Prenatal Skeletal Muscle Transcriptome Analysis Reveals Novel Microrna-Mrna Networks Associated With Intrauterine Growth Restriction In Pigs

Intrauterine growth restriction (IUGR) occurs in 15-20% of pig neonates and poses huge economic losses to the pig industry. IUGR piglets have reduced skeletal muscle growth, which may persist after birth. Prenatal muscle growth is regulated by complex molecular pathways that are not well understood. MicroRNAs (miRNAs) have emerged as the main regulators of vital pathways and biological processes in the body. This study was designed to identify miRNA-mRNA networks regulating prenatal skeletal muscle development in pigs. We performed an integrative miRNA-mRNA transcriptomic analysis in longissimus dorsi muscle from IUGR fetuses and appropriate for gestational age (AGA) fetuses at 63 days post conception. Our data showed that 47 miRNAs and 3257 mRNAs were significantly upregulated, and six miRNAs and 477 mRNAs were significantly downregulated in IUGR compared to AGA fetuses. Moreover, 47 upregulated miRNAs were negatively correlated and can potentially target 326 downregulated genes, whereas six downregulated miRNAs were negatively correlated and can potentially target 1291 upregulated genes. These miRNA-mRNA networks showed enrichment in biological processes and pathways critical for fetal growth, development, and metabolism. The miRNA-mRNA networks identified in this study can potentially serve as indicators of prenatal fetal growth and development as well as postnatal carcass quality.