微创肌肉植入产生表达结蛋白和抗肌萎缩蛋白的供体细胞衍生肌纤维。
Minimally Invasive Muscle Embedding Generates Donor-Cell-Derived Muscle Fibers that Express Desmin and Dystrophin.
作者信息
Roche Joseph A, Begam Morium, Eaton Andrea K, Elkins Collin J, Johnson Jaclyn P, Rosinski Mattina M, Galen Sujay S
机构信息
Physical Therapy Program, Department of Health Care Sciences, Wayne State University, 259 Mack Ave. Rm 4440. Detroit, MI 48201.
Department of Physical Therapy, College of Nursing & Health Professions, Georgia State University, 140 Decatur St SE, Atlanta, GA 30303.
出版信息
Mil Med. 2020 Jan 7;185(Suppl 1):423-429. doi: 10.1093/milmed/usz203.
INTRODUCTION
The aim of this study was to quantify the extent of donor-cell-derived myogenesis achieved by a novel surgical technique known as Minimally Invasive Muscle Embedding (MIME).
MATERIALS AND METHODS
Through MIME, we implanted a single extensor digitorum longus muscle from donor mice (N = 2) that expressed a red fluorescent protein (RFP), into the left tibialis anterior (TA) muscle of immunodeficient host mice (N = 4) that expressed a green fluorescent protein (GFP). Soon after MIME, we injected a myotoxin (barium chloride), into the host TA muscle, to trigger concerted muscle degeneration and regeneration. In lieu of MIME, we performed a SHAM procedure on the right TA muscle of the same set of animals.
RESULTS
In MIME-treated muscles, 22% ± 7% and 78% ± 7% muscle fibers were RFP+ and GFP+, respectively (mean ± standard deviation); and all RFP+ fibers were positive for desmin and dystrophin. Conclusion. We conclude that MIME helps generate muscle fibers of donor origin, in host muscle.
引言
本研究的目的是量化一种名为微创肌肉植入术(MIME)的新型外科技术所实现的供体细胞源性肌生成程度。
材料与方法
通过MIME,我们将来自表达红色荧光蛋白(RFP)的供体小鼠(N = 2)的一条趾长伸肌植入表达绿色荧光蛋白(GFP)的免疫缺陷宿主小鼠(N = 4)的左胫骨前肌(TA)中。MIME术后不久,我们向宿主TA肌肉注射一种肌毒素(氯化钡),以引发协同的肌肉退化和再生。作为MIME的替代方法,我们对同一组动物的右侧TA肌肉进行了假手术。
结果
在接受MIME治疗的肌肉中,分别有22%±7%和78%±7%的肌纤维为RFP+和GFP+(平均值±标准差);并且所有RFP+纤维的结蛋白和抗肌萎缩蛋白均呈阳性。结论。我们得出结论,MIME有助于在宿主肌肉中生成供体来源的肌纤维。
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