Literature DB >> 21030610

MicroRNA-92b regulates expression of the oligopeptide transporter PepT1 in intestinal epithelial cells.

Guillaume Dalmasso1, Hang Thi Thu Nguyen, Yutao Yan, Hamed Laroui, Moiz A Charania, Tracy S Obertone, Shanthi V Sitaraman, Didier Merlin.   

Abstract

MicroRNAs (miRNAs), which are noncoding RNAs that posttranscriptionally inhibit expression of target genes, have recently emerged as important regulators of many cellular functions such as cell differentiation. The epithelial di/tripeptide membrane transporter PepT1 is expressed in highly differentiated cells (the villous tip) but not in undifferentiated cells (the crypt) of the small intestine. Here, we investigated the regulation of PepT1 expression by miRNAs and its functional consequences. We observed a reverse correlation between the expression levels of PepT1 and mature miRNA-92b (miR-92b) during the differentiation of intestinal epithelial Caco2-BBE cells, suggesting a miR-92b-mediated regulation of PepT1 expression. We demonstrate that miR-92b suppressed PepT1 expression at both mRNA and protein levels, with subsequent reduced PepT1 transport activity, in Caco2-BBE cells by directly targeting the PepT1 3'-untranslated region. In addition, miR-92b suppresses bacterial peptide-induced proinflammatory responses in intestinal epithelial cells by inhibiting PepT1 expression. Altogether, our study provides for the first time evidence for the regulation of PepT1 expression at a posttranscriptional level by miRNAs in intestinal epithelial cells during pathophysiological states.

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Year:  2010        PMID: 21030610      PMCID: PMC3025505          DOI: 10.1152/ajpgi.00394.2010

Source DB:  PubMed          Journal:  Am J Physiol Gastrointest Liver Physiol        ISSN: 0193-1857            Impact factor:   4.052


  32 in total

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4.  Leptin transcriptionally enhances peptide transporter (hPepT1) expression and activity via the cAMP-response element-binding protein and Cdx2 transcription factors.

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5.  hPepT1 transports muramyl dipeptide, activating NF-kappaB and stimulating IL-8 secretion in human colonic Caco2/bbe cells.

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9.  Association of PepT1 with lipid rafts differently modulates its transport activity in polarized and nonpolarized cells.

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10.  Antisense inhibition of human miRNAs and indications for an involvement of miRNA in cell growth and apoptosis.

Authors:  Angie M Cheng; Mike W Byrom; Jeffrey Shelton; Lance P Ford
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  20 in total

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Review 2.  MicroRNA Pharmacoepigenetics: Posttranscriptional Regulation Mechanisms behind Variable Drug Disposition and Strategy to Develop More Effective Therapy.

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Journal:  Drug Metab Dispos       Date:  2015-11-13       Impact factor: 3.922

3.  MicroRNA-193a-3p Reduces Intestinal Inflammation in Response to Microbiota via Down-regulation of Colonic PepT1.

Authors:  Xin Dai; Xi Chen; Qun Chen; Lei Shi; Hongwei Liang; Zhen Zhou; Qian Liu; Wenjing Pang; Dongxia Hou; Cheng Wang; Ke Zen; Yaozong Yuan; Chen-Yu Zhang; Lu Xia
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4.  Translational repression of SLC26A3 by miR-494 in intestinal epithelial cells.

Authors:  Arivarasu N Anbazhagan; Shubha Priyamvada; Anoop Kumar; Daniel B Maher; Alip Borthakur; Waddah A Alrefai; Jaleh Malakooti; John H Kwon; Pradeep K Dudeja
Journal:  Am J Physiol Gastrointest Liver Physiol       Date:  2013-10-31       Impact factor: 4.052

Review 5.  The effects of microRNA on the absorption, distribution, metabolism and excretion of drugs.

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6.  Role of MicroRNA-423-5p in posttranscriptional regulation of the intestinal riboflavin transporter-3.

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Review 7.  Function, Regulation, and Pathophysiological Relevance of the POT Superfamily, Specifically PepT1 in Inflammatory Bowel Disease.

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8.  miR-125a-5p: a novel regulator of SLC26A6 expression in intestinal epithelial cells.

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Review 9.  The role and pathophysiological relevance of membrane transporter PepT1 in intestinal inflammation and inflammatory bowel disease.

Authors:  Sarah A Ingersoll; Saravanan Ayyadurai; Moiz A Charania; Hamed Laroui; Yutao Yan; Didier Merlin
Journal:  Am J Physiol Gastrointest Liver Physiol       Date:  2011-12-22       Impact factor: 4.052

10.  Noncoding microRNAs: small RNAs play a big role in regulation of ADME?

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