Amino acids and IGF1 regulation of fish muscle growth revealed by transcriptome and microRNAome integrative analyses of pacu (Piaractus mesopotamicus) myotubes [miRNA-seq]

Amino acids (AA) and IGF1 have demonstrated to play essential roles in protein synthesis and fish muscle growth. The myoblast cell culture is useful to study the muscle regulation, and omics data have contributed enormously to understand its molecular biology. However, to our knowledge, no study has performed large-scale sequencing of fish cultured muscle cells stimulated with pro-growth signals. In this work, we obtained the transcriptome and microRNAome of pacu (Piaractus mesopotamicus) cultured myotubes treated with AA or IGF1. We identified 1228 and 534 genes differentially expressed by AA and IGF1. Enrichment analysis showed that AA treatment induced chromosomal changes, mitosis, and muscle differentiation, while IGF1 modulated IGF/PI3K signalling, metabolic alteration, and matrix structure. In addition, potential molecular markers were similarly modulated by both treatments. Muscle-miRNAs (miR-1, -133, -206 and -499) were up-regulated especially in AA samples, and we identified molecular networks with omics integration. Two pairs of genes and miRNAs showed high level of relationship, and involvement in myogenesis and muscle growth: marcksb and miR-29b in AA, and mmp14b and miR-338-5p in IGF1. Our work helps to elucidate fish muscle physiology and metabolism, highlights potential molecular markers, and creates perspective for improvements in aquaculture and in vitro meat production. Overall design: To obtain the microRNAome profile of pacu (Piaractus mesopotamicus) muscle cells treated with amino acids (AA), IGF1 or cultived in nutrient restriction medium