled with $^{45}Ca$ were dissected out. In order to confirm the degree of bone resorption, mouse calvaria were treated with Lipopolysaccharide(LPS), $TNF-{\alpha}$, $IL-1{\alpha}$, IL-8, $IL-1{\beta}$, and $IL-1{\alpha}$, Then, IL-10 and $interferon-{\gamma}$ ($IFN-{\gamma}$) were added to calvarial medium, in an attempt to evaluate the effect of $IL-1{\beta}-induced$ bone resorption. In addition, osteoclasts formation in bone marrow cell cultures, and the concentration of IL-6, $TNF-{\alpha}$, and GM-CSF produced from mouse calvarial cells were investigated in response to $IL-1{\beta}$ alone and simultaneously adding f $IL-1{\beta}$ and IL-10. The degree of bone resorption was expressed as the ratio of $^{45}Ca$ release(the treated/the control). The osteoclasts in bone marrow cultures were indentified by tartrate resistant acid phosphatase(TRAP) stain and the concentration of the cytokines was quantified using enzyme linked immunosorbent method. As results of these studies, bone resorption was induced by LPS(1 ng/ml ; the ratio of $^{45}Ca$ release, $1.14{\pm}0.07$). Also $IL-1{\beta}$(1 ng/ml), $IL-1{\alpha}$(1 ng/ml), and $TNF-{\alpha}$(1 ng/ml) resulted in bone resorption(the rations of $^{45}Ca$ release, $1.61{\pm}0.26$, $1.77{\pm}0.03$, $1.20{\pm}0.15$ respectively), but IL-8 did not(the ratio of $^{45}Ca$ release, $0.93{\pm}0.21$). The ratios of $^{45}Ca$ release in response to IL-10(400 ng/ml) and $IFN-{\gamma}$(100 ng/ml) were $1.24{\pm}0.12$ and $1.08{\pm}0.04$ respectively, hence these cytokines inhibited $IL-1{\beta}$(1 ng/ml)-induced bone resorption(the ratio of $^{45}Ca$ release $1.65{\pm}0.24$). While $IL-1{\beta}$(1 ng/ml) increased the number of TRAP positive multinulcleated cells in bone marrow cultures($20{\pm}11$), simultaneously adding $IL-1{\beta}$(1 ng/ml) and IL-10(400 ng/ml) decreased the number of these cells($2{\pm}2$). Nevertheless, IL-10(400 ng/ml) did not affect the IL-6, GM-CSF, and $TNF-{\alpha}$ secretion from $IL-1{\beta}$(1 ng/ml)-activated mouse calvarial cells. From the above results, it may be suggested that IL-10 inhibites $IL-1{\beta}-induced$ osteoclast differntiation and bone resorption. However, the inhibitory effect of IL-10 on the osteoclast formation seems to be mediated not by the reduction of IL-6, GM-CSF, and $TNF-{\alpha}$ production, but by other mechanisms.

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THE EFFECT OF BONE MORPHOGENETIC PROTEIN 2(BMP2) ON THE GROWTH OF CRANIAL BONE AND EARLY MORPHOGENESIS OF THE CRANIAL SUTURE (Bone Morphogenetic Protein 2 가 두개골 성장 및 두개봉합부의 초기형태발생에 미치는 영향)

  • Jung, Hae-Kyung;Park, Mi-Hyun;Ryoo, Hyun-Mo;Nam, Soon-Hyeun;Kim, Young-Jin;Kim, Hyun-Jung
    • Journal of the korean academy of Pediatric Dentistry
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    • v.30 no.2
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    • pp.217-228
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    • 2003
  • Co-ordinate growth of the brain and skull is achieved through a series of tissue interactions between the developing brain, the growing bones of the skull and the sutures that unite the bones. Craniosynostosis, the premature fusion of cranial sutures, presumably involves disturbance of these interactions. Bmp2, one of bone morphogenetic proteins (Bmps), is involved in the regulation of the shapes of individual bones and the relative proportions of the skeleton. Mutations in the homeobox gene Msx2, known as a downstream gene of Bmp, cause Boston-type human craniosynostosis. The phenotype of Dlx5 homozygote mutant mouse presents craniofacial abnormalities including a delayed ossification of calvarial bone. These facts suggest important roles of Bmp2, Msx2 and Dlx5 genes in the cranial bone growth and suture morphogenesis. To elucidate the function of these molecules in the early morphogenesis of mouse cranial sutures, we first analyzed by in situ hybridization the expression of Bmp2(E15-18), Msx2 and Dlx5 genes in the developing sagittal suture of calvaria during the embryonic stage. Bmp2 mRNA was intensely expressed in the osteogenic fronts and also at the low level in the periosteum of parietal bones during embryonic stage, Msx2 mRNA was intensely expressed in the sutural mesenchyme and mildly expressed in the dura mater during the embryonic stage. Dlx5 mRNA was intensely expressed osteogenic fronts and parietal bones. To further examine the role of Bmp signaling in cranial suture, we did in vitro experiments in E15.5 mouse calvarial explants. Interestingly, implantation of Bmp2-soaked beads onto the osteogenic fronts after 48 hours organ culture resulted in the increase of the tissue thickness and cell number around Bmp2 beads, compared to BSA control beads. In addition Bmp2 induced etopic expressions of Msx2 and Dlx5 genes. On the other hand, overexpression of FGF2 did not induce the expression of Msx2 and Dlx5. Taken together, these data indicate that Bmp2 signaling molecule has a important role in regulating the cranial bone growth and early morphogenesis of cranial suture. We also suggest that Bmp signaling is involved in all the stages of osteogenesis of cranial bones and the maintenance of cranial suture by regulating Msx2 and Dlx5 genes, and that Msx2 and Dlx5 genes are specific transcription factors of Bmp signaling pathway.

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Identification of Genes Modulated by High Extracellular Calcium in Coculture of Mouse Osteoblasts and Bone Marrow Cells by Oligo Chip Assay

  • Kim, Hyung-Keun;Song, Mi-Na;Jun, Ji-Hae;Woo, Kyung-Mi;Kim, Gwan-Shik;Baek, Jeong-Hwa
    • International Journal of Oral Biology
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    • v.31 no.2
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    • pp.53-65
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    • 2006
  • Calcium concentration in the bone resorption lacunae is high and is in the mM concentration range. Both osteoblast and osteoclast have calcium sensing receptor in the cell surface, suggesting the regulatory role of high extracellular calcium in bone metabolism. In vitro, high extracellular calcium stimulated osteoclastogenesis in coculture of mouse osteoblasts and bone marrow cells. Therefore we examined the genes that were commonly regulated by both high extracellular calcium and $1,25(OH)_2vitaminD_3(VD3)$ by using mouse oligo 11 K gene chip. In the presence of 10 mM $[Ca^{2+}]e$ or 10 nM VD3, mouse calvarial osteoblasts and bone marrow cells were co-cultured for 4 days when tartrate resistant acid phosphatase-positive multinucleated cells start to appear. Of 11,000 genes examined, the genes commonly regulated both by high extracellular calcium and by VD3 were as follows; 1) the expression of genes which were osteoclast differentiation markers or were associated with osteoclastogenesis were up-regulated both by high extracellular calcium and by VD3; trap, mmp9, car2, ctsk, ckb, atp6b2, tm7sf4, rab7, 2) several chemokine and chemokine receptor genes such as sdf1, scya2, scyb5, scya6, scya8, scya9, and ccr1 were up-regulated both by high extracellular calcium and by VD3, 3) the genes such as mmp1b, mmp3 and c3 which possibly stimulate bone resorption by osteoclast, were commonly up-regulated, 4) the gene such as c1q and msr2 which were related with macrophage function, were commonly down-regulated, 5) the genes which possibly stimulate osteoblast differentiation and/or mineralization of extracellular matrix, were commonly down-regulated; slc8a1, admr, plod2, lox, fosb, 6) the genes which possibly suppress osteoblast differentiation and/or mineralization of extracellular matrix, were commonly up-regulated; s100a4, npr3, mme, 7) the genes such as calponin 1 and tgfbi which possibly suppress osteoblast differentiation and/or mineralization of extracellular matrix, were up-regulated by high extracellular calcium but were down-regulated by VD3. These results suggest that in coculture condition, both high extracellular calcium and VD3 commonly induce osteoclastogenesis but suppress osteoblast differentiation/mineralization by regulating the expression of related genes.

THE EXPRESSION PATTERN OF BMPS AND THEIR RECEPTORS IN CALVARIAL SUTURE DEVELOPMENT (두개봉합부의 초기형태발생과정에서 BMP와 그 수용체의 발현 양상)

  • Yune, Yang-Ha;Lee, Sang-Won;Park, Mi-Hyun;Ryoo, Hyun-Mo;Nam, Soon-Hyeun;Kim, Young-Jin;Kim, Hyun-Jung
    • Journal of the korean academy of Pediatric Dentistry
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    • v.29 no.3
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    • pp.345-353
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    • 2002
  • Bone morphogenetic proteins(BMPs) are secretory signal molecules which have a variety of regulatory functions during morphogenesis and cell differentiation. To evaluate roles of BMPs and their receptors on mouse sagittal suture development, we have examined their expression patterns in serial sections of sagittal sutures by in situ hybridization during embryonic stages(E15-E18). BMP-2 and BMP-3 were expressed in the osteogenic front and parietal bone on embryonic 15day, from E16 in hair follicle. BMP-4 was strongly expressed in the osteogenic front and weakly expressed in the mesenchyme and parietal bone. BMP-S was expressed in the hair follicles. BMP-6 was not expressed in this study. BMP-7 was expressed in parietal bone during embryonic stage. BMPR-IB was expressed in the osteogenic front, but BMPR-IA was not. From these datas, we suggest that the BMP-4 regulates the early commitment of mesenchymal cells to the osteogenic lineages, the BMP-2 and BMP-3 may be involved in regulating the differentiation of osteoblast precursor cells. BMP-7 was involved in maintenance of differentiated osteoblasts. BMPs were key signaling molecules that regulate early calvarial bone morphogenesis, mediated by BMPR-IB.

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THE EFFECT OF FGF-MEDIATED FGFR SIGNALING ON THE EARLY MORPHOGENESIS AND MAINTENANCE OF THE CRANIAL SUTURE (FGF-mediated FGFR signaling이 두개봉합부의 초기형태발생 및 유지기전에 미치는 영향)

  • Sue, Kyung-Hwan;Park, Mi-Hyun;Ryoo, Hyun-Mo;Nam, Soon-Hyeun;Kim, Young-Jin;Kim, Hyun-Jung
    • Journal of the korean academy of Pediatric Dentistry
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    • v.26 no.4
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    • pp.652-663
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    • 1999
  • Craniosynostosis, the premature fusion of cranial sutures, presumably involves disturbance of the interactions between different tissues within the cranial sutures. Interestingly, point mutaions in the genes encoding for the fibroblast growth factor receptors(FGFRs), especially FGFR2, cause various types of human craniosynostosis syndromes. To elucidate the function of these genes in the early morphogenesis of mouse cranial sutures, we first analyzed by in situ hybridization the expression of FGFR2(BEK) and osteopontin, an early marker of osteogenic differentiation, in the sagittal suture of calvaria during embryonic(E15-E18) and postnatal stage(P1-P3). FGFR2(BEK) was intensely expressed in the osteogenic fronts, whose cells undergo differentiation into osteoprogenitor cells that ultimately lay down the bone matrix. Osteopontin was expressed throughout the parietal bones excluding the osteogenic fronts, the periphery of the parietal bones. To further examine the role of FGF-mediated FGFR signaling in cranial suture, we did in vitro experiments in E15.5 mouse calvarial explants. Interestingly, implantation of FGF2 soaked beads onto both the osteogenic fronts and mid-mesenchyme of sagittal suture after 36 hours organ culture resulted in the increase of the tissue thickness and cell number around FGF2 beads, moreover FGF4-soaked beads implanted onto the osteogenic fronts stimulated suture closure due to an accelerated bone growth, compared to FGF4 beads placed onto mid-mesenchyme of sagittal suture and BSA control beads. In addition FGF2 induced the ectopic expression of osteopontin and Msx1 genes. Taken together, these data indicate that FGF-mediated FGFR signaling has a important role in regulating the cranial bone growth and maintenance of cranial suture, and suggest that FGF-mediated FGFR signaling is involved in regulating the balance between the cell proliferation and differentiation through inducing the expression of osteopontin and Msx1 genes.

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