在鼠先天性脐膨出模型中，利用纳米凝胶交联多孔冻干凝胶支架上的直接重编程诱导成肌细胞构建骨骼肌片。

Development of a skeletal muscle sheet with direct reprogramming-induced myoblasts on a nanogel-cross-linked porous freeze-dried gel scaffold in a mouse gastroschisis model.

机构信息

Department of Pediatric Surgery, Kyoto Prefectural University of Medicine, 465 Kawaramachi-Hirokoji, Kamigyo-Ku, Kyoto, 602-8566, Japan.

Department of Immunology, Kyoto Prefectural University of Medicine, Kyoto, Japan.

出版信息

Pediatr Surg Int. 2024 Aug 26;40(1):241. doi: 10.1007/s00383-024-05811-z.

DOI:10.1007/s00383-024-05811-z

PMID:39183231

Abstract

PURPOSE

In this study, we attempted to create skeletal muscle sheets made of directly converted myoblasts (dMBs) with a nanogel scaffold on a biosheet using a mouse gastroschisis model.

METHODS

dMBs were prepared by the co-transfection of MYOD1 and MYCL into human fibroblasts. Silicon tubes were implanted under the skin of NOG/SCID mice, and biosheets were formed. The nanogel was a nanoscale hydrogel based on cholesterol-modified pullulan, and a NanoClip-FD gel was prepared by freeze-drying the nanogel. 7 mm in length was created in the abdominal wall of NOG/SCID mice as a mouse gastroschisis model. Matrigel or NanoCliP-FD gel seeded with dMBs was placed on the biosheet and implanted on the model mice.

RESULTS

Fourteen days after surgery, dMBs with Matrigel showed a small amount of coarse aggregations of muscle-like cells. In contrast, dMBs with NanoCliP-FD gel showed multinucleated muscle-like cells, which were expressed as desmin and myogenin by fluorescent immunostaining.

CONCLUSION

Nanogels have a porous structure and are useful as scaffolds for tissue regeneration by supplying oxygen and nutrients supply to the cells. Combining dMBs and nanogels on the biosheets resulted in the differentiation and engraftment of skeletal muscle, suggesting the possibility of developing skeletal muscle sheets derived from autologous cells and tissues.

摘要

目的

在这项研究中，我们试图利用一种鼠腹裂模型，在生物片上使用纳米凝胶支架，由直接转化的成肌细胞（dMBs）制造骨骼肌片。

方法

通过将 MYOD1 和 MYCL 共转染到人类成纤维细胞中，制备 dMBs。将硅管植入 NOG/SCID 小鼠的皮下，形成生物片。纳米凝胶是一种基于胆固醇修饰的普鲁兰的纳米级水凝胶，并通过冷冻干燥纳米凝胶制备 NanoClip-FD 凝胶。在 NOG/SCID 小鼠的腹壁上创建 7 毫米长的切口作为鼠腹裂模型。将 Matrigel 或载有 dMBs 的 NanoCliP-FD 凝胶置于生物片上，并植入模型小鼠。

结果

手术后 14 天，用 Matrigel 处理的 dMBs 显示出少量粗糙的肌样细胞聚集。相比之下，用 NanoCliP-FD 凝胶处理的 dMBs 显示出多核肌样细胞，这些细胞通过荧光免疫染色表达为结蛋白和肌生成素。

结论

纳米凝胶具有多孔结构，可作为组织再生的支架，为细胞提供氧气和营养物质供应。将 dMBs 和纳米凝胶结合在生物片上，导致骨骼肌的分化和植入，这表明有可能开发源自自体细胞和组织的骨骼肌片。

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在鼠先天性脐膨出模型中，利用纳米凝胶交联多孔冻干凝胶支架上的直接重编程诱导成肌细胞构建骨骼肌片。

Development of a skeletal muscle sheet with direct reprogramming-induced myoblasts on a nanogel-cross-linked porous freeze-dried gel scaffold in a mouse gastroschisis model.

机构信息

出版信息

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METHODS

RESULTS

CONCLUSION

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结果

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