MiR-584 mediates post-transcriptional expression of lactoferrin receptor in Caco-2 cells and in mouse small intestine during the perinatal period

International Journal of Biochemistry and Cell Biology

Volumn 42, Issue 8, 2010, Pages 1363-1369

  Liao, Y ^a   Lonnerdal B ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

Lactoferrin receptor (LfR); MicroRNA (miRNA); MiR 584

Indexed keywords

LACTOFERRIN; LUCIFERASE; MICRORNA; 3' UNTRANSLATED REGION; CELL SURFACE RECEPTOR; LACTOFERRIN RECEPTORS; MESSENGER RNA; MIRN584 MICRORNA, HUMAN; MIRN584 MICRORNA, MOUSE;

ANIMAL CELL; ARTICLE; CELL CULTURE; CELL STRAIN CACO 2; CELL STRAIN HEK293; CONCENTRATION RESPONSE; FLUORESCENCE IN SITU HYBRIDIZATION; GENETIC TRANSFECTION; HUMAN; HUMAN CELL; IMMUNOBLOTTING; MOLECULAR CLONING; MOUSE; NEWBORN; NONHUMAN; PERINATAL PERIOD; PLASMID; PROTEIN EXPRESSION; REAL TIME POLYMERASE CHAIN REACTION; RNA BINDING; RNA SEQUENCE; SEQUENCE ANALYSIS; SMALL INTESTINE; 3' UNTRANSLATED REGION; ANIMAL; BINDING SITE; CACO 2 CELL LINE; CYTOLOGY; DOWN REGULATION; GENE EXPRESSION REGULATION; GENETIC TRANSCRIPTION; GENETICS; METABOLISM; MICROVILLUS; MOLECULAR GENETICS; NUCLEOTIDE SEQUENCE; RNA TRANSPORT; SPECIES DIFFERENCE;

3' UNTRANSLATED REGIONS; ANIMALS; ANIMALS, NEWBORN; BASE SEQUENCE; BINDING SITES; CACO-2 CELLS; CONSERVED SEQUENCE; DOWN-REGULATION; GENE EXPRESSION REGULATION, DEVELOPMENTAL; GENE EXPRESSION REGULATION, NEOPLASTIC; HUMANS; INTESTINE, SMALL; MICE; MICRORNAS; MICROVILLI; MOLECULAR SEQUENCE DATA; RECEPTORS, CELL SURFACE; RNA TRANSPORT; RNA, MESSENGER; SPECIES SPECIFICITY; TRANSCRIPTION, GENETIC;

MAMMALIA; RATTUS;

EID: 77954386413     PISSN: 13572725     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biocel.2009.07.019     Document Type: Article

References (37)

1. Allen L.H. Nutritional influences on linear growth: a general review. Eur J Clin Nutr 1994, 48(Suppl. 1):S75-S89.
2. Ashida K., Sasaki H., Suzuki Y.A., Lönnerdal B. Cellular internalization of lactoferrin in intestinal epithelial cells. Biometals 2004, 17:311-315.
3. Bartel D.P. MicroRNAs: genomics, biogenesis, mechanism, and function. Cell 2004, 116:281-297.
4. Brennecke J., Stark A., Russell R.B., Cohen S.M. Principles of microRNA-target recognition. PLoS Biol 2005, 3:e85.
5. Bushati N., Cohen S.M. MicroRNA functions. Annu Rev Cell Dev Biol 2007, 23:175-205.
6. Carrington J.C., Ambros V. Role of microRNAs in plant and animal development. Science 2003, 301:336-338.
7. Crosnier C., Stamataki D., Lewis J. Organizing cell renewal in the intestine: stem cells, signals and combinatorial control. Nat Rev Genet 2006, 7:349-359.
8. Doench J.G., Sharp P.A. Specificity of microRNA target selection in translational repression. Genes Dev 2004, 18:504-511.
9. Du T., Zamore P.D. MicroPrimer: the biogenesis and function of microRNA. Development 2005, 132:4645-4652.
10. El Ouaamari A., Baroukh N., Martens G.A., Lebrun P., Pipeleers D., van Obberghen E. miR-375 targets 3'-phosphoinositide-dependent protein kinase-1 and regulates glucose-induced biological responses in pancreatic beta-cells. Diabetes 2008, 57:2708-2717.
11. Eulalio A., Huntzinger E., Izaurralde E. Getting to the root of miRNA-mediated gene silencing. Cell 2008, 132:9-14.
12. Filipowicz W., Bhattacharyya S.N., Sonenberg N. Mechanisms of post-transcriptional regulation by microRNAs: are the answers in sight?. Nat Rev Genet 2008, 9:102-114.
13. Grimson A., Farh K.K., Johnston W.K., Garrett-Engele P., Lim L.P., Bartel D.P. MicroRNA targeting specificity in mammals: determinants beyond seed pairing. Mol Cell 2007, 27:91-105.
14. Hino K., Fukao T., Watanabe M. Regulatory interaction of HNF1-alpha to microRNA-194 gene during intestinal epithelial cell differentiation. Nucleic Acids Symp Ser (Oxf) 2007, 415-416.
15. Krek A., Grun D., Poy M.N., Wolf R., Rosenberg L., Epstein E.J. Combinatorial microRNA target predictions. Nat Genet 2005, 37:495-500.
16. Lee R.C., Feinbaum R.L., Ambros V., The C. elegans heterochronic gene lin-4 encodes small RNAs with anti-sense complementarity to lin-14. Cell 1993, 75:843-854.
17. Lee Y., Samaco R.C., Gatchel J.R., Thaller C., Orr H.T., Zoghbi H.Y. miR-19, miR-101 and miR-130 co-regulate ATXN1 levels to potentially modulate SCA1 pathogenesis. Nat Neurosci 2008, 11:1137-1139.
18. Lewis B.P., Burge C.B., Bartel D.P. Conserved seed pairing, often flanked by adenosines, indicates that thousands of human genes are microRNA targets. Cell 2005, 120:15-20.
19. Li T., Li D., Sha J., Sun P., Huang Y. MicroRNA-21 directly targets MARCKS and promotes apoptosis resistance and invasion in prostate cancer cells. Biochem Biophys Res Commun 2009, 383:280-285.
20. Liao Y., Lopez V., Shafizadeh T.B., Halsted C.H., Lönnerdal B. Cloning of a pig homologue of the human lactoferrin receptor: expression and localization during intestinal maturation in piglets. Comp Biochem Physiol A Mol Integr Physiol 2007, 148:584-590.
21. Lönnerdal B., Iyer S. Lactoferrin: molecular structure and biological function. Annu Rev Nutr 1995, 15:93-110.
22. Lönnerdal B., Kelleher S.L. Iron metabolism in infants and children. Food Nutr Bull 2007, 28:S491-S499.
23. Lopez V., Kelleher S.L., Lönnerdal B. Lactoferrin receptor mediates apo- but not holo-lactoferrin internalization via clathrin-mediated endocytosis in trophoblasts. Biochem J 2008.
24. Lopez V., Suzuki Y.A., Lönnerdal B. Ontogenic changes in lactoferrin receptor and DMT1 in mouse small intestine: implications for iron absorption during early life. Biochem Cell Biol 2006, 84:337-344.
25. Lovis P., Roggli E., Laybutt D.R., Gattesco S., Yang J.Y., Widmann C., Abderrahmani A., Regazzi R. Alterations in microRNA expression contribute to fatty acid-induced pancreatic beta-cell dysfunction. Diabetes 2008, 57:2728-2736.
26. Mack G.S. MicroRNA gets down to business. Nat Biotechnol 2007, 25:631-638.
27. Nakasa T., Miyaki S., Okubo A., Hashimoto M., Nishida K., Ochi M. Expression of microRNA-146 in rheumatoid arthritis synovial tissue. Arthritis Rheum 2008, 58:1284-1292.
28. O'Connell R.M., Taganov K.D., Boldin M.P., Cheng G., Baltimore D. MicroRNA-155 is induced during the macrophage inflammatory response. Proc Natl Acad Sci USA 2007, 104:1604-1609.
29. Pfeffer S., Zavolan M., Grasser F.A., Chien M., Russo J.J., Ju J. Identification of virus-encoded microRNAs. Science 2004, 304:734-736.
30. Pillai R., Bhattacharyya S.N., Filipowicz W. Repression of protein synthesis by miRNAs: how many mechanisms?. Trends Cell Biol 2007, 17:118-126.
31. Poy M.N., Eliasson L., Krutzfeldt J., Kuwajima S., Ma X., Macdonald P.E. A pancreatic islet-specific microRNA regulates insulin secretion. Nature 2004, 432:226-230.
32. Rana T.M. Illuminating the silence: understanding the structure and function of small RNAs. Nat Rev Mol Cell Biol 2007, 8:23-36.
33. Shi B., Sepp-Lorenzino L., Prisco M., Linsley P., deAngelis T., Baserga R. Micro RNA 145 targets the insulin receptor substrate-1 and inhibits the growth of colon cancer cells. J Biol Chem 2007, 282:32582-32590.
34. Suzuki Y.A., Lönnerdal B. Baculovirus expression of mouse lactoferrin receptor and tissue distribution in the mouse. Biometals 2004, 17:301-309.
35. Suzuki Y.A., Shin K., Lönnerdal B. Molecular cloning and functional expression of a human intestinal lactoferrin receptor. Biochemistry 2001, 40:15771-15779.
36. Takada S., Berezikov E., Yamashita Y., Lagos-Quintana M., Kloosterman W.P., Enomoto M., et al. Mouse microRNA profiles determined with a new and sensitive cloning method. Nucleic Acids Res 2006, 34:e115.
37. Wightman B., Ha I., Ruvkun G. Post-transcriptional regulation of the heterochronic gene lin-14 by lin-4 mediates temporal pattern formation in C. elegans. Cell 1993, 75:855-862.