Abstract
Long non-coding RNAs (lncRNAs) are well-known to participate in a variety of important regulatory processes in myogenesis. In our previous RNA-seq study (accession number GSE58755), we found that lncRNA-FKBP1C was differentially expressed between White Recessive Rock (WRR) and Xinghua (XH) chicken. Here, we have further demonstrated that lncRNA-FKBP1C interacted directly with MYH1B by biotinylated RNA pull-down assay and RNA immunoprecipitation (RIP). Protein stability and degradation experiments identified that lncRNA-FKBP1C enhanced the protein stability of MYH1B. Overexpression of lncRNA-FKBP1C inhibited myoblasts proliferation, promoted myoblasts differentiation, and participated in the formation of skeletal muscle fibers. LncRNA-FKBP1C could downregulate the fast muscle genes and upregulate slow muscle genes. Conversely, its interference promoted cell proliferation, repressed cell differentiation, and drove the transformation of slow-twitch muscle fibers to fast-twitch muscle fibers. Similar results were observed after knockdown of the MYH1B gene, but the difference was that the MYH1B gene had no effects on fast muscle fibers. In short, these data demonstrate that lncRNA-FKBP1C could bound with MYH1B and enhance its protein stability, thus affecting proliferation, differentiation of myoblasts and conversion of skeletal muscle fiber types.
Highlights
Skeletal muscle is one of the most dynamic tissues involved in a variety of biological processes[1], and the growth and development of skeletal muscle are essential for maintaining skeletal muscle function[2]
We found that Long non-coding RNAs (lncRNAs)-FKBP1C is a lncRNA without protein-encoding potential (Fig. 1E, F)
We further investigated the subcellular localization of lncRNA-FKBP1C, and the RT-PCR results confirmed that it is an RNA molecule present in the cytoplasm and nucleus (Fig. 1C)
Summary
Skeletal muscle is one of the most dynamic tissues involved in a variety of biological processes[1], and the growth and development of skeletal muscle are essential for maintaining skeletal muscle function[2]. Skeletal muscle dysfunction can lead to a variety of human muscle diseases, including muscle dystrophy, type 2 diabetes, cardiomyopathic disease, and other metabolic disorders[3,4,5,6,7]. Skeletal muscle is composed of various muscle fibers types [including type I and type II (IIa, IIb, and IIx) muscle fibers] that are different in function, biochemical characteristics, and morphological characteristics[8,9,10]. With the continuous advancement of sequencing technology, lncRNA have been found to participate in a variety of important regulatory processes[16,17,18,19]
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