CB1 receptor antagonist rimonabant protects against chronic intermittent hypoxia-induced bone metabolism disorder and destruction in rats

Objective The endocannabinoid system (ECS) regulates bone turn-over and remodeling. Chronic intermittent hypoxia (CIH) occurring during obstructive sleep apnea (OSA) may lead to disorders of the ECS and bone metabolism abnormalities. This study aimed to investigate whether or not the cannabinoid rec...

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Published in:Sleep & breathing 2020-12, Vol.24 (4), p.1441-1449
Main Authors: Dou, Zhan-jun, Gao, Xiao-Ling, Jia, Yan-li, Chen, Jie, Yang, Jiao-Jiao, Chen, Yan, Wu, Shu-jie, Liu, Tao, Wang, Mei-ting, Yang, Chong, Zhang, Na, Wang, Bei
Format: Article
Language:English
Subjects:
Acid phosphatase (tartrate-resistant)
Apnea
Bone remodeling
Bone resorption
Bone turnover
Cancellous bone
Cannabinoid CB1 receptors
Correlation analysis
Cytology
Dentistry
Edema
Endocannabinoid system
Enzyme-linked immunosorbent assay
Hypoxia
Immunohistochemistry
Internal Medicine
Medicine
Medicine & Public Health
Metabolism
Neurology
Otorhinolaryngology
Pediatrics
Pneumology/Respiratory System
Rodents
Sleep
Sleep Breathing Physiology and Disorders • Original
Sleep Breathing Physiology and Disorders • Original Article
Sleep disorders
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Summary:Objective The endocannabinoid system (ECS) regulates bone turn-over and remodeling. Chronic intermittent hypoxia (CIH) occurring during obstructive sleep apnea (OSA) may lead to disorders of the ECS and bone metabolism abnormalities. This study aimed to investigate whether or not the cannabinoid receptor 1 (CB1R) antagonist rimonabant (Ri) alleviates bone metabolism abnormalities and bone destruction induced by chronic intermittent hypoxia (CIH). Methods Healthy male Sprague Dawley (SD) rats (n=48) were randomly divided into 6 groups of 8 rats: 2 normal control (NC) groups, 2 intermittent hypoxia (IH) groups, and 2 IH + Ri groups. Rats in NC groups breathed room air for 4 weeks (4w NC group) and 6 weeks (6w NC group). Rats in IH groups experienced IH environment for 4 weeks (4w IH group) and 6 weeks (6w IH group). In addition to the same IH exposure, rats in IH + Ri group were given daily intraperitoneal injection of Ri at the dosage of 1.5 mg/kg/d for 4 weeks (4w IH + Ri group) and 6 weeks (6w IH + Ri group). Levels of serum tartrate-resistant acid phosphatase (TRAP, a marker of bone resorption) were determined by ELISA. Hematoxylin and eosin (HE) staining was performed on bone sections to observe the changes in bone microstructure. Expression of CB1R in bone tissue was determined by immunohistochemistry. Results TRAP levels were higher in the 4w IH and 6w IH groups than in the 4w NC and 6w NC groups; TRAP levels were lower in the 4w IH + Ri and 6w IH + Ri groups than in the 4w IH and 6w IH groups. HE staining showed that the morphology of bone cells in the NC group was normal, but the 4w IH group had mild edema of bone cells, reduction in trabecular bone, and destruction of bone microstructure. Changes were more severe in the 6w IH group than 4w IH. The 4w IH + Ri group was slightly improved compared with the 4w IH group. The 6w IH + Ri group was improved compared with the 4w IH + Ri group. The results of immunohistochemistry showed that the expression of CB1R in IH group was significantly higher than that in NC group. The expression of CB1R in the IH + Ri group was lower than that in the IH group. With the prolongation of hypoxia, the expression of CB1R in bone cells of IH group increased. The expression level of CB1R in IH + Ri group decreased with the prolongation of intervention time. Correlation analysis showed that the expression rate of CB1R in bone cells was positively correlated with the level of TRAP in serum. Conclusion CIH increases serum TRA
ISSN:1520-9512
1522-1709
DOI:10.1007/s11325-019-02009-9