Literature DB >> 25138607

Multi-omic integrated networks connect DNA methylation and miRNA with skeletal muscle plasticity to chronic exercise in Type 2 diabetic obesity.

David S Rowlands1, Rachel A Page2, William R Sukala2, Mamta Giri3, Svetlana D Ghimbovschi3, Irum Hayat2, Birinder S Cheema4, Isabelle Lys5, Murray Leikis6, Phillip W Sheard7, St John Wakefield8, Bernhard Breier2, Yetrib Hathout3, Kristy Brown3, Ramya Marathi3, Funda E Orkunoglu-Suer3, Joseph M Devaney3, Benjamin Leiken3, Gina Many3, Jeremy Krebs9, Will G Hopkins10, Eric P Hoffman3.   

Abstract

Epigenomic regulation of the transcriptome by DNA methylation and posttranscriptional gene silencing by miRNAs are potential environmental modulators of skeletal muscle plasticity to chronic exercise in healthy and diseased populations. We utilized transcriptome networks to connect exercise-induced differential methylation and miRNA with functional skeletal muscle plasticity. Biopsies of the vastus lateralis were collected from middle-aged Polynesian men and women with morbid obesity (44 kg/m(2) ± 10) and Type 2 diabetes before and following 16 wk of resistance (n = 9) or endurance training (n = 8). Longitudinal transcriptome, methylome, and microRNA (miRNA) responses were obtained via microarray, filtered by novel effect-size based false discovery rate probe selection preceding bioinformatic interrogation. Metabolic and microvascular transcriptome topology dominated the network landscape following endurance exercise. Lipid and glucose metabolism modules were connected to: microRNA (miR)-29a; promoter region hypomethylation of nuclear receptor factor (NRF1) and fatty acid transporter (SLC27A4), and hypermethylation of fatty acid synthase, and to exon hypomethylation of 6-phosphofructo-2-kinase and Ser/Thr protein kinase. Directional change in the endurance networks was validated by lower intramyocellular lipid, increased capillarity, GLUT4, hexokinase, and mitochondrial enzyme activity and proteome. Resistance training also lowered lipid and increased enzyme activity and caused GLUT4 promoter hypomethylation; however, training was inconsequential to GLUT4, capillarity, and metabolic transcriptome. miR-195 connected to negative regulation of vascular development. To conclude, integrated molecular network modelling revealed differential DNA methylation and miRNA expression changes occur in skeletal muscle in response to chronic exercise training that are most pronounced with endurance training and topographically associated with functional metabolic and microvascular plasticity relevant to diabetes rehabilitation.
Copyright © 2014 the American Physiological Society.

Entities:  

Keywords:  diabetes rehabilitation; epigenomic; intramyocellular lipid; myomiRs; network medicine

Mesh:

Substances:

Year:  2014        PMID: 25138607      PMCID: PMC4200377          DOI: 10.1152/physiolgenomics.00024.2014

Source DB:  PubMed          Journal:  Physiol Genomics        ISSN: 1094-8341            Impact factor:   3.107


  102 in total

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