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  • Title: Intraosseous transplant of dystrophin expressing chimeric (DEC) cells improves skeletal muscle function in mdx mouse model of Duchenne muscular dystrophy.
    Author: Malik M, Siemionow M, Cwykiel J, Heydemann A, Garcia-Martinez J, Siemionow K, Szilagyi E.
    Journal: Postepy Kardiol Interwencyjnej; 2022 Dec; 18(4):399-406. PubMed ID: 36967847.
    Abstract:
    INTRODUCTION: We previously reported that systemic delivery of dystrophin expressing chimeric (DEC) cells of normal (wt) and dystrophin-deficient (mdx) myoblast (MB) or mesenchymal stem cell (MSC) origin restored dystrophin expression and improved cardiac function in the mdx mouse model of Duchenne muscular dystrophy (DMD). AIM: This study evaluated the effect of intraosseous delivery of murine DEC lines of MB (MB wt /MB mdx ) and MSC (MB wt /MSC mdx ) origin on function of gastrocnemius muscle (GM). MATERIAL AND METHODS: DEC lines created by ex vivo fusion were tested in the mdx mouse model of DMD: Group 1 - vehicle (control), Group 2 - non-fused 0.25 × 106 MB wt and 0.25 × 106 MSC mdx (control), Group 3 - fused 0.5 × 106 MB wt /MB mdx DEC and Group 4 - fused 0.5 × 106 MB wt /MSCmdx DEC. In situ and in vitro muscle force tests assessed GM function at 90 days post-transplant. RESULTS: Application of MB wt /MSC mdx and MB wt /MB mdx DEC significantly improved the fatigue ratio of GM compared to vehicle-injected controls detected by in vivo muscle force tests (0.567 ±0.116, p = 0.045 and 0.489 ±0.087, p < 0.05, respectively). MB wt /MSCmdx DEC recipients presented enhanced maximum force at tetanus (0.145 ±0.040 g/mg, p < 0.05); furthermore, recipients of MB wt /MBmdx DEC showed a significant increase in the maximum force generation rate compared to vehicle controls (4.447 ±1.090 g/s/mg, p < 0.05). The ex vivo GM force testing in MB wt /MSCmdx DEC recipients detected increased average GM force compared to vehicle and non-fused controls. CONCLUSIONS: Systemic-intraosseous administration of MB wt /MBmdx and MB wt /MSCmdx DEC therapy combining the myogenic and immunomodulatory properties of MB and MSC significantly improved skeletal muscle (GM) function of force and resistance to fatigue in an mdx mouse model of DMD.
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