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3D 环境在体外是必需的,以证明 2 型糖尿病患者的骨骼代谢特征发生改变。

3D Environment Is Required In Vitro to Demonstrate Altered Bone Metabolism Characteristic for Type 2 Diabetics.

机构信息

Siegfried Weller Research Institute, BG Trauma Center Tübingen, Department of Trauma and Reconstructive Surgery, University of Tübingen, Schnarrenbergstr. 95, D-72076 Tübingen, Germany.

Department of Diagnostic and Interventional Radiology, University of Tübingen, Hoppe-Seyler-Str. 3, D-72076 Tübingen, Germany.

出版信息

Int J Mol Sci. 2021 Mar 13;22(6):2925. doi: 10.3390/ijms22062925.

DOI:10.3390/ijms22062925
PMID:33805833
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8002142/
Abstract

A large British study, with almost 3000 patients, identified diabetes as main risk factor for delayed and nonunion fracture healing, the treatment of which causes large costs for the health system. In the past years, much progress has been made to treat common complications in diabetics. However, there is still a lack of advanced strategies to treat diabetic bone diseases. To develop such therapeutic strategies, mechanisms leading to massive bone alterations in diabetics have to be well understood. We herein describe an in vitro model displaying bone metabolism frequently observed in diabetics. The model is based on osteoblastic SaOS-2 cells, which in direct coculture, stimulate THP-1 cells to form osteoclasts. While in conventional 2D cocultures formation of mineralized matrix is decreased under pre-/diabetic conditions, formation of mineralized matrix is increased in 3D cocultures. Furthermore, we demonstrate a matrix stability of the 3D carrier that is decreased under pre-/diabetic conditions, resembling the in vivo situation in type 2 diabetics. In summary, our results show that a 3D environment is required in this in vitro model to mimic alterations in bone metabolism characteristic for pre-/diabetes. The ability to measure both osteoblast and osteoclast function, and their effect on mineralization and stability of the 3D carrier offers the possibility to use this model also for other purposes, e.g., drug screenings.

摘要

一项大型英国研究,纳入近 3000 例患者,发现糖尿病是导致骨折愈合延迟和不愈合的主要危险因素,而骨折愈合的治疗会给医疗系统带来巨大的成本。在过去的几年中,人们在治疗糖尿病患者常见并发症方面取得了很大进展。然而,治疗糖尿病性骨病仍然缺乏先进的策略。为了开发这种治疗策略,必须充分了解导致糖尿病患者大量骨改变的机制。我们在此描述了一种体外模型,该模型显示了糖尿病患者中经常观察到的骨代谢。该模型基于成骨细胞 SaOS-2 细胞,这些细胞在直接共培养中刺激 THP-1 细胞形成破骨细胞。虽然在传统的 2D 共培养中,在糖尿病前期/糖尿病条件下矿化基质的形成减少,但在 3D 共培养中增加。此外,我们证明了 3D 载体的基质稳定性在糖尿病前期/糖尿病条件下降低,类似于 2 型糖尿病患者的体内情况。总之,我们的结果表明,该体外模型需要 3D 环境来模拟糖尿病前期/糖尿病特征的骨代谢改变。该模型能够测量成骨细胞和破骨细胞的功能及其对 3D 载体矿化和稳定性的影响,为该模型用于其他目的,例如药物筛选,提供了可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a14/8002142/ec6efbe6e2ed/ijms-22-02925-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a14/8002142/f3528fcd9946/ijms-22-02925-g001.jpg
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