Chloride/proton antiporters ClC3 and ClC5 support bone formation in mice

IF 2.1 Q3 ENDOCRINOLOGY & METABOLISM Bone Reports Pub Date : 2024-04-16 DOI:10.1016/j.bonr.2024.101763
Irina L. Tourkova , Quitterie C. Larrouture , Silvia Liu , Jianhua Luo , Katherine E. Shipman , Kelechi M. Onwuka , Ora A. Weisz , Vladimir Riazanski , Deborah J. Nelson , Matthew L. MacDonald , Paul H. Schlesinger , Harry C. Blair
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Abstract

Acid transport is required for bone synthesis by osteoblasts. The osteoblast basolateral surface extrudes acid by Na+/H+ exchange, but apical proton uptake is undefined. We found high expression of the Cl/H+ exchanger ClC3 at the bone apical surface. In mammals ClC3 functions in intracellular vesicular chloride transport, but when we found Cl dependency of H+ transport in osteoblast membranes, we queried whether ClC3 Cl/H+ exchange functions in bone formation. We used ClC3 knockout animals, and closely-related ClC5 knockout animals: In vitro studies suggested that both ClC3 and ClC5 might support bone formation. Genotypes were confirmed by total exon sequences. Expression of ClC3, and to a lesser extent of ClC5, at osteoblast apical membranes was demonstrated by fluorescent antibody labeling and electron microscopy with nanometer gold labeling. Animals with ClC3 or ClC5 knockouts were viable. In ClC3 or ClC5 knockouts, bone formation decreased ~40 % by calcein and xylenol orange labeling in vivo. In very sensitive micro-computed tomography, ClC5 knockout reduced bone relative to wild type, consistent with effects of ClC3 knockout, but varied with specific histological parameters. Regrettably, ClC5-ClC3 double knockouts are not viable, suggesting that ClC3 or ClC5 activity are essential to life. We conclude that ClC3 has a direct role in bone formation with overlapping but probably slightly smaller effects of ClC5. The mechanism in mineral formation might include ClC H+ uptake, in contrast to ClC3 and ClC5 function in cell vesicles or other organs.

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氯离子/质子反转运体 ClC3 和 ClC5 支持小鼠骨骼形成
成骨细胞合成骨质需要酸运输。成骨细胞基外侧通过 Na+/H+ 交换挤出酸,但顶端的质子吸收尚未明确。我们发现骨顶端表面高表达 Cl-/H+ 交换子 ClC3。在哺乳动物中,ClC3 在细胞内囊氯转运中发挥作用,但当我们发现成骨细胞膜中的 H+ 转运依赖于 Cl- 时,我们对 ClC3 Cl-/H+ 交换是否在骨形成中发挥作用提出了疑问。我们使用了 ClC3 基因敲除动物和与之密切相关的 ClC5 基因敲除动物:体外研究表明,ClC3 和 ClC5 都可能支持骨形成。通过总外显子序列确认了基因型。通过荧光抗体标记和纳米金电镜标记,证实了成骨细胞顶端膜上 ClC3 的表达,其次是 ClC5 的表达。ClC3或ClC5基因敲除的动物具有活力。在 ClC3 或 ClC5 基因敲除的动物体内,通过钙蓝蛋白和二甲酚橙标记,骨形成减少了约 40%。在非常敏感的显微计算机断层扫描中,ClC5基因敲除导致骨质相对于野生型减少,这与ClC3基因敲除的影响一致,但随特定组织学参数的变化而变化。遗憾的是,ClC5-ClC3双基因敲除不能存活,这表明ClC3或ClC5的活性对生命至关重要。我们的结论是,ClC3 在骨形成中起直接作用,与 ClC5 的作用重叠,但可能略小。矿物质形成的机制可能包括 ClC H+ 摄取,而不是 ClC3 和 ClC5 在细胞囊泡或其他器官中的功能。
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来源期刊
Bone Reports
Bone Reports Medicine-Orthopedics and Sports Medicine
CiteScore
4.30
自引率
4.00%
发文量
444
审稿时长
57 days
期刊介绍: Bone Reports is an interdisciplinary forum for the rapid publication of Original Research Articles and Case Reports across basic, translational and clinical aspects of bone and mineral metabolism. The journal publishes papers that are scientifically sound, with the peer review process focused principally on verifying sound methodologies, and correct data analysis and interpretation. We welcome studies either replicating or failing to replicate a previous study, and null findings. We fulfil a critical and current need to enhance research by publishing reproducibility studies and null findings.
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