腺嘌呤诱导的慢性肾脏病引起的骨骼反应的特异性改变与甲状旁腺激素水平的差异有关。
Strain-specific alterations in the skeletal response to adenine-induced chronic kidney disease are associated with differences in parathyroid hormone levels.
机构信息
Department of Anatomy, Cell Biology & Physiology, Indiana University School of Medicine, Indianapolis, IN, United States.
Department of Anatomy, Cell Biology & Physiology, Indiana University School of Medicine, Indianapolis, IN, United States; Department of Medicine - Division of Nephrology, Indiana University School of Medicine, Indianapolis, IN, United States; Department of Biomedical Engineering, Indiana University Purdue University of Indianapolis, Indianapolis, IN, United States; Roudebush Veterans Administration Medical Center, Indianapolis, IN, United States.
出版信息
Bone. 2021 Jul;148:115963. doi: 10.1016/j.bone.2021.115963. Epub 2021 Apr 17.
UNLABELLED
Chronic kidney disease (CKD) leads to loss of cortical bone through cortical thinning and the development of cortical porosity. The goal of this current study was to assess cortical bone alterations to adenine-induced chronic kidney disease (CKD) in two strains of mice with known genetic differences in cortical thickness. We hypothesized that C3H mice with thicker cortices and baseline levels of intracortical remodeling would have greater cortical porosity in response to adenine-induced CKD compared to B6 animals.
METHODS
Female C57BL/6 J (B6) and C3H/Hej (C3H) at 16-weeks of age were given a diet with 0.2% adenine to induce CKD for 6 weeks followed by a control diet for 4 weeks. Age- and strain-matched controls were fed the control diet without adenine for the 10-week period (n = 8 per group per strain).
RESULTS
Both strains of adenine-fed mice had elevated blood urea nitrogen, demonstrating compromised kidney function, compared to strain-matched controls, but only B6 adenine mice had statistically higher parathyroid hormone (PTH), greater cortical porosity, high bone turnover rate, a greater percentage of osteocytes positive for RANKL and IL-17, and lower osteocyte apoptosis compared to B6 controls. C3H mice had intracortical remodeling present in both control and adenine mice, while B6 mice had intracortical remodeling present only in adenine mice. Adenine mice of both strains had lower cortical thickness and a higher percentage of osteocytes positive for TNF-α compared to controls.
CONCLUSION
While both strains of mice had biochemical markers of kidney disease, only B6 mice developed a phenotype with significantly elevated PTH, high bone turnover, and cortical porosity development. This work, in a model of progressive CKD, further confirms the role of chronically elevated PTH in the development of cortical porosity and demonstrates adenine-induced increases in PTH contribute to intracortical remodeling in B6 mice. Adenine-induced changes that occurred in both strains of mice, notably lower cortical thickness and a higher percentage of osteocytes expressing TNF-α, indicate potential PTH-independent responses to CKD.
目的
本研究旨在评估腺嘌呤诱导的慢性肾脏病(CKD)对两种不同皮质厚度的小鼠的皮质骨改变。我们假设,与 B6 动物相比,皮质较厚且基础水平下有更多皮质内改建的 C3H 小鼠,在腺嘌呤诱导的 CKD 时会有更大的皮质孔隙度。
方法
16 周龄的雌性 C57BL/6J(B6)和 C3H/Hej(C3H)小鼠用含有 0.2%腺嘌呤的饮食喂养 6 周,随后用对照饮食喂养 4 周。年龄和品系匹配的对照动物用不含腺嘌呤的对照饮食喂养 10 周(每组每品系 8 只)。
结果
与品系匹配的对照动物相比,两种腺嘌呤喂养的小鼠的血尿素氮均升高,表明肾功能受损,但只有 B6 腺嘌呤小鼠的甲状旁腺激素(PTH)显著升高、皮质孔隙度更大、骨转换率更高、更多的破骨细胞阳性表达 RANKL 和 IL-17、以及更低的破骨细胞凋亡。C3H 小鼠在对照和腺嘌呤喂养的小鼠中均有皮质内改建,而 B6 小鼠仅在腺嘌呤喂养的小鼠中有皮质内改建。与对照动物相比,两种品系的腺嘌呤喂养的小鼠的皮质厚度较低,且更多的破骨细胞阳性表达 TNF-α。
结论
虽然两种品系的小鼠均有肾功能疾病的生化标志物,但只有 B6 小鼠出现显著升高的 PTH、高骨转换和皮质孔隙度发育的表型。这项在进展性 CKD 模型中的研究进一步证实了慢性升高的 PTH 在皮质孔隙度发育中的作用,并表明腺嘌呤诱导的 PTH 升高导致 B6 小鼠的皮质内改建。两种品系的小鼠都发生了变化,特别是皮质厚度降低和更多的破骨细胞表达 TNF-α,这表明对 CKD 可能存在 PTH 不依赖的反应。
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