Abstract
The molecular mechanism regulated by microRNAs (miRNAs) that underlies postnatal hypertrophy of skeletal muscle is complex and remains unclear. Here, the miRNAomes of longissimus dorsi muscle collected at five postnatal stages (60, 120, 150, 180, and 210 days after birth) from Large White (commercial breed) and Min pigs (indigenous breed of China) were analyzed by Illumina sequencing. We identified 734 miRNAs comprising 308 annotated miRNAs and 426 novel miRNAs, of which 307 could be considered pig-specific. Comparative analysis between two breeds suggested that 60 and 120 days after birth were important stages for skeletal muscle hypertrophy and intramuscular fat accumulation. A total of 263 miRNAs were significantly differentially expressed between two breeds at one or more developmental stages. In addition, the differentially expressed miRNAs between every two adjacent developmental stages in each breed were determined. Notably, ssc-miR-204 was significantly more highly expressed in Min pig skeletal muscle at all postnatal stages compared with its expression in Large White pig skeletal muscle. Based on gene ontology and KEGG pathway analyses of its predicted target genes, we concluded that ssc-miR-204 may exert an impact on postnatal hypertrophy of skeletal muscle by regulating myoblast proliferation. The results of this study will help in elucidating the mechanism underlying postnatal hypertrophy of skeletal muscle modulated by miRNAs, which could provide valuable information for improvement of pork quality and human myopathy.
Highlights
Skeletal muscle development is critical for growth rate and pork production in pig (Sus scrofa)
Two major signaling pathways control protein synthesis: the insulin-like growth factor 1–phosphoinositide3-kinase/Akt–mammalian target of rapamycin (IGF1—Akt—mTOR) pathway, which acts as a positive regulator [5]; and the myostatin—Smad2/3 pathway, which acts as a negative regulator [6, 7]
We analyzed the miRNAomes of longissimus dorsi muscle collected at five postnatal stages (60,120,150,180,210 dpn) in Large White (LW) and M by Illumina sequencing
Summary
Skeletal muscle development is critical for growth rate and pork production in pig (Sus scrofa). Skeletal muscle development is a complex process, encompassing embryonic myogenesis and postnatal muscle growth. Embryonic myogenesis in pig has three successive waves [2,3] which constitute the origin of the different types of muscle fibers. Following these three waves of myogenesis, the total number of fibers is fixed, which is a key determinant of postnatal muscle growth. Postnatal muscle growth relies largely on satellite cell proliferation and protein turnover which leading to muscle hypertrophy [4]. Satellite cell proliferation is important for postnatal muscle growth. Satellite cell differentiation was found to modulate myofiber growth by regulating the number of satellite cells capable of proliferating [9]
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