miR-196b-Mediated Translation Regulation of Mouse Insulin2 via the 5′UTR

The 5′ and the 3′ untranslated regions (UTR) of the insulin genes are very well conserved across species. Although microRNAs (miRNAs) are known to regulate insulin secretion process, direct regulation of insulin biosynthesis by miRNA has not been reported. Here, we show that mouse microRNA miR-196b can specifically target the 5′UTR of the long insulin2 splice isoform. Using reporter assays we show that miR-196b specifically increases the translation of the reporter protein luciferase. We further show that this translation activation is abolished when Argonaute 2 levels are knocked down after transfection with an Argonaute 2-directed siRNA. Binding of miR-196b to the target sequence in insulin 5′UTR causes the removal of HuD (a 5′UTR-associated translation inhibitor), suggesting that both miR-196b and HuD bind to the same RNA element. We present data suggesting that the RNA-binding protein HuD, which represses insulin translation, is displaced by miR-196b. Together, our findings identify a mechanism of post-transcriptional regulation of insulin biosynthesis.

[1]  Je-Hyun Yoon,et al.  Posttranscriptional Regulation of Insulin Family Ligands and Receptors , 2013, International journal of molecular sciences.

[2]  Myriam Gorospe,et al.  Functional interplay between RNA-binding protein HuR and microRNAs. , 2012, Current protein & peptide science.

[3]  T. Lufkin,et al.  Nuclear Accumulation of an Uncapped RNA Produced by Drosha Cleavage of a Transcript Encoding miR-10b and HOXD4 , 2011, PloS one.

[4]  Yan Gao,et al.  Tissue-specific regulation of mouse MicroRNA genes in endoderm-derived tissues , 2010, Nucleic Acids Res..

[5]  M. Gorospe,et al.  Minireview: posttranscriptional regulation of the insulin and insulin-like growth factor systems. , 2010, Endocrinology.

[6]  V. Seshadri,et al.  Novel splice variant of mouse insulin2 mRNA: Implications for insulin expression , 2010, FEBS letters.

[7]  Li-Na Wei,et al.  MicroRNA mir-346 targets the 5'-untranslated region of receptor-interacting protein 140 (RIP140) mRNA and up-regulates its protein expression. , 2009, The Biochemical journal.

[8]  Qin-Hui Tuo,et al.  CHANGES IN microRNA (miR) PROFILE AND EFFECTS OF miR‐320 IN INSULIN‐RESISTANT 3T3‐L1 ADIPOCYTES , 2009, Clinical and experimental pharmacology & physiology.

[9]  Fei Li,et al.  Abundant conserved microRNA target sites in the 5′-untranslated region and coding sequence , 2009, Genetica.

[10]  Wenming Qin,et al.  MicroRNA expression profiling in diabetic GK rat model. , 2009, Acta biochimica et biophysica Sinica.

[11]  M. Joglekar,et al.  Expression of islet-specific microRNAs during human pancreatic development. , 2009, Gene expression patterns : GEP.

[12]  U. A. Ørom,et al.  MicroRNA-10a binds the 5'UTR of ribosomal protein mRNAs and enhances their translation. , 2008, Molecular cell.

[13]  J. Steitz,et al.  Switching from Repression to Activation: MicroRNAs Can Up-Regulate Translation , 2007, Science.

[14]  Michael T. McManus,et al.  MicroRNA Expression Is Required for Pancreatic Islet Cell Genesis in the Mouse , 2007, Diabetes.

[15]  Aibin He,et al.  Overexpression of micro ribonucleic acid 29, highly up-regulated in diabetic rats, leads to insulin resistance in 3T3-L1 adipocytes. , 2007, Molecular endocrinology.

[16]  V. Seshadri,et al.  A minimal element in 5′UTR of insulin mRNA mediates its translational regulation by glucose , 2007, FEBS letters.

[17]  N. Baroukh,et al.  MicroRNA-124a Regulates Foxa2 Expression and Intracellular Signaling in Pancreatic β-Cell Lines* , 2007, Journal of Biological Chemistry.

[18]  W. Filipowicz,et al.  Repression of protein synthesis by miRNAs: how many mechanisms? , 2007, Trends in cell biology.

[19]  Kotb Abdelmohsen,et al.  Phosphorylation of HuR by Chk2 regulates SIRT1 expression. , 2007, Molecular cell.

[20]  A. Abderrahmani,et al.  MicroRNA-9 Controls the Expression of Granuphilin/Slp4 and the Secretory Response of Insulin-producing Cells* , 2006, Journal of Biological Chemistry.

[21]  K. Livak,et al.  Real-time quantification of microRNAs by stem–loop RT–PCR , 2005, Nucleic acids research.

[22]  K. Gunsalus,et al.  Combinatorial microRNA target predictions , 2005, Nature Genetics.

[23]  D. Harlan,et al.  Increased insulin translation from an insulin splice-variant overexpressed in diabetes, obesity, and insulin resistance. , 2005, Molecular endocrinology.

[24]  C. Burge,et al.  Conserved Seed Pairing, Often Flanked by Adenosines, Indicates that Thousands of Human Genes are MicroRNA Targets , 2005, Cell.

[25]  N. Rajewsky,et al.  A pancreatic islet-specific microRNA regulates insulin secretion , 2004, Nature.

[26]  D. Bartel,et al.  MicroRNA-Directed Cleavage of HOXB8 mRNA , 2004, Science.

[27]  B. Wicksteed,et al.  Cooperativity between the Preproinsulin mRNA Untranslated Regions Is Necessary for Glucose-stimulated Translation* , 2001, The Journal of Biological Chemistry.

[28]  K. Docherty,et al.  Nutrient regulation of insulin gene expression , 1994, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[29]  H. Okamoto,et al.  Glucose stimulation of the proinsulin synthesis in isolated pancreatic islets without increasing amount of proinsulin mRNA , 1978, FEBS letters.

[30]  N. K. Wessells,et al.  Ultrastructural studies of early morphogenesis and cytodifferentiation in the embryonic mammalian pancreas. , 1968, Developmental biology.

[31]  P. Lacy,et al.  Method for the Isolation of Intact Islets of Langerhans from the Rat Pancreas , 1967, Diabetes.

[32]  C. Wollheim,et al.  MicroRNAs: 'ribo-regulators' of glucose homeostasis , 2006, Nature Medicine.