2018
H19 lncRNA Promotes Skeletal Muscle Insulin Sensitivity in Part by Targeting AMPK
Geng T, Liu Y, Xu Y, Jiang Y, Zhang N, Wang Z, Carmichael GG, Taylor HS, Li D, Huang Y. H19 lncRNA Promotes Skeletal Muscle Insulin Sensitivity in Part by Targeting AMPK. Diabetes 2018, 67: db180370. PMID: 30201684, PMCID: PMC6198334, DOI: 10.2337/db18-0370.Peer-Reviewed Original ResearchConceptsMuscle insulin sensitivityEnergy sensor AMPKUnknown physiological functionImportant downstream effectorWhole-body energy metabolismCellular energy sensor AMPKEpigenetic mechanismsMuscle insulin resistanceDownstream effectorsAMPK activationMitochondrial biogenesisSystemic glucose homeostasisSkeletal muscle insulin sensitivityPhysiological functionsImportant regulatorAMPKInsulin-resistant human subjectsDUSP27Energy metabolismH19H19 expressionMuscle cellsSkeletal muscleGlucose uptakePivotal role
2014
The H19/let-7 double-negative feedback loop contributes to glucose metabolism in muscle cells
Gao Y, Wu F, Zhou J, Yan L, Jurczak MJ, Lee HY, Yang L, Mueller M, Zhou XB, Dandolo L, Szendroedi J, Roden M, Flannery C, Taylor H, Carmichael GG, Shulman GI, Huang Y. The H19/let-7 double-negative feedback loop contributes to glucose metabolism in muscle cells. Nucleic Acids Research 2014, 42: 13799-13811. PMID: 25399420, PMCID: PMC4267628, DOI: 10.1093/nar/gku1160.Peer-Reviewed Original ResearchConceptsDouble-negative feedback loopLet-7PI3K/Akt-dependent phosphorylationLet-7 targetsHuman genetic disordersAkt-dependent phosphorylationMuscle cellsInsulin-resistant rodentsSponge lncRNAsMolecular spongeH19 lncRNAFeedback loopGrowth controlDepletion resultsH19Impaired insulinLncRNAsTarget miRNAGlucose uptakeGenetic disordersBiogenesisCellsKSRPPhosphorylationMicroRNAs