Molecular Therapy: Nucleic Acids (Dec 2021)

HMEJ-mediated site-specific integration of a myostatin inhibitor increases skeletal muscle mass in porcine

  • Mengjing Li,
  • Xiaochun Tang,
  • Wenni You,
  • Yanbing Wang,
  • Yiwu Chen,
  • Ying Liu,
  • Hongming Yuan,
  • Chuang Gao,
  • Xue Chen,
  • Zhiwei Xiao,
  • Hongsheng Ouyang,
  • Daxin Pang

Journal volume & issue
Vol. 26
pp. 49 – 62

Abstract

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As a robust antagonist of myostatin (MSTN), follistatin (FST) is an important regulator of skeletal muscle development, and the delivery of FST to muscle tissue represents a potential therapeutic strategy for muscular dystrophies. The N terminus and FSI domain of FST are the functional domains for MSTN binding. Here, we aimed to achieve site-specific integration of FSI-I-I, including the signal peptide, N terminus, and three FSI domains, into the last codon of the porcine MSTN gene using a homology-mediated end joining (HMEJ)-based strategy mediated by CRISPR-Cas9. Based on somatic cell nuclear transfer (SCNT) technology, we successfully obtained FSI-I-I knockin pigs. H&E staining of longissimus dorsi and gastrocnemius cross-sections showed larger myofiber sizes in FSI-I-I knockin pigs than in controls. Moreover, the Smad and Erk pathways were inhibited, whereas the PI3k/Akt pathway was activated in FSI-I-I knockin pigs. In addition, the levels of MyoD, Myf5, and MyoG transcription were upregulated while that of MRF4 was downregulated in FSI-I-I knockin pigs. These results indicate that the FSI-I-I gene mediates skeletal muscle hypertrophy through an MSTN-related signaling pathway and the expression of myogenic regulatory factors. Overall, FSI-I-I knockin pigs with hypertrophic muscle tissue hold great promise as a therapeutic model for human muscular dystrophies.

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