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seRNA <scp><i>PAM</i></scp> controls skeletal muscle satellite cell proliferation and aging through <i>trans</i> regulation of <i>Timp2</i> expression synergistically with Ddx5

Karl Kam Hei So, Yile Huang, Suyang Zhang, Yulong Qiao, Liangqiang He, Yuying Li, Xiaona Chen, MH Sham, Hao Sun, Huating Wang

2022Aging Cell21 citationsDOIOpen Access PDF

Abstract

Abstract Muscle satellite cells (SCs) are responsible for muscle homeostasis and regeneration and lncRNAs play important roles in regulating SC activities. Here, in this study, we identify PAM (Pax7 Associated Muscle lncRNA) that is induced in activated/proliferating SCs upon injury to promote SC proliferation as myoblast cells. PAM is generated from a myoblast‐specific super‐enhancer (SE); as a seRNA it binds with a number of target genomic loci predominantly in trans . Further studies demonstrate that it interacts with Ddx5 to tether PAM SE to its inter‐chromosomal targets Timp2 and Vim to activate the gene expression. Lastly, we show that PAM expression is increased in aging SCs, which leads to enhanced inter‐chromosomal interaction and target genes upregulation. Altogether, our findings identify PAM as a previously unknown lncRNA that regulates both SC proliferation and aging through its trans gene regulatory activity.

Topics & Concepts

BiologyDownregulation and upregulationCell growthSkeletal muscleCell biologyEnhancerMyocyteGeneGene expressionSatelliteRegulation of gene expressionRegeneration (biology)CellMolecular biologyGeneticsAnatomyAerospace engineeringEngineeringRNA modifications and cancerCancer-related molecular mechanisms researchRNA Research and Splicing