One Year of Transgenic Overexpression of Osteoprotegerin in Rats Suppressed Bone Resorption and Increased Vertebral Bone Volume, Density, and Strength* (original) (raw)
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Endocrinology, 2001
PTH is a potent bone anabolic factor, and its combination with antiresorptive agents has been proposed as a therapy for osteoporosis. We tested the effects of PTH, alone and in combination with the novel antiresorptive agent OPG, in a rat model of severe osteopenia. Sprague Dawley rats were sham-operated or ovariectomized at 3 months of age. Rats were untreated for 15 months, at which time ovariectomy had caused significant decreases in bone mineral density in the lumbar vertebrae and femur. Rats were then treated for 5.5 months with vehicle (PBS), human PTH-(1-34) (80 g/kg), rat OPG (10 mg/kg), or OPG plus PTH (all three times per wk, sc). Treatment of ovariectomized rats with OPG or PTH alone increased bone mineral density in the lumbar vertebrae and femur, whereas PTH plus OPG caused significantly greater and more rapid increases than either therapy alone (P < 0.05). OPG significantly reduced osteoclast surface in the lumbar vertebrae and femur (P < 0.05 vs. sham or ovariectomized), but had no effect on osteoblast surface at either site. Ovariectomy significantly decreased the mechanical strength of the lumbar vertebrae and femur. In the lumbar vertebrae, OPG plus PTH was significantly more effective than PTH alone at reversing ovariectomy-induced deficits in stiffness and elastic modulus. These data suggest that OPG plus PTH represent a potentially useful therapeutic option for patients with severe osteoporosis. Abbreviations: BMD, Bone mineral density; BV/TV, cancellous bone volume assessed as a percentage of the total bone tissue volume; DEXA, dual energy x-ray absorptiometry; HRT, hormone replacement therapy; OPGL, OPG ligand; OVX, ovariectomized/ovariectomy.
Bone, 2009
Orchiectomized (ORX) rats were used to examine the extent to which their increased bone resorption and decreased bone density might relate to increases in RANKL, an essential cytokine for bone resorption. Serum testosterone declined by N 95% in ORX rats 1 and 2 weeks after surgery (p b 0.05 versus sham controls), with no observed changes in serum RANKL. In contrast, RANKL in bone marrow plasma and bone marrow cell extracts was significantly increased (by ∼ 100%) 1 and 2 weeks after ORX. Regression analyses of ORX and sham controls revealed a significant inverse correlation between testosterone and RANKL levels measured in marrow cell extracts (R = − 0.58), while marrow plasma RANKL correlated positively with marrow plasma TRACP-5b, an osteoclast marker (R = 0.63). The effects of RANKL inhibition were then studied by treating ORX rats for 6 weeks with OPG-Fc (10 mg/kg, twice/week SC) or with PBS, beginning immediately after surgery. Sham controls were treated with PBS. Vehicle-treated ORX rats showed significant deficits in BMD of the femur/tibia and lower trabecular bone volume in the distal femur (p b 0.05 versus sham). OPG-Fc treatment of ORX rats increased femur/tibia BMD and trabecular bone volume to levels that significantly exceeded values for ORX or sham controls. OPG-Fc reduced trabecular osteoclast surfaces in ORX rats by 99%, and OPG-Fc also prevented ORX-related increases in endocortical eroded surface and ORX-related reductions in periosteal bone formation rate. Micro-CT of lumbar vertebrae from OPG-Fc-treated ORX rats demonstrated significantly greater cortical and trabecular bone volume and density versus ORX-vehicle controls. In summary, ORX rats exhibited increased RANKL protein in bone marrow plasma and in bone marrow cells, with no changes in serum RANKL. Data from regression analyses were consistent with a potential role for testosterone in suppressing RANKL production in bone marrow, and also suggested that soluble RANKL in bone marrow might promote bone resorption. RANKL inhibition prevented ORX-related deficits in trabecular BMD, trabecular architecture, and periosteal bone formation while increasing cortical and trabecular bone volume and density. These results support the investigation of RANKL inhibition as a strategy for preventing bone loss associated with androgen ablation or deficiency.
Journal of Molecular Histology, 2005
Osteoprotegerin (OPG) and the receptor activator of nuclear factor (NF)-kB ligand (RANKL) are key regulators of osteoclastogenesis. The present study had the main aim of showing the localization of OPG and RANKL mRNA and protein in serial sections of the rat femurs and tibiae by immunohistochemistry (IHC) and in situ hybridization (ISH). The main results were: (1) OPG and RANKL mRNA and protein were co-localized in the same cell types, (2) maturative/hypertrophic chondrocytes, osteoblasts, lining cells, periosteal cells and early osteocytes were stained by both IHC and ISH, (3) OPG and RANKL proteins were mainly located in Golgi areas, and the ISH reaction was especially visible in active osteoblasts, (4) immunolabeling was often concentrated into cytoplasmic vacuoles of otherwise negative proliferative chondrocytes; IHC and ISH labeling increased from proliferative to maturative/hypertrophic chondrocytes, (5) the newly laid down bone matrix, cartilage-bone interfaces, cement lines, and trabecular borders showed light OPG and RANKL immunolabeling, (6) about 70% of secondary metaphyseal bone osteocytes showed OPG and RANKL protein expression; most of them were ISH-negative, (7) osteoclasts were mostly unstained by IHC and variably labeled by ISH. The co-expression of OPG and RANKL in the same bone cell types confirms their strictly coupled action in the regulation of bone metabolism. J Mol Hist (2005) 36:59-67 Ó Springer 2005
The effects of osteoprotegerin on the mechanical properties of rat bone
Journal of Materials Science: Materials in Medicine, 2001
Osteoprotegerin (OPG) is a naturally secreted protein that decreases bone resorption by inhibiting osteoclast differentiation and activation while promoting osteoclast apoptosis [8]. In this study, the effects of osteoprotegerin injections on long bone mechanical and material properties were investigated in young male Sprague-Dawley rats. OPG increased fracture strength at the femur mid-diaphysis in three-point bending by 30%, without affecting the elastic or maximum strength. At the femoral neck, OPG signi®cantly increased the elastic (45%), maximum (15%), and fracture (35%) strengths. There was not a difference in microhardness at the femur mid-diaphysis in comparing the placebo and OPG groups. There were, however, signi®cant increases in whole bone dry mass (25%), mineral mass (30%), organic mass (17%), and percent mineralization (4%); percent mineralization at the middiaphysis (3%); and percent mineralization at the distal epiphysis (6%) due to the OPG treatment. While OPG decreased endocortical bone formation (52%), total bone area, endocortical bone area, and periosteal bone formation were maintained with OPG treatment. A 30% increase in the X-ray opacity of the bone at the proximal metaphysis of the right tibiae was observed. Overall, OPG increased mineralization and strength indices in the rat femur. Its effects on strength were more pronounced in the femoral neck than at the mid-diaphysis.
RANKL/OPG; Critical role in bone physiology
Reviews in Endocrine and Metabolic Disorders, 2015
After it was proposed that the osteoblast lineage controlled the formation of osteoclasts, cell culture methods were developed that established this to be the case. Evidence was obtained that cytokines and hormones that promote osteoclast formation act first on osteoblast lineage cells to promote the production of a membrane-bound regulator of osteoclastogenesis. This proved to be receptor activator of NF-kB ligand (RANKL) a member of the tumor necrosis factor ligand family that acts upon its receptor RANK in the hematopoietic lineage, with interaction restricted by a decoy soluble receptor osteoprotegerin (OPG), also a product of the osteoblast lineage. The physiological roles of these factors were established through genetic and pharmacological studies, have led to a new physiology of bone, with complete revision of older ideas over the last 15 years, ultimately leading to the development of new pharmaceutical agents for bone disease.
Osteoprotegerin Regulates Bone Formation through a Coupling Mechanism with Bone Resorption
Endocrinology, 2003
Deficiency of osteoprotegerin (OPG), a soluble decoy receptor for receptor activator of nuclear factor-B ligand (RANKL), in mice induces osteoporosis caused by enhanced bone resorption, but also accelerates bone formation. We examined whether bone formation is coupled with bone resorption in OPG-deficient (OPG ؊/؊ ) mice using risedronate, an inhibitor of bone resorption. Histomorphometric analysis showed that bone formation-related parameters (e.g. mineral apposition rate and osteoblast surface/bone surface) in OPG ؊/؊ mice sharply decreased with suppression of bone resorption by daily injection of risedronate for 30 d. OPG ؊/؊ mice exhibited high serum alkaline phosphatase activity and osteocalcin con-centration, both of which were decreased to the levels in wildtype mice by the risedronate injection. Serum levels of RANKL were markedly elevated in OPG ؊/؊ mice, but were unaffected by risedronate. The ectopic bone formation induced by bone morphogenetic protein-2 implantation into OPG ؊/؊ mice was not accelerated even with a high turnover rate of bone, but attenuation of mineral density from the ectopic bone was more pronounced than that in wild-type mice. These results suggest that bone formation is coupled with bone resorption at local sites in OPG ؊/؊ mice, and that serum RANKL levels do not reflect this coupling. Abbreviations: ALP, Alkaline phosphatase; BMD, bone mineral density; OPG, osteoprotegerin; RANKL, receptor activator of nuclear factor-B ligand; rh, recombinant human; WT, wild-type.
Serum osteoprotegerin and its relationship with bone mineral density and markers of bone turnover
Osteoporosis International, 2005
Introduction: The purpose of this study was to compare age-related differences in osteoprotegerin (OPG) in relationship with BMD and the serum bone markers osteocalcin (OC), collagen crosslinks (CTX), and tartrate-resistant acid phosphatase 5b (TRACP-5b). Methods: Data were derived from a cross-sectional study on bone health in a random sample of communitydwelling adults aged 30 to 85 years in the Reykjavik area in Iceland. All subjects had whole body, hip, and lumbar spine BMD measured (by DXA), gave blood samples, and answered a thorough questionnaire on medications and medical history. We assessed relationships using the Spearman correlation coefficient, partial correlation, and multivariable linear regression. Men and women were analyzed separately. Results: Of 2,310 subjects invited over 2 years, 1,630 participated. After excluding individuals with diseases and medications affecting bone metabolism, 517 women (age 56.1 ± 16.9 years) and 491 men (age 58.7 ± 14.9 years) remained for analysis. OPG increased steadily with age in both genders without a gender difference. In women, BMD at all sites declined steadily after age 50. In men, BMD remained relatively stable until age 70, after which it declined significantly. After controlling for age, BMI, and other confounding variables, OPG showed only a borderline positive relationship with whole body BMD in men (P=0.10), but the relationship was nonsignificant in women. In mul-tivariable models, OPG was inversely related to TRACP-5b (P=0.002) and positively with OC (P=0.007), the OC/TRACP-5b (P=0.001) and OC/ CTX (P=0.02) ratios in women. Among men, multivariable models showed a positive association between OPG and OC (P=0.05) and OC/TRACP-5b (P<0.009). Conclusions: We conclude that serum OPG levels are associated with a profile of bone turnover markers favoring bone formation, suggesting that OPG may be protective against age-related bone loss. Longitudinal studies are needed to address that issue.
Osteoporosis International, 2005
Regulation of osteoclastic activity is critical for understanding bone loss associated with the postmenopausal period. In vitro and animal studies have revealed the role of OPG as a decoy receptor that neutralizes the effect of RANKL on the differentiation and activation of osteoclasts. However, the role of the OPG-RANKL system in postmenopausal osteoporosis is controversial. Thus, the aim of this study was to investigate the relationship among circulating levels of OPG, RANKL, bone turnover markers (BTM), bone mineral density (BMD) and vertebral fractures in postmenopausal women. We determined anthropometric parameters, circulating OPG and RANKL, BTM, estradiol, BMD by dual X-ray absorptiometry at the lumbar spine (LS) and femoral neck (FN), and pre-existing vertebral fractures in 206 ambulatory postmenopausal women of a mean age of 62 years (SD 7). Circulating OPG was significantly related to age ( r =0.158; P =0.023), years since menopause (r=0.167; P =0.016) and BMD (LS Z-score: r =0.240; P =0.001, FN Z-score: r =0.156; P=0.025). Over half of the women had undetectable RANKL (n=113; 54.9%). There were no significant differences in clinical variables, BTM or BMD among women with detectable vs. undetectable RANKL. OPG was found to be independently associated with osteoporosis (OR: 2.9, 1.4-5.9) and prevalent vertebral frac-tures (OR: 2.5, 1.2-5.4). We conclude that serum OPG levels are independently associated with bone mass and prevalent vertebral fractures in postmenopausal women.
Endocrinology, 2014
The effects of up to 26 weeks of sclerostin antibody (Scl-Ab) treatment were investigated in ovariectomized (OVX) rats. Two months after surgery, 6-month-old osteopenic OVX rats were treated with vehicle or Scl-Ab (25 mg/kg, sc, one time per week) for 6, 12, or 26 weeks. In vivo dual-energy x-ray absorptiometry analysis demonstrated that the bone mineral density of lumbar vertebrae and femur-tibia increased progressively through 26 weeks of Scl-Ab treatment along with progressive increases in trabecular and cortical bone mass and bone strength at multiple sites. There was a strong correlation between bone mass and maximum load at lumbar vertebra, femoral neck, and diaphysis at weeks 6 and 26. Dynamic histomorphometric analysis showed that lumbar trabecular and tibial shaft endocortical and periosteal bone formation rates (BFR/BS) increased and peaked at week 6 with Scl-Ab-treatment; thereafter trabecular and endocortical BFR/BS gradually declined but remained significantly greater than OVX controls at week 26, whereas periosteal BFR/BS returned to OVX control levels at week 26. In the tibia metaphysis, trabecular BFR/BS in the Scl-Ab treated group remained elevated from week 6 to week 26. The osteoclast surface and eroded surface were significantly lower in Scl-Ab-treated rats than in OVX controls at all times. In summary, bone mass and strength increased progressively over 26 weeks of Scl-Ab treatment in adult OVX rats. The early gains were accompanied by increased cortical and trabecular bone formation and reduced osteoclast activity, whereas later gains were attributed to residual endocortical and trabecular osteoblast stimulation and persistently low osteoclast activity.