Suppressive effects of genistein dosage and resistance exercise on bone loss in ovariectomized rats.

This study was designed to determine whether combined treatments with genistein dosage and moderate resistance exercise would exhibit synergistically preventive effects on bone loss following the onset of menopause. Forty-one 12 wk-old female SD rats were assigned to five groups: 1) Sham operated (Sham); 2) ovariectomized (OVX-Cont); 3) OVX received genistein (OVX-GEN); 4) OVX exercised (OVX-EXE); and 5) OVX treated with both genistein and exercise (OVX-GEN-EXE). All rats were fed a low Ca (0.1%) diet ad libitum. Daily genistein dosage was 12 mg/kg body weight. Exercising rats took 40 sets of 1-min run interspersed with 1-min rest with a 100 g weight on the back on an uphill treadmill at 20 m/min. The experimental duration consisted of the adaptation and treatment periods of 4 weeks each. Uterine weight in OVX-Cont, OVX-GEN, OVX-EXE and OVX-GEN-EXE decreased to about 15% of that in Sham (p < 0.001). The femoral BMD (mg/cm2; mean +/- SE), assessed by DEXA (Lunar), of OVX-Cont was significantly lowered to 206 +/- 5 by -9%, as compared to 226 +/- 2 of Sham (p < 0.001). The BMD of OVX-GEN, OVX-EXE and OVX-GEN-EXE were 217 +/- 2, 217 +/- 2 and 222 +/- 2, respectively, and genistein dosage and resistance exercise equally increased the BMD of OVX rats by 5% (p < 0.01). Combined treatment of genistein and exercise more successfully recovered their decreased BMD by 8% (p < 0.001). BMD of the fourth lumbar vertebrae in OVX-Cont was declined to 191 +/- 7 by -15%, as compared to 225 +/- 4 in Sham (p < 0.001). OVX-EXE and OVX-GEN-EXE gained the BMD by 6% to 205 +/- 4 and 203 +/- 3, respectively, as compared to that of OVX-Cont (p < 0.01). These results suggest the possibility that the combined treatment of genistein dosage and resistance exercise have more beneficial effects by acting rather independently than their separate trials on the prevention of ovx-induced bone loss in femurs.     

Difference in effective dosage of genistein on bone and uterus in ovariectomized mice

Phytoestrogen including soybean isoflavones has structural similarity to estrogen and exhibits beneficial effects on bone tissue to protect against bone loss under estrogen-deficient conditions. Recent studies also indicate a possible action of isoflavones as endocrine disrupters in reproductive tissues. In this study, we administered various dosages of genistein to ovariectomized (OVX) mice, and compared the effective dosages of genistein on bone and uterus. Treatment with genistein at 0.7 mg/day prevented trabecular bone loss in OVX mice without hypertrophic effects on the uterus, while administration of 5 mg/day of genistein induced uterine hypertrophy. The serum levels of genistein in OVX mice treated with 0.7 mg/day and 5 mg/day were 3-fold (1.3 nmol/ml) and 50-fold (20.4 nmol/ml) higher than that in OVX mice. These results suggest that there is a marked difference between genistein dosages that protect against bone loss and those that induce uterine hypertrophy.     

Water exercise prevents femur density loss associated with ovariectomy in the retired breeder rat

The effect of non-weight-bearing exercise on skeletal bone remains controversial. The objective of this pilot study was to examine the effects of water exercise training on femur density and serum alkaline phosphatase activity in ovariectomized and sham-operated (ovaries left intact) retired breeder rats. Exercised animals swam at progressively increasing duration from 5 minutes to 75 min.d(-1), 5 d.wk(-1), for a 6-week conditioning period. Exercised rats had greater (p < 0.02) soleus muscle citrate synthase activity than sedentary rats, confirming an aerobic training effect. Femur density (g.cm(-3)) was greater (p < 0.0007) for exercised rats than sedentary rats but lower (p < 0.01) for ovariectomized rats compared to sham rats. Serum alkaline phosphatase activity tended (p < 0.06) to be greater for exercised rats compared to sedentary rats. These results indicate that dynamic water-flotation exercise prevents the femur bone loss associated with ovariectomy in rats. We conclude that this form of exercise could be beneficial in maintaining bone density in hormone-deficient postmenopausal women, especially the elderly who may not be able to perform weight-bearing activities.     

不同干预疗法对去卵巢骨质疏松大鼠肱骨骨矿物质含量影响

目的:对比观察不同干预疗法对去卵巢骨质疏松大鼠肱骨骨矿物质含量的影响。方法:按体重将80只成年雌性SD大鼠分层后随机分为假手术组和去卵巢组。手术11周时,将去卵巢组大鼠按体重分层后又随机分为去卵巢组、跑台运动组、振动组、金雀异黄酮组、氯化锂组和雌激素组。跑台运动组每周进行4次45 min、速度18 m/min、跑道倾角5°的跑台训练;振动组每天进行2次15 min、频率90 HZ/min、7次/周的振动治疗;金雀异黄酮组每天按体重灌胃1次金雀异黄酮,剂量为1 mg/kg体重;氯化锂组每周按体重腹腔注射氯化锂3次,剂量为15 mg/kg;雌激素组每周按体重颈部皮下注射3次17β-雌二醇,剂量为25μg/kg。持续处理8周时,于末次处理结束36-48小时内,按解剖位置截取双肱骨,称量肱骨湿重、去脂肪干重以及煅烧后的灰重。结果:与假手术组比较,去卵巢组肱骨湿重/体重、去脂肪干重/体重和灰重/体重均显著下降;与去卵巢组比较,跑台运动组、振动组、金雀异黄酮组和雌激素组肱骨湿重/体重、去脂肪干重/体重、灰重/体重均显著增加,而氯化锂组虽有所升高,但差异无显著性。结论:除氯化锂处理外,其他几种处理均能减缓去卵巢骨质疏松大鼠肱骨骨量的丢失,对防治去卵巢骨质疏松大鼠的骨质疏松有一定的作用。     

Testosterone prevents orchidectomy-induced bone loss in estrogen receptor-alpha knockout mice.

To examine the role of the estrogen receptor-alpha (ERalpha) during male skeletal development, bone density and structure of aged ERalphaKO mice and wild-type (WT) littermates were analyzed and skeletal changes in response to sex steroid deficiency and replacement were also studied. In comparison to WT, ERalphaKO mice had smaller and thinner bones, arguing for a direct role of ERalpha to obtain full skeletal size in male mice. However, male ERalphaKO mice had significantly more trabecular bone as assessed both by pQCT and histomorphometry, indicating that ERalpha is not essential to maintain cancellous bone mass. Six weeks following orchidectomy (ORX), both WT and ERalphaKO mice showed high-turnover osteoporosis as revealed by increases in serum osteocalcin and decreases in trabecular (-38% and -58% in WT and ERalphaKO, respectively) and cortical bone density (-5% and -4% in WT and ERalphaKO, respectively). Administration of testosterone propionate (T, 5 mg/kg/day) completely prevented bone loss both in ERalphaKO and in WT mice. As expected, estradiol (E2, 60 microg/kg/day) replacement did not prevent cancellous bone loss in ORX ERalphaKO mice. However, E2 stimulated bone formation at the endocortical surface in ORX ERalphaKO, suggesting that osteoblasts may respond to nonERalpha-mediated estrogen action. In conclusion, although functional ERalpha may play a significant role during male skeletal development, this receptor does not seem essential for androgen-mediated skeletal maintenance in older male mice.     

Congenital osteoclast deficiency in osteopetrotic (op/op) mice is improved by ovariectomy and orchiectomy.

We examined the changes in the appearance of osteoclasts in the femora of ovariectomized (OVX) or orchiectomized (ORX) op/op mice. Osteoclasts on the trabecular bone surface of the OVX or ORX op/op mice significantly increased in number seven or eight times in comparison with sham-operated op/op mice. Furthermore, TRAP-positive cells increased about four times in 100-week-old females and males, compared with sham-operated groups. These results have indicated that a sex hormone reduction due to OVX or ORX induces prominent recruitment of osteoclasts in op/op mice.     

Combined Effects of Phytoestrogen Genistein and Silicon on Ovariectomy-Induced Bone Loss in Rat

This study was performed to evaluate the effect of concomitant supplementation of genistein and silicon on bone mineral density and bone metabolism-related markers in ovariectomized rat. Three-month-old Sprague Dawley female rats were subjected to bilateral ovariectomy (OVX) or sham surgery, and then the OVX rats were randomly divided into four groups: OVX-GEN, OVX-Si, OVX-GEN-Si, and OVX. Genistein and silicon supplementation was started immediately after OVX and continued for 10 weeks. In the OVX-GEN group, 5 mg genistein per gram body weight was injected subcutaneously. The OVX-Si group was given soluble silicon daily in demineralized water (Si 20 mg/kg body weight/day). The OVX-GEN-Si group was given subcutaneous injections of 5 mg genistein per gram body weight, at the same time, given soluble silicon daily (Si 20 mg/kg body weight/day). The results showed that the genistein supplementation in the OVX rats significantly prevented the loss of uterus weight; however, the silicon supplementation showed no effect on the uterus weight loss. The lumbar spine and femur bone mineral density was significantly decreased after OVX surgery; however, this decrease was inhibited by the genistein and/or silicon, and the BMD of the lumbar spine and femur was the highest in the OVX-GEN-Si-treated group. Histomorphometric analyses showed that the supplementation of genistein and/or silicon restored bone volume and trabecular thickness of femoral trabecular bone in the OVX group. Besides, the treatment with genistein and silicon for 10 weeks increased the serum levels of calcium and phosphorus in the OVX rats; serum calcium and serum phosphorus in the OVX-GEN-Si group were higher than those in the OVX-GEN and OVX-Si group (P < 0.05). At the same time, the treatment with genistein and/or silicon decreased serum alkaline phosphatase (ALP) and osteocalcin, which were increased by ovariectomy; serum ALP and osteocalcin in the OVX-GEN-Si group were lower than those in the OVX-GEN and OVX-Si groups (P < 0.05). The results above indicate that genistein and silicon have synergistic effects on bone formation in ovariectomized rats.     

葛根素预防雌激素缺乏性骨质疏松的机制探讨

目的观察葛根素对去卵巢大鼠股骨骨密度、颌骨骨密度和血清中肿瘤坏死因子（TNF-α）、C反应蛋白（CRP）及雌二醇（E2）水平的影响。方法 3月龄雌性SD大鼠随机分为假手术组（sham group）、单纯去势组（OVX group）、去势＋雌二醇治疗组（OVX-estrogen group）和去势＋葛根素治疗组（OVX-puerarin group）。给药3个月后测量各组大鼠股骨和颌骨骨密度,血清中TNF-α和CRP及雌二醇（E2）水平。结果 OVX-puerarin组较sham组体重明显增加（P〈0.01）;较OVX-estrogen组的TNF-α（P〈0.01）、CRP（P〈0.05）及E2（P〈0.01）水平显著下降;其下颌骨和股骨远端骨密度与OVX组、sham组之间无显著性差异,但其股骨近端骨密度较OVX-estrogen组明显增加（P〈0.05）。结论葛根素作为抗炎因子,能够显著降低TNF-α和CRP的水平,但并不会提高雌激素的水平;葛根素对卵巢切除所致的骨质疏松症有一定的治疗作用,但会明显提高机体体重。     

Long-term effects of aging and orchidectomy on bone and body composition in rapidly growing male rats

The purpose of this study was to assess the long-term effects of aging and sex hormone deficiency on skeletal metabolism and body composition in rapidly growing male rats. Sprague-Dawley male rats were sham-operated (sham) or orchidectomized (ORX) at 3 months of age. Eight sham rats and eight ORX rats at each time point were serially sacrificed at 3, 4, 8, 12, 15, and 23 months of age. Bone mass in sham rats rapidly increased until 8 months of age, then slightly increased between 8 to 12 months of age; thereafter, an age-related decrease in bone mass was found between 12 to 23 months of age. In sham rats, bone formation parameters decreased between 3 and 8 months, and maintained at the lower level between 8 and 23 months of age, while bone resorption parameters decreased between 3 and 12 months, and thereafter, increased with age between 12 and 23 months of age. ORX significantly inhibited age-related gain in body weight, lean body mass, and cancellous and cortical bone mass and decreased peak bone mass (approximately 20% less versus sham). Further, we found that the lower bone and lean body mass in ORX rats was due to the lack of age-related gain rather than the net loss from basal controls. These data suggest that sex hormones are important factors for the accumulation of peak bone and lean body mass in male rats.     

Bone modeling response to voluntary exercise in the hindlimb of mice

The functional adaptation of juvenile mammalian limb bone to mechanical loading is necessary to maintain bone strength. Diaphyseal size and shape are modified during growth through the process of bone modeling. Although bone modeling is a well-documented response to increased mechanical stress on growing diaphyseal bone, the effect of proximodistal location on bone modeling remains unclear. Distal limb elements in cursorial mammals are longer and thinner, most likely to conserve energy during locomotion because they require less energy to move. Therefore, distal elements are hypothesized to experience greater mechanical loading during locomotion and may be expected to exhibit a greater modeling response to exercise. In this study, histomorphometric comparisons are made between femora and tibiae of mice treated with voluntary exercise and a control group (N = 20). We find that femora of exercised mice exhibit both greater bone growth rates and growth areas than do controls (P < 0.05). The femora of exercised mice also have significantly greater cortical area, bending rigidity, and torsional rigidity (P < 0.05), although bending and torsional rigidity are comparable when standardized by bone length. Histomorphometric and cross-section geometric properties of the tibial midshaft of exercised and control mice did not differ significantly, although tibial length was significantly greater in exercised mice (P < 0.05). Femora of exercised mice were able to adapt to increased mechanical loading through increases in compressive, bending, and torsional rigidity. No such adaptations were found in the tibia. It is unclear if this is a biomechanical adaptation to greater stress in proximal elements or if distal elements are ontogenetically constrained in a tradeoff of bone strength of distal elements for bioenergetic efficiency during locomotion.     

17β-雌二醇和跑台运动对去卵巢大鼠骨组织及子宫ERα蛋白表达影响的对比研究

目的：雌激素受体α（ERα）作为雌激素调节骨效应的主要受体在雌激素对骨量和骨代谢的调节中发挥重要的作用,为此本研究比较了17β-雌二醇（E2）和跑台运动对去卵巢大鼠骨组织和子宫ERα蛋白表达影响的异同。方法：将40只健康3月龄雌性SD大鼠,按体重分层后随机分为假手术、去卵巢、雌激素和运动四个组。手术1周后,雌激素组大鼠每周按体重颈部皮下注射三次17β-雌二醇,每次25μg／kg体重。运动组每周进行4次45min、速度18m／min、坡度5°的跑台训练。连续给药或运动处理14周后。采用放射免疫法和免疫组织化学法分别检测血清E2水平以及胫骨和子宫ERα蛋白表达的变化。结果：大鼠去卵巢后,子宫重量、子宫重量指数和血清E2水平显著下降,补充外源性17β-雌二醇后,三项指标均显著增加;但运动处理只能增加血清E2水平,对子宫重量和子宫重量指数均无显著影响。子宫EIh蛋白免疫组化结果显示：ERα在去卵巢组子宫内膜腔上皮、腺上皮及基质中的表达显著低于假手术组,而在雌激素组中的表达高于去卵巢组,运动组各部位ERα表达虽有所增加,但是增加的程度远低于雌激素组。胫骨近端ERα蛋白免疫组化结果显示：去卵巢后,胫骨近端骨骺端软骨细胞的细胞核内ERα表达减少,运动和雌激素干预后,胫骨近端ERα表达增加。结论：运动和雌激素处理均能刺激去卵巢大鼠子宫和骨组织ERα蛋白的表达,但运动处理无雌激素处理增加子宫重量的副作用。可见在绝经后骨质疏松的预防中,运动处理可能要优于雌激素处理。     

Calcium- and Phosphorus-Supplemented Diet Increases Bone Mass after Short-Term Exercise and Increases Bone Mass and Structural Strength after Long-Term Exercise in Adult Mice

Exercise has long-lasting benefits to bone health that may help prevent fractures by increasing bone mass, bone strength, and tissue quality. Long-term exercise of 6–12 weeks in rodents increases bone mass and bone strength. However, in growing mice, a short-term exercise program of 3 weeks can limit increases in bone mass and structural strength, compared to non-exercised controls. Short-term exercise can, however, increase tissue strength, suggesting that exercise may create competition for minerals that favors initially improving tissue-level properties over structural-level properties. It was therefore hypothesized that adding calcium and phosphorus supplements to the diet may prevent decreases in bone mass and structural strength during a short-term exercise program, while leading to greater bone mass and structural strength than exercise alone after a long-term exercise program. A short-term exercise experiment was done for 3 weeks, and a long-term exercise experiment was done for 8 weeks. For each experiment, male 16-week old C57BL/6 mice were assigned to 4 weight-matched groups–exercise and non-exercise groups fed a control or mineral-supplemented diet. Exercise consisted of treadmill running at 12 m/min, 30 min/day for 7 days/week. After 3 weeks, exercised mice fed the supplemented diet had significantly increased tibial tissue mineral content (TMC) and cross-sectional area over exercised mice fed the control diet. After 8 weeks, tibial TMC, cross-sectional area, yield force, and ultimate force were greater from the combined treatments than from either exercise or supplemented diet alone. Serum markers of bone formation (PINP) and resorption (CTX) were both decreased by exercise on day 2. In exercised mice, day 2 PINP was significantly positively correlated with day 2 serum Ca, a correlation that was weaker and negative in non-exercised mice. Increasing dietary mineral consumption during an exercise program increases bone mass after 3 weeks and increases structural strength after 8 weeks, making bones best able to resist fracture.     

中等强度跑台运动预防去卵巢大鼠骨质疏松

目的观察中等强度跑台运动对去卵巢大鼠骨质疏松的预防作用。方法将30只3月龄未经产雌性SD大鼠随机分为假手术、去卵巢静止和去卵巢运动三个组。去卵巢运动组每周进行4次时间45min、速度18m/min、坡度5°的跑台训练。实验结束时,检测血清雌二醇（E2）、碱性磷酸酶（ALP）、抗酒石酸酸性磷酸酶（TRAP）和骨钙素（BGP）水平以及右侧游离股骨和胫骨的骨密度（BMD）和骨矿物含量（BMC）;同时观察左侧股骨远端和胫骨近端组织形态学变化。结果与假手术组比较,去卵巢静止组大鼠血清ALP活性和BGP含量显著升高,血清TRAP活性和E2含量显著下降,股骨近段和远端以及胫骨近端BMD和BMC显著下降,股骨远端和胫骨近端骨小梁断裂增加、数目减少;与去卵巢静止组比较,去卵巢运动组大鼠血清E2和BGP含量显著上升,股骨三个部位以及胫骨近端BMD和BMC显著增加,股骨远端和胫骨近端骨小梁断裂减少、数目增加。结论中等强度跑台运动能增加去卵巢大鼠血清E2和BGP含量,改善去卵巢大鼠骨组织学结构。     

不同干预方法对去卵巢骨质疏松大鼠子宫GSK-3β蛋白表达的影响

目的观察全身垂直振动、跑台运动和金雀异黄酮对去卵巢骨质疏松大鼠子宫重量指数和组织形态学以及糖原合成激酶3β（GSK-3β）蛋白表达的影响。方法将72只3月龄雌性SD大鼠按体重分层后随机分为假手术组（12只）和去卵巢组（60只）。去卵巢10周时,将去卵巢组大鼠按体重分层后又随机分为去卵巢组、振动组、跑台组、金雀异黄酮组和雌激素组（每组8~10只）,并开始进行不同干预处理。干预处理8周时,于末次处理结束36~48h内,腹主动脉取血处死各组大鼠,用电子天平称量大鼠子宫的重量,用HE染色方法观察子宫形态学的变化,用Western blot方法检测子宫GSK-3β和P-GSK-3β蛋白表达的变化。结果与去卵巢组比较,雌激素组大鼠子宫重量指数显著增加,而振动组、跑台组、金雀异黄酮组大鼠子宫重量指数均无显著变化;与去卵巢组比较,雌激素组、跑台组和振动组大鼠子宫P-GSK-3β/GSK-3β蛋白的比值均显著增加,而金雀异黄酮组无显著变化。结论全身垂直振动和跑台运动均能刺激去卵巢骨质疏松大鼠子宫GSK-3β蛋白的磷酸化,而金雀异黄酮无此效应。     

运动与17β-雌二醇对去卵巢大鼠血清17β-雌二醇和后肢骨骨密度的影响

目的：观察跑台运动和17β-雌二醇（E2）对去卵巢大鼠血清E2水平和后肢骨骨密度（BMD）的影响。方法：按体重将120只成年雌性SD大鼠随机分为假手术、假手术运动、去卵巢、去卵巢运动、雌激素、雌激素加运动6个组。假手术运动、去卵巢运动和雌激素加运动组每周进行5次60min、18m／min的平坡跑台运动训练,雌激素和雌激素加运动组每周按体重颈部皮下注射3次E2,每次50μg／kg体重。分别在运动和给药正式处理7和14周时,用放射免疫法检测血清E2水平;用双能X线骨密度仪检测右侧胫骨和股骨BMD的变化。结果：运动和给药正式处理7周时,去卵巢组胫骨近端、股骨近端和远端BMD以及血清E2水平均显著低于假手术组;去卵巢运动加E2组股骨近端和远端BMD显著高于去卵巢组,E2组和去卵巢运动加E2组大鼠血清E2水平显著高于去卵巢组。运动和给药正式处理14周时,去卵巢组大鼠胫骨近端、股骨近端和远端BMD以及血清E2水平均显著低于假手术组,假手术运动组股骨近端BMD显著高于假手术组;去卵巢运动组、E2组和去卵巢运动加E2组大鼠血清E2水平显著高于去卵巢组,去卵巢运动组股骨远端BMD显著高于去卵巢组,E2组和去卵巢运动加E2组胫骨近端、股骨近端和远端BMD均显著高于去卵巢组;去卵巢运动组大鼠胫骨近端BMD和血清E2水平显著低于去卵巢运动加E2组,E2组胫骨近端BMD显著高于去卵巢运动加E2组。结论：E2和较高中等强度跑台运动对去卵巢大鼠股骨和胫骨松质骨骨量减缓的效应是独立的。     

Effect of genistein on the expression of bone metabolism genes in ovariectomized mice using a cDNA microarray

Osteoporosis associated with estrogen deficiency is defined as an abnormal decrease in bone mass leading to an increased fracture risk. Genistein (GEN), as a phytoestrogen, is a type of soybean-derived isoflavone that possesses structural similarity to estrogen. In this study, we assessed the effect of GEN in ovariectomized (OVX) mice. To determine the effect of GEN on bone metabolism, we investigated gene expression profiles using a radioactive cDNA microarray. Eight-week-old female mice were either sham operated (SHAM) or OVX. From 1 week after the operation, OVX mice were injected daily with intraperitoneal GEN (0.1, 0.5, 1.5 and 3.0 mg/day) or 17beta-estradiol (E2, 0.03 microg/day) for 4 weeks. A cDNA microarray was used to evaluate changes in the expression of 1,152 genes. OVX mice showed bone mineral density (BMD) loss versus SHAM mice (5.8+/-0.4 vs. 6.9+/-0.6 mg/cm2). However, femur BMDs were completely restored by GEN and by E2 administration in OVX mice. Serum osteocalcin in OVX mice treated with 0.5 mg/day of GEN was 1.6-fold (44.30+/-5.73 ng/ml) higher than that in untreated mice. GEN treatment up-regulated 38 genes (e.g., mitogen-activated protein kinase 10) and down-regulated 18 (e.g., matrix metalloproteinase 13). Moreover, GEN was found to have a protective effect on bone loss caused by estrogen deficiency in OVX mice. The present study suggests that GEN modulates bone metabolism-related gene expression, including calciotropic receptor, cytokines, growth factors and bone matrix proteins.     

Long-term effects of ovariectomy on osteoporosis and obesity in estrogen-receptor-β-deleted mice

Untreated BERKO mice demonstrate few abnormalities in bone phenotype and recent ovariectomy has few effects on various bone characteristics in these mice. Long-term studies on the bone phenotype of intact and ovariectomized mice are unavailable. Using quantitative computed tomography (qCT), we determined various parameters of the metaphysis of the tibia in sham-ovariectomized (intact) and ovariectomized BERKO and wildtype mice. Body weight and estrogen-regulated fat were also measured. Mice underwent surgery (ovariectomy or sham) at 3 mo of age, and qCT analysis was performed every 2 to 4 mo until mice were 12 mo old. Ovariectomized wildtype mice gained body weight and their fat depot increased in size within 2 mo after ovariectomy. Obesity developed later in ovariectomized BERKO mice, which became significantly heavier than their wildtype counterparts. Ovariectomized wildtype mice lost trabecular density more rapidly than did ovariectomized BERKO mice, which did not show similar loss in trabecular density until at least 7 mo after ovariectomy. At the latest studied time point (9 mo after surgery), cortical area was significantly larger in ovariectomized BERKO mice than ovariectomized wildtype mice. The absence of ERβ in ovariectomized BERKO mice during the first 3 to 5 mo after ovariectomy had protective effects against obesity and trabecular rarification; this protective effect disappeared at later time points.     

Effects of eccentric exercise training on cortical bone and muscle strength in the estrogen-deficient mouse.

The purpose of this study was to determine whether eccentrically biased exercise training could attenuate changes in muscle and bone function associated with estrogen deficiency in the mouse model. Four groups of ICR mice were used: control (Con), sham ovariectomized (Sham), ovariectomized (OVX), and ovariectomized + high-force resistance training (OVX+Train). All groups except Con were implanted with a nerve cuff surrounding the peroneal nerve to stimulate the left ankle dorsiflexors. Training consisted of 30 stimulated eccentric contractions of the left ankle dorsiflexors at approximately 150% of peak isometric torque every third day for 8 wk. After the training period, groups were not significantly different with regard to peak torque or muscle size. However, the tibial midshaft of the trained leg in the OVX+Train mice exhibited greater stiffness (+15%) than that in the untrained OVX mice, which could not be explained by changes in cross-sectional geometry of the tibia. Scaling of bone mechanical properties to muscle strength were not altered by ovariectomy or training. These data indicate that eccentric exercise training in adult mice can significantly increase bone stiffness, despite the absence of ovarian hormones.     

The effect of 17β-estradiol treatment on the mass and the turnover of bone in ovariectomized rats taking a mild dose of thyroxin

We performed the dosing experiment to establish whether estrogen administration has any beneficial effects on the mass and the turnover of bone in ovariectomized rats taking a mild dose of thyroxin. Thirty-five Wistar rats, 28 weeks of age, received ovariectomies (OVX) or sham operations and were divided into five groups. Group I was the sham group, Groups 2–5 were ovariectomized. Group 2 was the OVX-control, Group 3 treated with thyroxin 30 μg/kg/day (T4), Group 4, 17β-estradiol 0.3 mg/kg/week (E2), and Group 5, the combination of T4 and E2. The duration of the experiment was 12 weeks. At the end of the experiment, serum chemistries were measured. Bone minerals in the femur were determined with single photon absorptiometry and bone turnover was assessed histomorphometrically. Alkaline-phosphatase increased in Group 3 (OVX-T4), but it reduced in Groups 4 (OVX-E2) and 5 (OVX-T4 + E2). Bone minerals decreased in Groups 2 (OVX) and 3. In Group 4, it was preserved at the same level as in Group 1. Group 5 showed a significant increase of bone mass compared with Group 1. Eroded surface and osteoid surface increased in Groups 2 and 3 and they were reduced in Groups 4 and 5. Bone volume and mineral apposition rate were at a maximum in Group 5. This study demonstrated that 17β-estradiol was capable of preventing the bone mass decrease by regulating the turnover in ovariectomized rats taking a mild dose of thyroxin. Osteoblast function appeared to be stimulated in combination with 17β-estradiol and thyroxin.     

The effect of voluntary exercise on bone mineral density and skeletal muscles in the rat model at ovariectomized and sham stages

The changes of bone mineral density (BMD) and skeletal muscles were evaluated in the rat model at either sham or ovariectomized stages to attempt to make clear the effect of voluntary running exercise on bone metabolism. In comparison with the control groups within the ovariectomized (OVX) and the sham groups, in the running groups, (1) the urinary phosphorus (P) and creatinine (Cr) excretions showed an increase concurrently with the increase in the running distance; (2) the weight of the quadriceps femoris was significantly higher; and (3) the BMD of appendicular and axial bones was significantly greater. These results suggest that voluntary running exercise could effect the BMD, the weight of the skeletal muscles, and the acceleration of energy metabolism.