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载 SATB2 修饰的 iPSCs 的丝素支架在小鼠模型中修复临界尺寸颅骨骨缺损

Critical-size calvarial bone defects healing in a mouse model with silk scaffolds and SATB2-modified iPSCs.

机构信息

Division of Oral Biology, Tufts University School of Dental Medicine, One Kneeland Street, Boston, MA 02111, USA.

出版信息

Biomaterials. 2011 Aug;32(22):5065-76. doi: 10.1016/j.biomaterials.2011.03.053. Epub 2011 Apr 13.

DOI:10.1016/j.biomaterials.2011.03.053
PMID:21492931
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3100415/
Abstract

Induced pluripotent stem cells (iPSCs) can differentiate into mineralizing cells and thus have a great potential in application in engineered bone substitutes with bioactive scaffolds in regeneration medicine. In the current study we characterized and demonstrated the pluripotency and osteogenic differentiation of mouse iPSCs. To enhance the osteogenic differentiation of iPSCs, we then transduced the iPSCs with the potent transcription factor, nuclear matrix protein SATB2. We observed that in SATB2-overexpressing iPSCs there were increased mineral nodule formation and elevated mRNA levels of key osteogenic genes, osterix (OSX), Runx2, bone sialoprotein (BSP) and osteocalcin (OCN). Moreover, the mRNA levels of HoxA2 was reduced after SATB2 overexpression in iPSCs. The SATB2-overexpressing iPSCs were then combined with silk scaffolds and transplanted into critical-size calvarial bone defects created in nude mice. Five weeks post-surgery, radiological and micro-CT analysis revealed enhanced new bone formation in calvarial defects in SATB2 group. Histological analysis also showed increased new bone formation and mineralization in the SATB2 group. In conclusion, the results demonstrate that SATB2 facilitates the differentiation of iPSCs towards osteoblast-lineage cells by repressing HoxA2 and augmenting the functions of the osteoblast determinants Runx2, BSP and OCN.

摘要

诱导多能干细胞(iPSCs)可以分化为矿化细胞,因此在再生医学中具有生物活性支架的工程骨替代物的应用中有很大的潜力。在本研究中,我们对小鼠 iPSCs 的多能性和成骨分化进行了表征和验证。为了增强 iPSCs 的成骨分化,我们随后用有效的转录因子核基质蛋白 SATB2 转导 iPSCs。我们观察到,在 SATB2 过表达的 iPSCs 中,矿化结节形成增加,关键成骨基因 osterix(OSX)、Runx2、骨唾液蛋白(BSP)和骨钙素(OCN)的 mRNA 水平升高。此外,在 iPSCs 中转染 SATB2 后,HoxA2 的 mRNA 水平降低。然后将 SATB2 过表达的 iPSCs 与丝支架结合并移植到裸鼠的临界尺寸颅骨骨缺损中。手术后 5 周,放射学和 micro-CT 分析显示 SATB2 组颅骨缺损中增强了新骨形成。组织学分析还显示 SATB2 组有更多的新骨形成和矿化。总之,结果表明 SATB2 通过抑制 HoxA2 并增强成骨决定因子 Runx2、BSP 和 OCN 的功能,促进 iPSCs 向成骨细胞系分化。

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