An integrated analysis of mRNA and miRNA in skeletal muscle from myostatin-edited Meishan pigs.

Myostatin (MSTN) is a key muscle factor that negatively regulates skeletal muscle growth and development. Our laboratory recently produced genetically engineered Meishan pigs containing a -edited MSTN loss-of-function mutation (MSTN, MKO) that led to the hypertrophy of skeletal muscles. In this study, we performed transcriptome sequencing and miRNA sequencing in skeletal muscle samples from MKO and wildtype Meishan (MWT) pigs to investigate the effect of MSTN on expression of mRNA and miRNA. Our results indicated that, compared to MWT pigs, there were 200 genes and 4 miRNAs being significantly up-regulated, and 238 genes and 5 miRNAs being significantly down-regulated in MKO pigs. Analysis by GO and KEGG pathways revealed that differentially expressed miRNAs and their target genes of those differentially expressed miRNAs were involved in the signal pathways of skeletal muscle growth and development such as AMPK, mTOR, and TGF-beta. An integrated analysis of the correlation between miRNA-mRNA and transcriptome predicated that and were target genes for miR-499-5p, while was a target gene for miR-490-3p. Our results provide important clues to help us further investigate MSTN's regulatory mechanisms during skeletal muscle growth and development.

Xie S ，Li X ，Qian L ，Cai C ，Xiao G ，Jiang S ，Li B ，Gao T ，Cui W ... -  《-》

Identification of genes related to skeletal muscle growth and development by integrated analysis of transcriptome and proteome in myostatin-edited Meishan pigs.

Embryonic development of skeletal muscle is a complex process that is important to the growth of skeletal muscle after birth. However, the mechanisms by which skeletal muscle growth and development in embryonic phase remain unclear. We have previously produced myostatin-knockout (MKO) Meishan pigs with double-muscle (DM) phenotype via zinc finger nucleases (ZFN) technology. To further investigate the molecular mechanisms involved in skeletal muscle growth and development, in this study, we performed an integrated analysis of transcriptome and proteome in longissimus dorsi muscle from myostatin wild type (MWT) and MKO pigs on 65 days post coitus. Results showed that, compared with MWT group, there were 438 differentially expressed genes (DEGs) and 66 differentially expressed proteins (DEPs) in MKO group. These DEGs and DEPs were mainly enriched in signaling pathways that are involved in skeletal muscle growth and development, glucose metabolism and apoptosis. Furthermore, we identified two key genes, Troponin T 1 (TNNT1) and Myosin regulatory light chain 9 (MYL9), which showed significant changes in both mRNA and protein levels with the similar changing trends in MKO group. It is thus speculated that TNNT1 and MYL9 may play an important role in skeletal muscle growth and development. SIGNIFICANCE: Our study analyzed some important regulatory genes and proteins during skeletal muscle growth and development, our results provided (1) a new insight to further understanding of the molecular mechanisms by which growth and development are regulated in porcine skeletal muscle, and (2) some possible molecular makers for improvement of meat quality in the animal husbandry and diagnosis of human muscle diseases in medicine.

Li X ，Xie S ，Qian L ，Cai C ，Bi H ，Cui W ... -  《-》

Systematic transcriptome-wide analysis of mRNA-miRNA interactions reveals the involvement of miR-142-5p and its target (FOXO3) in skeletal muscle growth in chickens.

The goal of this study was to perform a systematic transcriptome-wide analysis of mRNA-miRNA interactions and to identify candidates involved in the interplay between miRNAs and mRNAs that regulate chicken muscle growth. We used our previously published mRNA (GSE72424) and miRNA (GSE62971) deep sequencing data from two-tailed samples [i.e., the highest (h) and lowest (l) body weights] of Recessive White Rock (WRR) and Xinghua (XH) chickens to conduct integrative analyses of the miRNA-mRNA interactions involved in chicken skeletal muscle growth. A total of 162, 15, 173, and 27 miRNA-mRNA pairs with negatively correlated expression patterns were identified in miRNA-mRNA networks constructed on the basis of the WRR vs. XH, WRR vs. WRR, WRR vs. XH, and XH vs. XH comparisons, respectively. Ingenuity Pathway Analysis revealed that gene networks identified for the WRR vs. XH contrast were associated with developmental disorders. Importantly, the WRR vs. XH contrast miRNA-mRNA network was enriched in IGF-1 signaling pathway genes, including FOXO3. A dual-luciferase reporter assay showed that FOXO3 was a target of miR-142-5p. Furthermore, miR-142-5p overexpression significantly decreased FOXO3 mRNA levels and promoted the expression of growth-related genes. These data demonstrated that miR-142-5p targets FOXO3 and promotes growth-related gene expression and regulates skeletal muscle growth in chicken. Comprehensive analysis facilitated the identification of miRNAs and target genes that might contribute to the regulation of skeletal muscle development. Our results provide new clues for understanding the molecular basis of chicken growth.

Li Z ，Abdalla BA ，Zheng M ，He X ，Cai B ，Han P ，Ouyang H ，Chen B ，Nie Q ，Zhang X ... -  《-》

Transcriptome analysis of mRNA and miRNA in skeletal muscle indicates an important network for differential Residual Feed Intake in pigs.

Feed efficiency (FE) can be measured by feed conversion ratio (FCR) or residual feed intake (RFI). In this study, we measured the FE related phenotypes of 236 castrated purebred Yorkshire boars, and selected 10 extreme individuals with high and low RFI for transcriptome analysis. We used RNA-seq analyses to determine the differential expression of genes and miRNAs in skeletal muscle. There were 99 differentially expressed genes identified (q ≤ 0.05). The down-regulated genes were mainly involved in mitochondrial energy metabolism, including FABP3, RCAN, PPARGC1 (PGC-1A), HK2 and PRKAG2. The up-regulated genes were mainly involved in skeletal muscle differentiation and proliferation, including IGF2, PDE7A, CEBPD, PIK3R1 and MYH6. Moreover, 15 differentially expressed miRNAs (|log2FC| ≥ 1, total reads count ≥ 20, p ≤ 0.05) were identified. Among them, miR-136, miR-30e-5p, miR-1, miR-208b, miR-199a, miR-101 and miR-29c were up-regulated, while miR-215, miR-365-5p, miR-486, miR-1271, miR-145, miR-99b, miR-191 and miR-10b were down-regulated in low RFI pigs. We conclude that decreasing mitochondrial energy metabolism, possibly through AMPK - PGC-1A pathways, and increasing muscle growth, through IGF-1/2 and TGF-β signaling pathways, are potential strategies for the improvement of FE in pigs (and possibly other livestock). This study provides new insights into the molecular mechanisms that determine RFI and FE in pigs.

Jing L ，Hou Y ，Wu H ，Miao Y ，Li X ，Cao J ，Brameld JM ，Parr T ，Zhao S ... -  《Scientific Reports》

Altered miRNA and mRNA Expression in Sika Deer Skeletal Muscle with Age.

Studies of the gene and miRNA expression profiles associated with the postnatal late growth, development, and aging of skeletal muscle are lacking in sika deer. To understand the molecular mechanisms of the growth and development of sika deer skeletal muscle, we used de novo RNA sequencing (RNA-seq) and microRNA sequencing (miRNA-seq) analyses to determine the differentially expressed (DE) unigenes and miRNAs from skeletal muscle tissues at 1, 3, 5, and 10 years in sika deer. A total of 51,716 unigenes, 171 known miRNAs, and 60 novel miRNAs were identified based on four mRNA and small RNA libraries. A total of 2,044 unigenes and 11 miRNAs were differentially expressed between adolescence and juvenile sika deer, 1,946 unigenes and 4 miRNAs were differentially expressed between adult and adolescent sika deer, and 2,209 unigenes and 1 miRNAs were differentially expressed between aged and adult sika deer. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses showed that DE unigenes and miRNA were mainly related to energy and substance metabolism, processes that are closely associate with the growth, development, and aging of skeletal muscle. We also constructed mRNA-mRNA and miRNA-mRNA interaction networks related to the growth, development, and aging of skeletal muscle. The results show that mRNA (Myh1, Myh2, Myh7, ACTN3, etc.) and miRNAs (miR-133a, miR-133c, miR-192, miR-151-3p, etc.) may play important roles in muscle growth and development, and mRNA (WWP1, DEK, UCP3, FUS, etc.) and miRNAs (miR-17-5p, miR-378b, miR-199a-5p, miR-7, etc.) may have key roles in muscle aging. In this study, we determined the dynamic miRNA and unigenes transcriptome in muscle tissue for the first time in sika deer. The age-dependent miRNAs and unigenes identified will offer insights into the molecular mechanism underlying muscle development, growth, and maintenance and will also provide valuable information for sika deer genetic breeding.

Jia B ，Liu Y ，Li Q ，Zhang J ，Ge C ，Wang G ，Chen G ，Liu D ，Yang F ... -  《Genes》