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.

IF 1.5 3区 医学 Q2 PEDIATRICS Pediatric Surgery International Pub Date : 2024-08-26 DOI:10.1007/s00383-024-05811-z
Shinta Nagano, Shigehisa Fumino, Tsunao Kishida, Junko Wakao, Yoshiaki Hirohata, Shohei Takayama, Kiyokazu Kim, Kazunari Akiyoshi, Osam Mazda, Tatsuro Tajiri, Shigeru Ono
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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.

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在一种纳米凝胶交联多孔冻干凝胶支架上用直接重编程诱导的成肌细胞在小鼠胃裂模型中培育骨骼肌片。
目的:在这项研究中,我们试图利用小鼠胃疝模型,在生物片上用纳米凝胶支架制造由直接转化的肌母细胞(dMBs)制成的骨骼肌片。方法:通过将 MYOD1 和 MYCL 共同转染到人成纤维细胞中制备 dMBs。将硅管植入 NOG/SCID 小鼠皮下,形成生物片。纳米凝胶是一种基于胆固醇改性葡聚糖的纳米级水凝胶,通过冷冻干燥纳米凝胶制备了 NanoClip-FD 凝胶。在 NOG/SCID 小鼠的腹壁上创建了 7 毫米长的小鼠胃裂模型。将种有 dMB 的 Matrigel 或 NanoCliP-FD 凝胶置于生物片上并植入模型小鼠体内:结果:手术 14 天后,含有 Matrigel 的 dMB 显示出少量肌肉样细胞的粗大聚集。与此相反,使用 NanoCliP-FD 凝胶的 dMB 显示出多核肌肉样细胞,通过荧光免疫染色,这些细胞表达为 desmin 和 myogenin:结论:纳米凝胶具有多孔结构,可为细胞提供氧气和养分,是组织再生的有效支架。纳米凝胶具有多孔结构,可为细胞提供氧气和营养,是组织再生的有效支架。在生物片上结合使用 dMBs 和纳米凝胶可实现骨骼肌的分化和移植,这为开发源自自体细胞和组织的骨骼肌片提供了可能。
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来源期刊
CiteScore
3.00
自引率
5.60%
发文量
215
审稿时长
3-6 weeks
期刊介绍: Pediatric Surgery International is a journal devoted to the publication of new and important information from the entire spectrum of pediatric surgery. The major purpose of the journal is to promote postgraduate training and further education in the surgery of infants and children. The contents will include articles in clinical and experimental surgery, as well as related fields. One section of each issue is devoted to a special topic, with invited contributions from recognized authorities. Other sections will include: -Review articles- Original articles- Technical innovations- Letters to the editor
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