Enpp1 mutations promote upregulation of hedgehog signaling in heterotopic ossification with aging.

IF 2.4 3区医学 Q3 ENDOCRINOLOGY & METABOLISM Journal of Bone and Mineral Metabolism Pub Date : 2024-11-01 Epub Date: 2024-08-30 DOI:10.1007/s00774-024-01543-1

Zhongyuan He, Zhengya Zhu, Tao Tang, Fuan Wang, Peng Guo, Jianfeng Li, Nguyen Tran Canh Tung, Qian Liang, Shaoyu Liu, ManMan Gao, Xizhe Liu, Zhiyu Zhou

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Abstract

Introduction: Heterotopic ossification of the tendon and ligament (HOTL) is a chronic progressive disease that is usually accompanied by thickening and ossification of ligaments and high osteogenic activity of the surrounding ligament tissue. However, the molecular mechanism of maintaining the cellular phenotype of HOTL remains unclear.

Materials and methods: We first constructed a model of HOTL, Enpp1^flox/flox/EIIa-Cre mice, a novel genetic mouse system. Imaging, histological, and cell-level analyses were performed to investigate the progressive ossification of the posterior longitudinal ligament, Achilles tendons, and degeneration joints caused by Enpp1 deficiency.

Results: The results indicate that Enpp1 deficiency led to markedly progressive heterotopic ossification (HO), especially spine, and Achilles tendons, and was associated with progressive degeneration of the knees. The bone mass was decreased in the long bone. Furthermore, fibroblasts from Enpp1^flox/flox/EIIa-Cre mice had greater osteogenic differentiation potential following induction by osteogenesis, accompanied by enhanced hedgehog (Hh) signaling. In addition, fibroblast cells show senescence, and aggravation of the senescence phenotype by further osteogenic induction.

Conclusion: Our study indicated that with increasing age, mutations in Enpp1 promote ectopic ossification of spinal ligaments and endochondral ossification in tendons and further aggravate knee degeneration by upregulating hedgehog signaling.

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Enpp1突变会促进刺猬信号在异位骨化过程中的上调。

导言：肌腱和韧带异位骨化（HOTL）是一种慢性进行性疾病，通常伴有韧带的增厚和骨化以及周围韧带组织的高成骨活性。然而，维持 HOTL 细胞表型的分子机制仍不清楚：我们首先构建了一种新型遗传小鼠系统--Enpp1flox/flox/EIIa-Cre小鼠--HOTL模型。结果表明，Enpp1缺失会导致后纵韧带、跟腱和退化关节的逐渐骨化：结果：结果表明，Enpp1缺乏会导致明显的进行性异位骨化（HO），尤其是脊柱和跟腱，并与膝关节的进行性退化有关。长骨的骨量减少。此外，Enpp1flox/flox/EIIa-Cre小鼠的成纤维细胞在成骨诱导后具有更大的成骨分化潜能，同时伴随着刺猬（Hh）信号的增强。此外，成纤维细胞表现出衰老，而进一步的成骨诱导会加重衰老表型：我们的研究表明，随着年龄的增长，Enpp1 基因突变会促进脊柱韧带的异位骨化和肌腱的软骨内骨化，并通过上调 hedgehog 信号进一步加重膝关节退化。

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来源期刊

Journal of Bone and Mineral Metabolism 医学-内分泌学与代谢

CiteScore

6.30

自引率

3.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Bone and Mineral Metabolism (JBMM) provides an international forum for researchers and clinicians to present and discuss topics relevant to bone, teeth, and mineral metabolism, as well as joint and musculoskeletal disorders. The journal welcomes the submission of manuscripts from any country. Membership in the society is not a prerequisite for submission. Acceptance is based on the originality, significance, and validity of the material presented. The journal is aimed at researchers and clinicians dedicated to improvements in research, development, and patient-care in the fields of bone and mineral metabolism.