The lncRNA RP11-142A22.4 promotes adipogenesis by sponging miR-587 to modulate Wnt5β expression

[1]  N. Grarup,et al.  Dysregulation of a long noncoding RNA reduces leptin leading to a leptin-responsive form of obesity , 2019, Nature Medicine.

[2]  Mingyao Li,et al.  Interrogation of nonconserved human adipose lincRNAs identifies a regulatory role of linc-ADAL in adipocyte metabolism , 2018, Science Translational Medicine.

[3]  K. Clément,et al.  [Adipose tissue fibrosis: an aggravating factor in obesity]. , 2018, Medecine sciences : M/S.

[4]  Yang Cao,et al.  LncRNA‐PAGBC acts as a microRNA sponge and promotes gallbladder tumorigenesis , 2017, EMBO reports.

[5]  Meng Xu,et al.  Long non-coding RNA CASC2 suppresses epithelial-mesenchymal transition of hepatocellular carcinoma cells through CASC2/miR-367/FBXW7 axis , 2017, Molecular Cancer.

[6]  Steven R Smith,et al.  MicroRNA-196 regulates HOX Genes Expression in Human Gluteal Adipose Tissue , 2017, Obesity.

[7]  F. Slack,et al.  Targeting noncoding RNAs in disease , 2017, The Journal of clinical investigation.

[8]  X. Wang,et al.  The role and possible mechanism of lncRNA U90926 in modulating 3T3-L1 preadipocyte differentiation , 2016, International Journal of Obesity.

[9]  Panayiotis Tsanakas,et al.  DIANA-LncBase v2: indexing microRNA targets on non-coding transcripts , 2015, Nucleic Acids Res..

[10]  K. Cianflone,et al.  Adipocyte size as a determinant of metabolic disease and adipose tissue dysfunction , 2015, Critical reviews in clinical laboratory sciences.

[11]  Jing Wang,et al.  MicroRNA-587 antagonizes 5-FU-induced apoptosis and confers drug resistance by regulating PPP2R1B expression in colorectal cancer , 2015, Cell Death and Disease.

[12]  Yen Ching Lim,et al.  De Novo Reconstruction of Adipose Tissue Transcriptomes Reveals Long Non-coding RNA Regulators of Brown Adipocyte Development. , 2015, Cell metabolism.

[13]  Steven R Smith,et al.  Identification of a novel lncRNA in gluteal adipose tissue and evidence for its positive effect on preadipocyte differentiation , 2014, Obesity.

[14]  E. Cuppen,et al.  Extensive localization of long noncoding RNAs to the cytosol and mono- and polyribosomal complexes , 2014, Genome Biology.

[15]  A. Fatica,et al.  Long non-coding RNAs: new players in cell differentiation and development , 2013, Nature Reviews Genetics.

[16]  Howard Y. Chang,et al.  Long Noncoding RNAs: Cellular Address Codes in Development and Disease , 2013, Cell.

[17]  David R. Kelley,et al.  Long noncoding RNAs regulate adipogenesis , 2013, Proceedings of the National Academy of Sciences.

[18]  David G. Knowles,et al.  The GENCODE v7 catalog of human long noncoding RNAs: Analysis of their gene structure, evolution, and expression , 2012, Genome research.

[19]  Oliver Hofmann,et al.  Capture of MicroRNA–Bound mRNAs Identifies the Tumor Suppressor miR-34a as a Regulator of Growth Factor Signaling , 2011, PLoS genetics.

[20]  P. Pandolfi,et al.  A ceRNA Hypothesis: The Rosetta Stone of a Hidden RNA Language? , 2011, Cell.

[21]  H. Smeets,et al.  Wnt5b stimulates adipogenesis by activating PPARgamma, and inhibiting the beta-catenin dependent Wnt signaling pathway together with Wnt5a. , 2009, Biochemical and biophysical research communications.

[22]  C. Ponting,et al.  Evolution and Functions of Long Noncoding RNAs , 2009, Cell.

[23]  O. MacDougald,et al.  Adipocyte differentiation from the inside out , 2006, Nature Reviews Molecular Cell Biology.

[24]  L. Qiang,et al.  Activation of CCAAT/Enhancer-binding Protein (C/EBP) α Expression by C/EBPβ during Adipogenesis Requires a Peroxisome Proliferator-activated Receptor-γ-associated Repression of HDAC1 at the C/ebpα Gene Promoter* , 2006, Journal of Biological Chemistry.

[25]  S. Maeda,et al.  Wnt5b partially inhibits canonical Wnt/beta-catenin signaling pathway and promotes adipogenesis in 3T3-L1 preadipocytes. , 2005, Biochemical and biophysical research communications.

[26]  Yusuke Nakamura,et al.  Association of the gene encoding wingless-type mammary tumor virus integration-site family member 5B (WNT5B) with type 2 diabetes. , 2004, American journal of human genetics.

[27]  J. M. Thomson,et al.  Argonaute2 Is the Catalytic Engine of Mammalian RNAi , 2004, Science.

[28]  S. Farmer,et al.  Activation of MEK/ERK Signaling Promotes Adipogenesis by Enhancing Peroxisome Proliferator-activated Receptor γ (PPARγ) and C/EBPα Gene Expression during the Differentiation of 3T3-L1 Preadipocytes* , 2002, The Journal of Biological Chemistry.

[29]  K. Clément,et al.  [Adipose tissue fibrosis: an aggravating factor in obesity]. , 2018, Medecine sciences : M/S.

[30]  Zheng Chen Progress and prospects of long noncoding RNAs in lipid homeostasis , 2015, Molecular metabolism.

[31]  Jiang He,et al.  Genetic epidemiology of obesity. , 2007, Epidemiologic reviews.

[32]  S. Farmer,et al.  Activation of MEK/ERK signaling promotes adipogenesis by enhancing peroxisome proliferator-activated receptor gamma (PPARgamma ) and C/EBPalpha gene expression during the differentiation of 3T3-L1 preadipocytes. , 2002, The Journal of biological chemistry.