Center for Musculoskeletal Disease Research, University of Arkansas for Medical Sciences, Little Rock, AR, United States of America.
Division of Endocrinology, University of Arkansas for Medical Sciences, Little Rock, AR, United States of America.
PLoS One. 2021 May 10;16(5):e0250974. doi: 10.1371/journal.pone.0250974. eCollection 2021.
The cytokine RANKL is essential for osteoclast formation during physiological and pathological bone resorption. RANKL also contributes to lymphocyte production, development of lymph nodes and mammary glands, as well as other biological activities. Transcriptional control of the Tnfsf11 gene, which encodes RANKL, is complex and involves distant regulatory regions. Nevertheless, cell culture studies suggest that an enhancer region near the transcription start site is involved in the control of Tnfsf11 expression by hormones such as 1,25-(OH)2 vitamin D3 and parathyroid hormone, as well as the sympathetic nervous system. To address the significance of this region in vivo, we deleted the sequence between -510 to -1413 bp, relative to Tnfsf11 exon 1, from mice using CRISPR-based gene editing. MicroCT analysis of the femur and fourth lumbar vertebra of enhancer knockout mice showed no differences in bone mass compared to wild type littermates at 5 weeks and 6 months of age, suggesting no changes in osteoclast formation. RNA extracted from the tibia, fifth lumbar vertebra, thymus, and spleen at 6 months of age also showed no reduction in Tnfsf11 mRNA abundance between these groups. However, maximal stimulation of Tnfsf11 mRNA abundance in cultured stromal cells by PTH was reduced approximately 40% by enhancer deletion, while stimulation by 1,25-(OH)2 vitamin D3 was unaffected. The abundance of B and T lymphocytes in the bone marrow did not differ between genotypes. These results demonstrate that the region between -510 and -1413 does not contribute to Tnfsf11 expression, osteoclast support, or lymphocyte production in mice under normal physiological conditions but may be involved in situations of elevated parathyroid hormone.
细胞因子 RANKL 对于生理和病理骨质吸收过程中的破骨细胞形成是必不可少的。RANKL 还参与淋巴细胞的产生、淋巴结和乳腺的发育以及其他生物学活性。编码 RANKL 的 Tnfsf11 基因的转录控制非常复杂,涉及到远距离调控区域。尽管如此,细胞培养研究表明,转录起始位点附近的增强子区域参与了激素(如 1,25-(OH)2 维生素 D3 和甲状旁腺激素)以及交感神经系统对 Tnfsf11 表达的控制。为了研究该区域在体内的意义,我们使用基于 CRISPR 的基因编辑技术,从小鼠中删除了相对于 Tnfsf11 外显子 1 的 -510 至-1413bp 序列。增强子敲除小鼠股骨和第四腰椎的 MicroCT 分析显示,与野生型同窝仔鼠相比,在 5 周和 6 月龄时骨量没有差异,提示破骨细胞形成没有变化。6 月龄时从胫骨、第五腰椎、胸腺和脾脏提取的 RNA 也显示,这些组之间的 Tnfsf11 mRNA 丰度没有降低。然而,PTH 对培养的基质细胞中 Tnfsf11 mRNA 丰度的最大刺激作用通过增强子缺失降低了约 40%,而 1,25-(OH)2 维生素 D3 的刺激作用不受影响。骨髓中 B 和 T 淋巴细胞的丰度在基因型之间没有差异。这些结果表明,-510 至-1413 之间的区域在正常生理条件下的小鼠中不参与 Tnfsf11 表达、破骨细胞支持或淋巴细胞产生,但可能参与甲状旁腺激素升高的情况。
