Osteoclastogenic activity and RANKL expression are inhibited in osteoblastic cells expressing constitutively active Gα12 or constitutively active RhoA

Gα₁₂–RhoA signaling is a parathyroid hormone (PTH)‐stimulated pathway that mediates effects in bone and may influence genetic susceptibility to osteoporosis. To further elucidate effects of the pathway in osteoblasts, UMR‐106 osteoblastic cells were stably transfected with constitutively active (ca) Gα₁₂ or caRhoA or dominant negative (dn) RhoA and co‐cultured with RAW 264.7 cells to determine effects on hormone‐stimulated osteoclastogenesis. Whereas PTH and calcitriol‐stimulated osteoclastogenesis in co‐cultures with UMR‐106 cells expressing pcDNA or dominant negative RhoA, the osteoclastogenic effects of PTH and calcitriol were significantly attenuated when the UMR‐106 cells expressed either caRhoA or caGα₁₂. These inhibitory effects were partially reversed by the Rho kinase inhibitor Y27632. None of the constructs affected osteoclastogenesis in untreated co‐cultures, and the constructs did not inhibit the osteoclastogenic responses to receptor activator of NFκB ligand (RANKL). To investigate the mechanism of the inhibitory effects of caGα₁₂ and caRhoA, expression of RANKL, osteoprotegerin (OPG), osteopontin (OPN), and intercellular adhesion molecule‐1 (ICAM) in response to PTH or calcitriol was examined in the UMR‐106 cells. In the cells expressing pcDNA or dnRhoA, PTH and calcitriol increased RANKL mRNA and decreased OPG mRNA, whereas these effects were absent in the cells expressing caGα₁₂ or caRhoA. Basal expression of RANKL and OPG was unaffected by the constructs. The results suggest that Gα₁₂–RhoA signaling can inhibit hormone‐stimulated osteoclastogenesis by effects on expression of RANKL and OPG. Since PTH can stimulate the Gα₁₂–RhoA pathway, the current findings could represent a homeostatic mechanism for regulating osteoclastogenic action. J. Cell. Biochem. 111: 1531–1536, 2010. © 2010 Wiley‐Liss, Inc.     

PTH/cAMP/PKA signaling facilitates canonical Wnt signaling via inactivation of glycogen synthase kinase-3beta in osteoblastic Saos-2 cells

Although the intermittent administration of PTH is known to stimulate the bone formation, the underlying mechanisms are not fully understood. Here we investigated the crosstalk between PTH/cAMP signaling and canonical Wnt signaling using the human osteoblastic cell line Saos-2. Treatment with PTH or forskolin, an activator of adenylate cyclase, facilitated T-cell factor (TCF)-dependent transactivation in a dose-dependent manner, which was abolished by pre-treatment with a PKA inhibitor, H89. Wnt3a and forskolin synergistically increased the TCF-dependent transactivation. Interestingly, intermittent treatment with PTH enhanced the TCF-dependent transactivation more profoundly than continuous treatment. In addition to the effects on TCF-dependent reporter activity, treatment with PTH or forskolin resulted in the increased expression of endogenous targets of Wnts, Wnt-induced secreted protein 2 (WISP2) and naked cuticle 2 (NKD2). We then investigated the convergence point of PTH/cAMP signaling and the canonical Wnt pathway. Western blotting demonstrated that GSK-3beta was rapidly phosphorylated at Ser(9) on treatment with PTH or forskolin, leading to its inactivation. Moreover, overexpression of a constitutively active mutant of GSK-3beta abolished the TCF-dependent transactivation induced by forskolin. On the other hand, overexpression of the Wnt antagonist Dickkopf-1 (DKK1) failed to cancel the effects of forskolin on the canonical Wnt pathway. Interestingly, treatment with Wnt3a markedly reduced the forskolin-induced expression of receptor activator of NF-kappaB ligand (RANKL), a target gene of PTH/cAMP/PKA. These results suggest that cAMP/PKA signaling activates the canonical Wnt pathway through the inactivation of GSK-3beta, whereas Wnt signaling might inhibit bone resorption through a negative impact on RANKL expression in osteoblasts.     

Protein expression and functional difference of membrane-bound and soluble receptor activator of NF-kappaB ligand: modulation of the expression by osteotropic factors and cytokines

A variety of humoral factors modulate the osteoclastogenesis. Receptor activator of NF-kappaB ligand (RANKL) expressed on osteoblast/stromal lineage cells plays a pivotal role to transduce an essential differentiation signal to osteoclast lineage cells through binding to its receptor, RANK, expressed on the latter cell population; however, the difficulty to detect RANKL protein expression hampers us in investigating the regulation of RANKL expression by humoral factors. To determine protein expression of RANKL, we have established a new method, named as a ligand-receptor precipitation (LRP) Western blot analysis, which can specifically concentrate the target protein by the use of specific binding characteristic between RANKL and RANK/osteoprotegrin (OPG). RANKL protein expression in the postnuclear supernatant was not detected by common Western blotting, but LRP Western blot analysis clearly showed that RANKL is produced as a membrane-bound protein on murine osteoblasts/stromal cells, and cleaved into a soluble form by metalloprotease. Cytokines stimulating the osteoclastogenesis, such as IL-1beta, IL-6, IL-11, IL-17, and TNF-alpha, increased the expression of RANKL with decrease of OPG expression in osteoblasts/stromal cells. In contrast, cytokines inhibiting the osteoclastogenesis, such as IL-13, INF-gamma, and TGF-beta1 suppressed the expression of RANKL and/or augmented OPG expression. Functional difference between membrane-bound and soluble RANKL was demonstrated, which showed that membrane-bound RANKL works more efficiently than soluble RANKL in the osteoclastogenesis developed from murine bone marrow cell culture. The present study indicates the usefulness of LRP Western blot analysis, which shows that the modulation of osteoclastogenesis by humoral factors is achieved, in part, by regulation of the expression of RANKL and OPG in osteoblast/stromal lineage cells.     

Effects of the administration of corticosterone,parathyroid hormone,or both,and of their withdrawal,on rat bone and cartilage histomorphometric parameters,and on osteoprotegerin and RANKL mRNA expression and proteins

We have studied the effects of the treatment with corticosterone (CORT), parathyroid hormone (PTH), or both (CORT + PTH), and of their withdrawal (CORT-rec and CORT + PTH-rec), on the osteoprotegerin (OPG) and receptor activator of nuclear factor-kB ligand (RANKL) localization and expression and on histomorphometric parameters in primary and secondary spongiosa of rat femur and tibia metaphyses. In the secondary spongiosa of the CORT group, the bone remodeling and the OPG/RANKL mRNA ratio decreased. In the PTH group, the bone turnover and the structural and connectivity indices increased, and the OPG/RANKL mRNA ratio fell; this ratio rose, however, in the primary spongiosa. In the CORT + PTH group, remodeling values intermediate between those of the CORT and PTH groups, were detected in the secondary spongiosa, where OPG and RANKL mRNA rose. Return towards control values was found in the recovery groups. The Cartilage Growth Plate Width was reduced in the CORT and CORT + PTH groups and returned to normal values in the recovery groups, while it was not affected by PTH. Independently of treatments, both OPG and RANKL mRNA and proteins were co-localized in the same cartilage and bone cells and in several bone marrow cells. In conclusion, the catabolic effects induced by CORT treatment occur together with an OPG fall and a RANKL rise. In the PTH group in which the bone turnover increase, the OPG and RANKL mRNA expressions differ in the primary and secondary spongiosa, confirming that the bone tissue in these sites can have different metabolic trends.     

Effects of arachidonic acid, docosahexaenoic acid, prostaglandin E(2) and parathyroid hormone on osteoprotegerin and RANKL secretion by MC3T3-E1 osteoblast-like cells

Bone is continuously remodeled through resorption by osteoclasts and the subsequent synthesis of the bone matrix by osteoblasts. Cell-to-cell contact between osteoblasts and osteoclast precursors is required for osteoclast formation. RANKL (receptor activator of nuclear factor-kappaB ligand) expressed on osteoblastic cell membranes stimulates osteoclastogenesis, while osteoprotegerin (OPG) secreted by osteoblasts inhibits osteoclastogenesis. Although polyunsaturated fatty acids (PUFAs) have been implicated in bone homeostasis, the effects thereof on OPG and RANKL secretion have not been investigated. MC3T3-E1 osteoblasts were exposed to the n-6 PUFA arachidonic acid (AA) and the n-3 PUFA docosahexaenoic acid (DHA); furthermore, the bone-active hormone parathyroid hormone (PTH) and the effects thereof were tested on OPG and RANKL secretion. Prostaglandin E(2) (PGE(2)), a product of AA metabolism that was previously implicated in bone homeostasis, was included in the study. AA (5.0-20 microg/ml) inhibited OPG secretion by 25-30%, which was attenuated by pretreatment with the cyclooxygenase blocker indomethacin, suggesting that the inhibitory effect of AA on OPG could possibly be PGE(2)-mediated. MC3T3-E1 cells secreted very low basal levels of RANKL, but AA stimulated RANKL secretion, thereby decreasing the OPG/RANKL ratio. DHA suppressed OPG secretion to a smaller extent than AA. This could, however, be due to endogenous PGE(2) production. No RANKL could be detected after exposing the MC3T3-E1 cells to DHA. PTH did not affect OPG secretion, but stimulated RANKL secretion. This study demonstrates that AA and PTH reduce the OPG/RANKL ratio and may increase osteoclastogenesis. DHA, however, had no significant effect on OPG or RANKL in this model.     

Induction of Mx protein in Atlantic cod with poly I:C: immuno-cross reactive studies of antibodies to Atlantic salmon Mx with Atlantic cod

A polyclonal rabbit antiserum directed against the conserved region of the Atlantic salmon antiviral Mx1 protein was used to detect the putative Atlantic cod Mx protein using Western and dot blotting. A doublet band at about 75kDa and 65kDa was detected by Western blotting in kidney and spleen extracts of cod 3 and 4 days after i.p. injection with poly I:C but not in control fish injected with PBS. In blood leucocyte lysates, similar immunostaining could also be detected in Atlantic cod weakly after injection with PBS and more intensely after injection with poly I:C, suggesting some constitutive expression of Mx protein by leucocytes. Dot blot analysis showed that the Mx protein level was significantly higher in spleen, kidney, liver and gill of cod at least up to 4 days after injection with poly I:C when compared with the PBS-injected controls.     

Mediators of the biphasic responses of bone to intermittent and continuously administered parathyroid hormone

Parathyroid hormone (PTH) has biphasic effects on bone: continuous treatment is catabolic whereas intermittent treatment is anabolic. The mechanism(s) responsible for these differing effects are still unclear, partly because of the previous non-availability of a model system in which effects on both formation and resorption indices could be studied concomitantly. In cultured marrow cells from 6-week old C57BL/6 mice, we demonstrated that 4 days of intermittent PTH treatment increased mRNA for osteoblast differentiation markers (Runx2, alkaline phosphatase (AP), and type I procollagen (COL1A1) whereas continuous treatment resulted in production of large numbers of TRAP-positive multinucleated osteoclasts. Although IGF-I mRNA did not increase after intermittent treatment, it was consistently higher than after continuous treatment, and the addition of an anti-IGF-I neutralizing antibody prevented the increase in bone formation indices observed with intermittent treatment. By contrast, after continuous treatment, gene expression of RANK ligand (RANKL) was increased and that of osteoprotegerin (OPG) was decreased, resulting in a 25-fold increase in the RANKL/OPG ratio. In this model system, the data suggest that intermittent PTH treatment enhances osteoblast differentiation through an IGF-I dependent mechanism and continuous PTH treatment enhances osteoclastogenesis through reciprocal increases in RANKL and decreases in OPG.     

Interleukin 6 and/or Interleukin 17A Modulate the OPG/RANKL System of MC3T3-E1 Murine Osteoblast Cell Line

Cytokines such as interleukin-6 (IL-6) and IL-17 which act as key regulators of the immune response have been identified to have a potential role in the bone remodeling mechanism. Receptor activator of NF-κB ligand (RANKL) has been shown to regulate osteoclast differentiation and function while the osteoprotegerin (OPG) blocks the binding of RANKL and inhibits the differentiation of osteoclasts, thus favoring osteogenesis. Alkaline phosphatase (ALP) on the other hand works as early mineralization indicator in bone regulation. The current study aims to determine the potential role of IL-6 and IL-17A in regulating the OPG/RANKL system of the murine osteoblast cell line (MC3T3-E1). Gene expression analysis showed significant up-regulation of OPG and ALP by all the treated groups (rIL-6, rIL-17A and rIL-6 + rIL-17A). In contrast, treatment of cells with rIL-6 and/or rIL-17A showed down-regulation of RANKL expression. Interestingly, the osteoblast cells treated with combinations of rIL-6 + rIL17A showed marked increased in OPG/RANKL ratio. Similar pattern of protein expression was observed in the osteoblasts treated with rIL-6 and/or rIL-17A as detected by western blotting and ELISA. These findings suggest a new mechanism of regulation by these cytokines on the expression of OPG and RANKL, which could promote osteogenesis and diminish osteoclastogenesis.     

Effects of immunosuppressants on receptor activator of NF-kappaB ligand and osteoprotegerin production by human osteoblastic and coronary artery smooth muscle cells

Osteoporosis and vasculopathy are common after organ transplantation and have been largely attributed to the use of immunosuppressants. Osteoprotegerin (OPG) is produced by osteoblastic and arterial cells, and inhibits osteoclast functions by neutralizing receptor activator of NF-kappaB ligand (RANKL). Because OPG-deficient mice develop osteoporosis and arterial calcification, we assessed the effects of immunosuppressants on OPG and RANKL expression by human osteoblastic and coronary artery smooth muscle cells (CASMC). Cyclosporine A, rapamycin, and FK-506 decreased OPG mRNA and protein levels in undifferentiated marrow stromal cells (by 63, 44, and 68%, respectively, P < 0.001). All three immunosuppressants increased RANKL mRNA levels in these cells by 60 to 210%. In contrast to these effects on marrow stromal cells, rapamycin, which may be relatively bone-sparing, increased OPG mRNA and protein production (by 120%, P < 0.001) in mature osteoblastic cells. Cyclosporine A also decreased OPG mRNA and protein production (by 52%, P < 0.001) of CASMC. In conclusion, immunosuppressants decrease OPG mRNA and protein production and increase RANKL gene expression by marrow stromal cells, and cyclosporine suppresses OPG production in CASMC. These studies thus provide a potential mechanism for immunosuppressant-induced bone loss, and the propensity of cyclosporine A to cause vascular disease.     

In vivo administration of 1,25-dihydroxyvitamin D3 suppresses the expression of RANKL mRNA in bone of thyroparathyroidectomized rats constantly infused with PTH

It is known that pharmacological or toxic doses of vitamin D induce bone resorption both in vivo and in vitro, whereas physiological doses of the vitamin have a protective effect on bone in vivo. To investigate the discrepancies of the dose-dependent effect of vitamin D on bone resorption, we examined the in vivo effect of 1,25-dihydroxyvitamin D(3) [1,25(OH)(2)D(3)] on the expression of the receptor activator of nuclear factor-kappaB (NF-kappaB) ligand (RANKL) and osteoprotegerin (OPG) mRNAs in bone of thyroparathyroidectomized (TPTX) rats infused with or without parathyroid hormone (PTH). Continuous infusion of 50 ng/h of PTH greatly increased the expression of RANKL mRNA in bone of TPTX rats. Expression of OPG mRNA was not altered by PTH infusion. When graded doses of 1,25(OH)(2)D(3) was daily administered orally for 14 days to normocalcemic TPTX rats constantly infused with PTH, 0.01 and 0.1 microg/kg of 1,25(OH)(2)D(3) inhibited the PTH-induced RANKL mRNA expression, but 0.5 microg/kg of the vitamin did not inhibit it. Regulator of G protein signaling-2 (RGS-2) gene expression was suppressed by 1,25(OH)(2)D(3) dose-dependently, but PTH/PTHrP receptor mRNA expression was not altered. Bone morphometric analyses revealed that 1,25(OH)(2)D(3) suppressed PTH-induced osteoclast number in vivo. These results suggest that pharmacological or toxic doses of 1,25(OH)(2)D(3) stimulate bone resorption by inducing RANKL, but a certain range of physiological doses of the vitamin inhibit PTH-induced bone resorption, the latter mechanism appeared to be mediated, at least in part, by the suppression of the PTH/PTHrP receptor-mediated signaling.     

巴戟天及其糖提取物对于体外培养成骨细胞OPG/RANKL基因系统表达的影响

目的:探讨巴戟天及多糖提取物对成骨细胞骨保护素(OPG)/核因子κB受体活化因子配体(RANKL)基因系统表达的影响。方法:取2~3天的SD大鼠5只分离原代成骨细胞,再取8周龄SD大鼠35只随机分为七组,对照组不进行处理,三组给予10 g/L、50 g/L、100 g/L巴戟天水灌胃,其余三组分别给予10 g/L、50 g/L、100 g/L巴戟天多糖灌胃,72 h后采用采用ELISA法测定培养液中OPG、RANKL及骨钙素的含量,采用MTT法检测不同浓度巴戟天水及多糖提取物对大鼠成骨细胞增殖的影响,采用荧光定量PCR检测OPG和RANKL mRNA表达情况;通过Westernblot检测OPG和RANKL蛋白表达水平。结果:巴戟天水及多糖提取物组A570nm、ALP活性、骨钙素含量、OPG/RANKL mRNA表达量、OPG和RANKL蛋白表达阳性密度均高于对照组(P0.05);A 570 nm、ALP活性、骨钙素含量、OPG/RANKL mRNA表达量、OPG和RANKL蛋白表达阳性密度均高于同等剂量的水提取物各组(P0.05);巴戟天多糖组中随着多糖剂量的升高A 570 nm、ALP活性、骨钙素含量、OPG/RANKL mRNA表达量、OPG和RANKL蛋白表达阳性密度,差异比较有统计学意义(P0.05)。结论:巴戟天水及多糖提取物均能促进体外培养成骨细胞的增殖,提高成骨细胞活性。     

The OPG/RANKL/RANK system in metabolic bone diseases

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.     

Expression of osteoprotegerin and receptor activator for the nuclear factor-κB ligand in XACB/LV-bFGF/MSCs transplantation for repair of rabbit femoral head defect necrosis

The aim of this study is to observe the changes in osteoprotegerin (OPG) and receptor activator for the nuclear factor-κB ligand (RANKL) in a rabbit model, and to explore the therapeutic effect of tissue engineering bone on femoral head necrosis. A total of 60 rabbits were randomly divided into 5 groups. The necrosis model of femoral head defects was created by dexamethasone combined with a horse serum injection. The model of femoral head necrosis was reconstructed by tissue engineering bone. The protein expressions of OPG and RANKL were detected by Western blot analysis. The expression of OPG and the RANKL protein in group E was higher than that in the other 4 groups (P < .05); there was no significant difference between groups C and D ( P > .05). The expression of OPG protein in the rabbit femoral head necrosis group was improved by xenogeneic antigens of cancellous bone/lentiviral-basic fibroblast growth factor/mesenchymal stem cells, which were expected to be used as an effective tissue engineering material to repair the necrosis of the femoral head.     

Regulation of RANKL by biomechanical loading in fibrochondrocytes of meniscus

OBJECTIVE: We sought to determine whether fibrochondrocytes from menisci express receptor activator of NF-kappaB (RANK), its ligand (RANKL), or osteoprotegerin (OPG) and, if so, whether their expression is modulated by dynamic mechanical loading under inflammatory and normal conditions. METHODS: Fibrochondrocytes from rat menisci were subjected to cyclic tensile strain (CTS) at various magnitudes and frequencies in the presence or absence of interleukin (IL)-1beta for up to 24 h. In order to determine whether a possible regulatory effect of mechanical loading on RANKL and its receptors under inflamed conditions is sustained, cells were stimulated with IL-1beta for 24 h while being subjected to CTS only for the initial 4 and 8h, respectively. Regulation of RANKL, RANK, and OPG expression and synthesis were determined by semiquantitative and real-time PCR, Western blotting, and immunofluorescence. RESULT: Fibrochondrocytes constitutively expressed low levels of RANKL and RANK but marked levels of OPG. IL-1beta upregulated expression and synthesis of RANKL and RANK significantly (p<0.05), whereas expression of OPG was unaffected following 4 and 24 h. When fibrochondrocytes were simultaneously subjected to CTS and IL-1beta, expression of RANKL and RANK was significantly (p<0.05) downregulated as compared to that of IL-1beta-stimulated unstretched cells. The inhibitory effect of CTS on the IL-1beta-induced upregulation of RANKL and RANK was sustained as well as magnitude and frequency dependent. CONCLUSIONS: Our study provides evidence that RANKL and its receptors are expressed in fibrochondrocytes from meniscus. These data also demonstrate that dynamic mechanical loading can modify the expression of RANKL and RANK in inflammatory conditions.     

钛颗粒对小鼠颅骨OPG/RANKL mRNA及蛋白表达的影响

目的:观察钛颗粒对小鼠颅骨中OPG/RANKL mRNA及其蛋白表达的影响,探讨关节置换术后骨溶解的发生机制。方法:取成年BALB/C小鼠40只,随机分为假手术组、钛颗粒低剂量组、钛颗粒中剂量组及高剂量组,每组10只。除假手术组外,其余各组分别将钛颗粒15、30、60 mg涂抹于小鼠颅骨表面后缝合切口。8周后取颅骨组织及外周血,运用real-time PCR及ELISA技术测定OPG/RANKL基因及蛋白表达情况。结果:与假手术组相比,钛颗粒低剂量组外周血中OPG蛋白表达及颅骨组织中OPG mRNA的表达均显著上升(P0.01),外周血中RANKL蛋白表达降低,但无统计学差异,颅骨组织中RANKL mRNA表达无显著差异;中剂量组及高剂量组外周血中OPG蛋白表达显著降低(p0.01),RANKL蛋白表达显著升高(P0.01),OPG mRNA表达显著降低(P0.01),RANKL mRNA表达显著升高(P0.01)。低中高三种不同剂量钛颗粒组组间相比,外周血中OPG、RAKNL蛋白及颅骨组织中其mRNA表达均存在明显差异(P0.01),高剂量组对OPG、RANKL蛋白及mRNA表达的影响更显著。结论:钛颗粒可以改变OPG/RANKL的mRNA及蛋白表达量,这可能是其导致关节置换术后体骨溶解进而产生松动的原因之一。