功能性NADPH氧化酶2的缺失可保护雌性p47phox基因敲除小鼠免受酒精诱导的骨吸收影响。
Loss of functional NADPH oxidase 2 protects against alcohol-induced bone resorption in female p47phox-/- mice.
作者信息
Mercer Kelly E, Sims Clark R, Yang Carrie S, Wynne Rebecca A, Moutos Christopher, Hogue William R, Lumpkin Charles K, Suva Larry J, Chen Jin-Ran, Badger Thomas M, Ronis Martin J J
机构信息
Department of Pediatrics, Center for Orthopaedic Research at the University of Arkansas for Medical Sciences and Arkansas Children's Nutrition Center, Little Rock, Arkansas.
出版信息
Alcohol Clin Exp Res. 2014 Mar;38(3):672-82. doi: 10.1111/acer.12305. Epub 2013 Nov 20.
BACKGROUND
In bone, NADPH oxidase (NOX)-derived reactive oxygen species (ROS) superoxide and/or hydrogen peroxide are an important stimulus for osteoclast differentiation and activity. Previously, we have demonstrated that chronic ethanol (EtOH) consumption generates excess NOX-dependent ROS in osteoblasts, which functions to stimulate nuclear factor kappa-β receptor ligand (RANKL)-RANK signaling, thus increasing osteoclastogenesis and activity. This activity can be blocked by co-administration of EtOH with the pan-NOX inhibitor diphenylene idonium (DPI).
METHODS
To test whether EtOH-induced bone loss is dependent on a functional NOX2 enzyme, 6-week-old female C57BL/6J-Ncf1/p47phox(-/-) (p47phox KO) and wild-type (WT) mice were pair-fed EtOH diets for 40 days. Bone loss was assessed by 3-point bending, micro-computed tomography and static histomorphometric analysis. Additionally, ST2 cultured cells were co-treated with EtOH and NOX inhibitors, DPI, gliotoxin, and plumbagin, after which changes in ROS production, and in RANKL and NOX mRNA expression were analyzed.
RESULTS
In WT mice, EtOH treatment significantly reduced bone density and mechanical strength, and increased total osteoclast number and activity. In EtOH-treated p47phox KO mice, bone density and mechanical strength were completely preserved. EtOH p47phox KO mice had no changes in osteoclast numbers or activity, and no elevations in serum CTX or RANKL gene expression (p < 0.05). In both WT and p47phox KO mice, EtOH feeding reduced biochemical markers of bone formation (p < 0.05). In vitro EtOH exposure of ST2 cells increased ROS, which was blocked by pretreating with DPI or the NOX2 inhibitor gliotoxin. EtOH-induced RANKL and NOX2 gene expression were inhibited by the NOX4-specific inhibitor plumbagin.
CONCLUSIONS
These data suggest that NOX2-derived ROS is necessary for EtOH-induced bone resorption. In osteoblasts, NOX2 and NOX4 appear to work in tandem to increase RANKL expression, whereas EtOH-mediated inhibition of bone formation occurs via a NOX2-independent mechanism.
背景
在骨骼中,烟酰胺腺嘌呤二核苷酸磷酸氧化酶(NOX)衍生的活性氧(ROS)超氧化物和/或过氧化氢是破骨细胞分化和活性的重要刺激因素。此前,我们已经证明,长期摄入乙醇(EtOH)会在成骨细胞中产生过量的NOX依赖性ROS,其作用是刺激核因子κ-β受体配体(RANKL)-RANK信号传导,从而增加破骨细胞生成和活性。这种活性可以通过将EtOH与泛NOX抑制剂二亚苯基碘鎓(DPI)联合给药来阻断。
方法
为了测试EtOH诱导的骨质流失是否依赖于功能性NOX2酶,将6周龄雌性C57BL/6J-Ncf1/p47phox(-/-)(p47phox基因敲除)小鼠和野生型(WT)小鼠配对喂养40天的EtOH饮食。通过三点弯曲、微计算机断层扫描和静态组织形态计量分析评估骨质流失。此外,将ST2培养细胞与EtOH和NOX抑制剂DPI、gliotoxin和白花丹素共同处理,之后分析ROS产生以及RANKL和NOX mRNA表达的变化。
结果
在WT小鼠中,EtOH处理显著降低了骨密度和机械强度,并增加了破骨细胞总数和活性。在EtOH处理的p47phox基因敲除小鼠中,骨密度和机械强度完全得以保留。EtOH处理的p47phox基因敲除小鼠的破骨细胞数量或活性没有变化,血清CTX或RANKL基因表达也没有升高(p<0.05)。在WT和p47phox基因敲除小鼠中,EtOH喂养均降低了骨形成的生化标志物(p<0.05)。ST2细胞在体外暴露于EtOH会增加ROS,这可通过用DPI或NOX2抑制剂gliotoxin预处理来阻断。NOX4特异性抑制剂白花丹素可抑制EtOH诱导的RANKL和NOX2基因表达。
结论
这些数据表明,NOX2衍生的ROS是EtOH诱导骨吸收所必需的。在成骨细胞中,NOX2和NOX4似乎协同作用以增加RANKL表达,而EtOH介导的骨形成抑制是通过不依赖NOX2的机制发生的。
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