Objective:To estimate the bone protective effect of alpinumisoflavone,a natural prenylated isoflavonoid,against glucocorticoid-induced osteoporosis in rats.Methods:Male Wistar rats received intramuscular administratio...Objective:To estimate the bone protective effect of alpinumisoflavone,a natural prenylated isoflavonoid,against glucocorticoid-induced osteoporosis in rats.Methods:Male Wistar rats received intramuscular administration of dexamethasone(4 mg/mL)at a dose level of 7 mg/kg for 5 weeks,and then alpinumisoflavone(5,10,and 15 mg/kg)and alendronate(2 mg/kg)from 2 weeks.The body weight and organ weight(femoral,vagina,and uterus)were estimated.MicroCT analysis,bone turnover markers,bone parameters,oxidative stress parameters,and inflammatory cytokines were estimated.mRNA expressions of related genes were also estimated.Results:Alpinumisoflavone remarkably boosted body weight and organ weight(ureters and vagina),improved microCT analysis parameters,and boosted levels of bone markers.Besides,alpinumisoflavone considerably(P<0.001)restored the level of bone turnover markers and oxidative stress parameters,remarkably suppressed the level of cytokines such as interleukin-1β,interleukin-6,tumor necrosis factor-α,and increased transforming growth factor-βand insulin-like growth factor.It also significantly restored the osteoprotegerin(OPG,RANKL,and OPG/RANKL ratio)levels and the mRNA expression of Caspase(3,6,7,9),BMPs,OPN,ALP,RUNX2,and OCN.Conclusions:The current result suggests the bone protective effect of alpinumisoflavone against glucocorticoid-induced osteoporosis in rats.展开更多
Background Deteriorations in eggshell and bone quality are major challenges in aged laying hens.This study compared the differences of eggshell quality,bone parameters and their correlations as well as uterine physiol...Background Deteriorations in eggshell and bone quality are major challenges in aged laying hens.This study compared the differences of eggshell quality,bone parameters and their correlations as well as uterine physiologi-cal characteristics and the bone remodeling processes of hens laying eggs of different eggshell breaking strength to explore the mechanism of eggshell and bone quality reduction and their interaction.A total of 24074-week-old Hy-line Brown laying hens were selected and allocated to a high(HBS,44.83±1.31 N)or low(LBS,24.43±0.57 N)eggshell breaking strength group.Results A decreased thickness,weight and weight ratio of eggshells were observed in the LBS,accompanied with ultrastructural deterioration and total Ca reduction.Bone quality was negatively correlated with eggshell quality,marked with enhanced structures and increased components in the LBS.In the LBS,the mammillary knobs and effective layer grew slowly.At the initiation stage of eggshell calcification,a total of 130 differentially expressed genes(DEGs,122 upregulated and 8 downregulated)were identified in the uterus of hens in the LBS relative to those in the HBS.These DEGs were relevant to apoptosis due to the cellular Ca overload.Higher values of p62 protein level,caspase-8 activity,Bax protein expression and lower values of Bcl protein expression and Bcl/Bax ratio were seen in the LBS.TUNEL assay and hematoxylin-eosin staining showed a significant increase in TUNEL-positive cells and tissue damages in the uterus of the LBS.Although few DEGs were identified at the growth stage,similar uterine tissue damages were also observed in the LBS.The expressions of runt-related transcription factor 2 and osteocal-cin were upregulated in humeri of the LBS.Enlarged diameter and more structural damages of endocortical bones and decreased ash were observed in femurs of the HBS.Conclusion The lower eggshell breaking strength may be attributed to a declined Ca transport due to uterine tissue damages,which could affect eggshell calcification and lead to a weak ultrastructure.Impaired uterine Ca transport may result in reduced femoral bone resorption and increased humeral bone formation to maintain a higher mineral and bone quality in the LBS.展开更多
This study aims to investigate the regional variations of trabecular morphological parameters and mechanical parameters of the femoral head,as well as to determine the relationship between trabecular morphological and...This study aims to investigate the regional variations of trabecular morphological parameters and mechanical parameters of the femoral head,as well as to determine the relationship between trabecular morphological and mechanical parameters.Seven femoral heads from patients with fractured proximal femur were scanned using a micro-CT system.Each femoral head was divided into 12 sub-regions according to the trabecular orientation.One 125 mm^3 trabecular cubic model was reconstructed from each sub-region.A total of 81 trabecular models were reconstructed,except three destroyed sub-regions from two femoral heads during the surgery.Trabecular morphological parameters,i.e.trabecular separation(Tb.Sp),trabecular thickness(Tb.Th),specific bone surface(BS/B V),bone volume fraction(BV/TV),structural model index(SMI),and degree of anisotropy(DA) were measured.Micro-finite element analyses were performed for each cube to obtain the apparent Young's modulus and tissue level von Mises stress distribution under 1%compressive strain along three orthogonal directions,respectively.Results revealed significant regional variations in the morphological parameters(P〈0.05).Young's moduli along the trabecular orientation were significantly higher than those along the other two directions.In general,trabecular mechanical properties in the medial region were lower than those in the lateral region.Trabecular mechanical parameters along the trabecular orientation were significantly correlated with BS/BV,BV/TV,Tb.Th,and DA.In this study,regional variations of microstructural features and mechanical properties in the femoral head of patients with proximal femur fracture were thoroughly investigated at the tissue level.The results of this study will help to elucidate the mechanism of femoral head fracture for reducing fracture risk and developing treatment strategies for the elderly.展开更多
文摘Objective:To estimate the bone protective effect of alpinumisoflavone,a natural prenylated isoflavonoid,against glucocorticoid-induced osteoporosis in rats.Methods:Male Wistar rats received intramuscular administration of dexamethasone(4 mg/mL)at a dose level of 7 mg/kg for 5 weeks,and then alpinumisoflavone(5,10,and 15 mg/kg)and alendronate(2 mg/kg)from 2 weeks.The body weight and organ weight(femoral,vagina,and uterus)were estimated.MicroCT analysis,bone turnover markers,bone parameters,oxidative stress parameters,and inflammatory cytokines were estimated.mRNA expressions of related genes were also estimated.Results:Alpinumisoflavone remarkably boosted body weight and organ weight(ureters and vagina),improved microCT analysis parameters,and boosted levels of bone markers.Besides,alpinumisoflavone considerably(P<0.001)restored the level of bone turnover markers and oxidative stress parameters,remarkably suppressed the level of cytokines such as interleukin-1β,interleukin-6,tumor necrosis factor-α,and increased transforming growth factor-βand insulin-like growth factor.It also significantly restored the osteoprotegerin(OPG,RANKL,and OPG/RANKL ratio)levels and the mRNA expression of Caspase(3,6,7,9),BMPs,OPN,ALP,RUNX2,and OCN.Conclusions:The current result suggests the bone protective effect of alpinumisoflavone against glucocorticoid-induced osteoporosis in rats.
基金This study was supported by the National Natural Science Foundation of China(32172743)China Agriculture Research System(CARS-40)the Agricultural Science and Technology Innovation Program(ASTIP)of CAAS.
文摘Background Deteriorations in eggshell and bone quality are major challenges in aged laying hens.This study compared the differences of eggshell quality,bone parameters and their correlations as well as uterine physiologi-cal characteristics and the bone remodeling processes of hens laying eggs of different eggshell breaking strength to explore the mechanism of eggshell and bone quality reduction and their interaction.A total of 24074-week-old Hy-line Brown laying hens were selected and allocated to a high(HBS,44.83±1.31 N)or low(LBS,24.43±0.57 N)eggshell breaking strength group.Results A decreased thickness,weight and weight ratio of eggshells were observed in the LBS,accompanied with ultrastructural deterioration and total Ca reduction.Bone quality was negatively correlated with eggshell quality,marked with enhanced structures and increased components in the LBS.In the LBS,the mammillary knobs and effective layer grew slowly.At the initiation stage of eggshell calcification,a total of 130 differentially expressed genes(DEGs,122 upregulated and 8 downregulated)were identified in the uterus of hens in the LBS relative to those in the HBS.These DEGs were relevant to apoptosis due to the cellular Ca overload.Higher values of p62 protein level,caspase-8 activity,Bax protein expression and lower values of Bcl protein expression and Bcl/Bax ratio were seen in the LBS.TUNEL assay and hematoxylin-eosin staining showed a significant increase in TUNEL-positive cells and tissue damages in the uterus of the LBS.Although few DEGs were identified at the growth stage,similar uterine tissue damages were also observed in the LBS.The expressions of runt-related transcription factor 2 and osteocal-cin were upregulated in humeri of the LBS.Enlarged diameter and more structural damages of endocortical bones and decreased ash were observed in femurs of the HBS.Conclusion The lower eggshell breaking strength may be attributed to a declined Ca transport due to uterine tissue damages,which could affect eggshell calcification and lead to a weak ultrastructure.Impaired uterine Ca transport may result in reduced femoral bone resorption and increased humeral bone formation to maintain a higher mineral and bone quality in the LBS.
基金supported by the National Natural Science Foundation of China(Nos.11322223,11432016,81471753 and 11272134)the 973 Program(No.2012CB821202)
文摘This study aims to investigate the regional variations of trabecular morphological parameters and mechanical parameters of the femoral head,as well as to determine the relationship between trabecular morphological and mechanical parameters.Seven femoral heads from patients with fractured proximal femur were scanned using a micro-CT system.Each femoral head was divided into 12 sub-regions according to the trabecular orientation.One 125 mm^3 trabecular cubic model was reconstructed from each sub-region.A total of 81 trabecular models were reconstructed,except three destroyed sub-regions from two femoral heads during the surgery.Trabecular morphological parameters,i.e.trabecular separation(Tb.Sp),trabecular thickness(Tb.Th),specific bone surface(BS/B V),bone volume fraction(BV/TV),structural model index(SMI),and degree of anisotropy(DA) were measured.Micro-finite element analyses were performed for each cube to obtain the apparent Young's modulus and tissue level von Mises stress distribution under 1%compressive strain along three orthogonal directions,respectively.Results revealed significant regional variations in the morphological parameters(P〈0.05).Young's moduli along the trabecular orientation were significantly higher than those along the other two directions.In general,trabecular mechanical properties in the medial region were lower than those in the lateral region.Trabecular mechanical parameters along the trabecular orientation were significantly correlated with BS/BV,BV/TV,Tb.Th,and DA.In this study,regional variations of microstructural features and mechanical properties in the femoral head of patients with proximal femur fracture were thoroughly investigated at the tissue level.The results of this study will help to elucidate the mechanism of femoral head fracture for reducing fracture risk and developing treatment strategies for the elderly.
