Optimization of Xenografting Methods for Generating Human Skeletal Muscle in Mice

IF 3.2 4区 医学 Q3 CELL & TISSUE ENGINEERING Cell Transplantation Pub Date : 2024-04-11 DOI:10.1177/09636897241242624
Andrea O’Neill, Anna Llach Martinez, Amber L. Mueller, Weiliang Huang, Anthony Accorsi, Maureen A. Kane, David Eyerman, Robert J. Bloch
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Abstract

Xenografts of human skeletal muscle generated in mice can be used to study muscle pathology and to test drugs designed to treat myopathies and muscular dystrophies for their efficacy and specificity in human tissue. We previously developed methods to generate mature human skeletal muscles in immunocompromised mice starting with human myogenic precursor cells (hMPCs) from healthy individuals and individuals with facioscapulohumeral muscular dystrophy (FSHD). Here, we examine a series of alternative treatments at each stage in order to optimize engraftment. We show that (i) X-irradiation at 25Gy is optimal in preventing regeneration of murine muscle while supporting robust engraftment and the formation of human fibers without significant murine contamination; (ii) hMPC lines differ in their capacity to engraft; (iii) some hMPC lines yield grafts that respond better to intermittent neuromuscular electrical stimulation (iNMES) than others; (iv) some lines engraft better in male than in female mice; (v) coinjection of hMPCs with laminin, gelatin, Matrigel, or Growdex does not improve engraftment; (vi) BaCl2 is an acceptable replacement for cardiotoxin, but other snake venom preparations and toxins, including the major component of cardiotoxin, cytotoxin 5, are not; and (vii) generating grafts in both hindlimbs followed by iNMES of each limb yields more robust grafts than housing mice in cages with running wheels. Our results suggest that replacing cardiotoxin with BaCl2 and engrafting both tibialis anterior muscles generates robust grafts of adult human muscle tissue in mice.
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优化在小鼠体内生成人类骨骼肌的异种移植方法
在小鼠体内生成的人类骨骼肌异种移植物可用于研究肌肉病理学,并测试用于治疗肌病和肌肉萎缩症的药物在人体组织中的疗效和特异性。我们以前开发出了在免疫受损小鼠体内生成成熟人类骨骼肌的方法,这种方法以来自健康人和面盖肱肌营养不良症(FSHD)患者的人类肌原前体细胞(hMPCs)为起点。在这里,我们研究了每个阶段的一系列替代治疗方法,以优化移植效果。我们的研究结果表明:(i) 25Gy X 射线辐照是防止小鼠肌肉再生的最佳方法,同时可支持强有力的移植和人类纤维的形成,而不会对小鼠造成严重污染;(ii) hMPC 品系的移植能力各不相同;(iii) 一些 hMPC 品系产生的移植物对间歇性神经肌肉电刺激(iNMES)的反应比其他品系更好;(iv) 一些品系在雄性小鼠中的移植效果比在雌性小鼠中更好;(v) hMPCs 与层粘连蛋白、明胶、Matrigel 或 Growdex 共同注射并不能改善移植效果;(vi) BaCl2 是一种可接受的心脏毒素替代品,但其他蛇毒制剂和毒素,包括心脏毒素的主要成分细胞毒素 5,则不能接受;以及 (vii) 与将小鼠关在装有跑步轮的笼子里相比,在两只后肢上生成移植物,然后对每只肢体进行间歇性神经肌肉电刺激(iNMES)可获得更稳固的移植物。我们的研究结果表明,用 BaCl2 代替心脏毒素并移植两块胫骨前肌,可在小鼠体内产生稳健的成人肌肉组织移植物。
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来源期刊
Cell Transplantation
Cell Transplantation 生物-细胞与组织工程
CiteScore
6.00
自引率
3.00%
发文量
97
审稿时长
6 months
期刊介绍: Cell Transplantation, The Regenerative Medicine Journal is an open access, peer reviewed journal that is published 12 times annually. Cell Transplantation is a multi-disciplinary forum for publication of articles on cell transplantation and its applications to human diseases. Articles focus on a myriad of topics including the physiological, medical, pre-clinical, tissue engineering, stem cell, and device-oriented aspects of the nervous, endocrine, cardiovascular, and endothelial systems, as well as genetically engineered cells. Cell Transplantation also reports on relevant technological advances, clinical studies, and regulatory considerations related to the implantation of cells into the body in order to provide complete coverage of the field.
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