Evidence for Translational Control Elements Within the 5′‐Untranslated Region of GLUT1 Glucose Transporter mRNA

: Recent studies have indicated that the blood‐brain barrier GLUT1 glucose transporter is under post‐transcriptional regulation. To begin functional mapping of the GLUT1 transcript, in the present investigation we studied the translational efficiency of capped full‐length synthetic GLUT1 mRNA, and b...

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Veröffentlicht in:	Journal of neurochemistry 1996-10, Vol.67 (4), p.1335-1343
Hauptverfasser:	Boado, Ruben J., Tsukamoto, Haruhisa, Pardridge, William M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biological and medical sciences Blood‐brain barrier Brain - blood supply Cattle Cell Line Cell-Free System Cells, Cultured Endothelium, Vascular - metabolism Fundamental and applied biological sciences. Psychology Gene expression Genes, Reporter Glucose Transporter Type 1 Humans Luciferase Luciferases - biosynthesis Molecular and cellular biology Molecular genetics Monosaccharide Transport Proteins - biosynthesis Monosaccharide Transport Proteins - genetics Nucleic Acid Conformation Open Reading Frames Polymerase Chain Reaction Protein Biosynthesis Rabbits Recombinant Proteins - biosynthesis Regulatory Sequences, Nucleic Acid Reticulocytes - metabolism RNA Caps - metabolism RNA, Messenger - metabolism Spodoptera Transcription, Genetic Transfection Translation Translation. Translation factors. Protein processing
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container_title	Journal of neurochemistry
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creator	Boado, Ruben J. Tsukamoto, Haruhisa Pardridge, William M.
description	: Recent studies have indicated that the blood‐brain barrier GLUT1 glucose transporter is under post‐transcriptional regulation. To begin functional mapping of the GLUT1 transcript, in the present investigation we studied the translational efficiency of capped full‐length synthetic GLUT1 mRNA, and both 5′‐ and 3′‐untranslated regions (UTRs) deleted GLUT1 mRNAs. Deletion of 5′‐ and 5′‐/3′‐UTRs markedly reduced the translation efficiency of the human (h) GLUT1 transcript in the rabbit reticulocyte lysate (RRL), and this effect was not modified by addition of microsomes to the translation system. The putative role of these hGLUT1 5′‐UTR cis‐acting elements was studied using the luciferase expression vector pGL2. DNA corresponding to the hGLUT1 5′‐UTR generated by PCR was subcloned at the HindIII site of the pGL2 located upstream of the luciferase 5′‐UTR. Transfection of brain endothelial cultured cells with pGL2 containing most of the hGLUT1 5′‐UTR (nucleotides 1–171) markedly increased the expression of luciferase, and disruption of luciferase‐leading sequence with an unrelated 171‐nucleotide fragment decreased its expression. Insertion of nucleotides 1–96 of the hGLUT1 5′‐UTR retained most of the stimulatory effect, and nucleotides 123–171 produced 64% of maximal induction. On the contrary, clones containing nucleotides 79–171 and 154–171 of bGLUT1 5′‐UTR had marginal effects on luciferase expression. The present data provide evidence suggesting that the 5′‐UTR of the GLUT1 mRNA contains cis‐acting elements involved in the translational control of the GLUT1 gene in mammalian cells.
doi_str_mv	10.1046/j.1471-4159.1996.67041335.x
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To begin functional mapping of the GLUT1 transcript, in the present investigation we studied the translational efficiency of capped full‐length synthetic GLUT1 mRNA, and both 5′‐ and 3′‐untranslated regions (UTRs) deleted GLUT1 mRNAs. Deletion of 5′‐ and 5′‐/3′‐UTRs markedly reduced the translation efficiency of the human (h) GLUT1 transcript in the rabbit reticulocyte lysate (RRL), and this effect was not modified by addition of microsomes to the translation system. The putative role of these hGLUT1 5′‐UTR cis‐acting elements was studied using the luciferase expression vector pGL2. DNA corresponding to the hGLUT1 5′‐UTR generated by PCR was subcloned at the HindIII site of the pGL2 located upstream of the luciferase 5′‐UTR. Transfection of brain endothelial cultured cells with pGL2 containing most of the hGLUT1 5′‐UTR (nucleotides 1–171) markedly increased the expression of luciferase, and disruption of luciferase‐leading sequence with an unrelated 171‐nucleotide fragment decreased its expression. Insertion of nucleotides 1–96 of the hGLUT1 5′‐UTR retained most of the stimulatory effect, and nucleotides 123–171 produced 64% of maximal induction. On the contrary, clones containing nucleotides 79–171 and 154–171 of bGLUT1 5′‐UTR had marginal effects on luciferase expression. The present data provide evidence suggesting that the 5′‐UTR of the GLUT1 mRNA contains cis‐acting elements involved in the translational control of the GLUT1 gene in mammalian cells.</description><identifier>ISSN: 0022-3042</identifier><identifier>EISSN: 1471-4159</identifier><identifier>DOI: 10.1046/j.1471-4159.1996.67041335.x</identifier><identifier>PMID: 8858913</identifier><identifier>CODEN: JONRA9</identifier><language>eng</language><publisher>Oxford, UK: Blackwell Science Ltd</publisher><subject>Animals ; Biological and medical sciences ; Blood‐brain barrier ; Brain - blood supply ; Cattle ; Cell Line ; Cell-Free System ; Cells, Cultured ; Endothelium, Vascular - metabolism ; Fundamental and applied biological sciences. Psychology ; Gene expression ; Genes, Reporter ; Glucose Transporter Type 1 ; Humans ; Luciferase ; Luciferases - biosynthesis ; Molecular and cellular biology ; Molecular genetics ; Monosaccharide Transport Proteins - biosynthesis ; Monosaccharide Transport Proteins - genetics ; Nucleic Acid Conformation ; Open Reading Frames ; Polymerase Chain Reaction ; Protein Biosynthesis ; Rabbits ; Recombinant Proteins - biosynthesis ; Regulatory Sequences, Nucleic Acid ; Reticulocytes - metabolism ; RNA Caps - metabolism ; RNA, Messenger - metabolism ; Spodoptera ; Transcription, Genetic ; Transfection ; Translation ; Translation. Translation factors. 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To begin functional mapping of the GLUT1 transcript, in the present investigation we studied the translational efficiency of capped full‐length synthetic GLUT1 mRNA, and both 5′‐ and 3′‐untranslated regions (UTRs) deleted GLUT1 mRNAs. Deletion of 5′‐ and 5′‐/3′‐UTRs markedly reduced the translation efficiency of the human (h) GLUT1 transcript in the rabbit reticulocyte lysate (RRL), and this effect was not modified by addition of microsomes to the translation system. The putative role of these hGLUT1 5′‐UTR cis‐acting elements was studied using the luciferase expression vector pGL2. DNA corresponding to the hGLUT1 5′‐UTR generated by PCR was subcloned at the HindIII site of the pGL2 located upstream of the luciferase 5′‐UTR. Transfection of brain endothelial cultured cells with pGL2 containing most of the hGLUT1 5′‐UTR (nucleotides 1–171) markedly increased the expression of luciferase, and disruption of luciferase‐leading sequence with an unrelated 171‐nucleotide fragment decreased its expression. Insertion of nucleotides 1–96 of the hGLUT1 5′‐UTR retained most of the stimulatory effect, and nucleotides 123–171 produced 64% of maximal induction. On the contrary, clones containing nucleotides 79–171 and 154–171 of bGLUT1 5′‐UTR had marginal effects on luciferase expression. The present data provide evidence suggesting that the 5′‐UTR of the GLUT1 mRNA contains cis‐acting elements involved in the translational control of the GLUT1 gene in mammalian cells.</description><subject>Animals</subject><subject>Biological and medical sciences</subject><subject>Blood‐brain barrier</subject><subject>Brain - blood supply</subject><subject>Cattle</subject><subject>Cell Line</subject><subject>Cell-Free System</subject><subject>Cells, Cultured</subject><subject>Endothelium, Vascular - metabolism</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Gene expression</subject><subject>Genes, Reporter</subject><subject>Glucose Transporter Type 1</subject><subject>Humans</subject><subject>Luciferase</subject><subject>Luciferases - biosynthesis</subject><subject>Molecular and cellular biology</subject><subject>Molecular genetics</subject><subject>Monosaccharide Transport Proteins - biosynthesis</subject><subject>Monosaccharide Transport Proteins - genetics</subject><subject>Nucleic Acid Conformation</subject><subject>Open Reading Frames</subject><subject>Polymerase Chain Reaction</subject><subject>Protein Biosynthesis</subject><subject>Rabbits</subject><subject>Recombinant Proteins - biosynthesis</subject><subject>Regulatory Sequences, Nucleic Acid</subject><subject>Reticulocytes - metabolism</subject><subject>RNA Caps - metabolism</subject><subject>RNA, Messenger - metabolism</subject><subject>Spodoptera</subject><subject>Transcription, Genetic</subject><subject>Transfection</subject><subject>Translation</subject><subject>Translation. 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Protein processing</subject><issn>0022-3042</issn><issn>1471-4159</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1996</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqVUd1u0zAYtRDTKINHQLIE4i7Bjv9icTV1pYCqTZpacWk5js1SOXGxU9ju9gg8C4-0JyFRut5Ou_pknZ_v8zkAvMcox4jyT9scU4EzipnMsZQ85wJRTAjLb1-A2RF7CWYIFUVGEC1egdcpbRHCnHJ8Ck7LkpUSkxlIi99NbTtjoQsRrqPuktd9Ezrt4Tx0fQweLrxtbdcn-KPpb5oO9jcWsof7fw_3fzcDY5LYGl7bn4MQBgeXq80aw6Xfm5Ds5LoLsbcRtteX52_AidM-2beHeQY2Xxbr-ddsdbX8Nj9fZYYSwTJaC60RpZWgmjFTOicqUwte8soWBcWFrhyzWtRSywqh4UPScKoJxUYS6Sg5Ax8n310Mv_Y29aptkrHe686GfVKipAUnTD5JxIwLWqLR8fNENDGkFK1Tu9i0Ot4pjNTYjdqqMX815q_GbtRjN-p2UL87rNlXra2P2kMZA_7hgOtktHdDbKZJRxopiBBkPOJiov1pvL17zgXq--X88UX-A45Hrdw</recordid><startdate>199610</startdate><enddate>199610</enddate><creator>Boado, Ruben J.</creator><creator>Tsukamoto, Haruhisa</creator><creator>Pardridge, William M.</creator><general>Blackwell Science Ltd</general><general>Blackwell</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TK</scope><scope>7X8</scope></search><sort><creationdate>199610</creationdate><title>Evidence for Translational Control Elements Within the 5′‐Untranslated Region of GLUT1 Glucose Transporter mRNA</title><author>Boado, Ruben J. ; Tsukamoto, Haruhisa ; Pardridge, William M.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4375-4d7aa044b74a55c8ff7bcd7686be22412abf5ea7d9a9b005899c64a341c939f43</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1996</creationdate><topic>Animals</topic><topic>Biological and medical sciences</topic><topic>Blood‐brain barrier</topic><topic>Brain - blood supply</topic><topic>Cattle</topic><topic>Cell Line</topic><topic>Cell-Free System</topic><topic>Cells, Cultured</topic><topic>Endothelium, Vascular - metabolism</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Gene expression</topic><topic>Genes, Reporter</topic><topic>Glucose Transporter Type 1</topic><topic>Humans</topic><topic>Luciferase</topic><topic>Luciferases - biosynthesis</topic><topic>Molecular and cellular biology</topic><topic>Molecular genetics</topic><topic>Monosaccharide Transport Proteins - biosynthesis</topic><topic>Monosaccharide Transport Proteins - genetics</topic><topic>Nucleic Acid Conformation</topic><topic>Open Reading Frames</topic><topic>Polymerase Chain Reaction</topic><topic>Protein Biosynthesis</topic><topic>Rabbits</topic><topic>Recombinant Proteins - biosynthesis</topic><topic>Regulatory Sequences, Nucleic Acid</topic><topic>Reticulocytes - metabolism</topic><topic>RNA Caps - metabolism</topic><topic>RNA, Messenger - metabolism</topic><topic>Spodoptera</topic><topic>Transcription, Genetic</topic><topic>Transfection</topic><topic>Translation</topic><topic>Translation. Translation factors. Protein processing</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Boado, Ruben J.</creatorcontrib><creatorcontrib>Tsukamoto, Haruhisa</creatorcontrib><creatorcontrib>Pardridge, William M.</creatorcontrib><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Neurosciences Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>Journal of neurochemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Boado, Ruben J.</au><au>Tsukamoto, Haruhisa</au><au>Pardridge, William M.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Evidence for Translational Control Elements Within the 5′‐Untranslated Region of GLUT1 Glucose Transporter mRNA</atitle><jtitle>Journal of neurochemistry</jtitle><addtitle>J Neurochem</addtitle><date>1996-10</date><risdate>1996</risdate><volume>67</volume><issue>4</issue><spage>1335</spage><epage>1343</epage><pages>1335-1343</pages><issn>0022-3042</issn><eissn>1471-4159</eissn><coden>JONRA9</coden><abstract>: Recent studies have indicated that the blood‐brain barrier GLUT1 glucose transporter is under post‐transcriptional regulation. To begin functional mapping of the GLUT1 transcript, in the present investigation we studied the translational efficiency of capped full‐length synthetic GLUT1 mRNA, and both 5′‐ and 3′‐untranslated regions (UTRs) deleted GLUT1 mRNAs. Deletion of 5′‐ and 5′‐/3′‐UTRs markedly reduced the translation efficiency of the human (h) GLUT1 transcript in the rabbit reticulocyte lysate (RRL), and this effect was not modified by addition of microsomes to the translation system. The putative role of these hGLUT1 5′‐UTR cis‐acting elements was studied using the luciferase expression vector pGL2. DNA corresponding to the hGLUT1 5′‐UTR generated by PCR was subcloned at the HindIII site of the pGL2 located upstream of the luciferase 5′‐UTR. Transfection of brain endothelial cultured cells with pGL2 containing most of the hGLUT1 5′‐UTR (nucleotides 1–171) markedly increased the expression of luciferase, and disruption of luciferase‐leading sequence with an unrelated 171‐nucleotide fragment decreased its expression. Insertion of nucleotides 1–96 of the hGLUT1 5′‐UTR retained most of the stimulatory effect, and nucleotides 123–171 produced 64% of maximal induction. On the contrary, clones containing nucleotides 79–171 and 154–171 of bGLUT1 5′‐UTR had marginal effects on luciferase expression. The present data provide evidence suggesting that the 5′‐UTR of the GLUT1 mRNA contains cis‐acting elements involved in the translational control of the GLUT1 gene in mammalian cells.</abstract><cop>Oxford, UK</cop><pub>Blackwell Science Ltd</pub><pmid>8858913</pmid><doi>10.1046/j.1471-4159.1996.67041335.x</doi><tpages>9</tpages></addata></record>
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source	MEDLINE; Wiley Online Library Journals Frontfile Complete
subjects	Animals Biological and medical sciences Blood‐brain barrier Brain - blood supply Cattle Cell Line Cell-Free System Cells, Cultured Endothelium, Vascular - metabolism Fundamental and applied biological sciences. Psychology Gene expression Genes, Reporter Glucose Transporter Type 1 Humans Luciferase Luciferases - biosynthesis Molecular and cellular biology Molecular genetics Monosaccharide Transport Proteins - biosynthesis Monosaccharide Transport Proteins - genetics Nucleic Acid Conformation Open Reading Frames Polymerase Chain Reaction Protein Biosynthesis Rabbits Recombinant Proteins - biosynthesis Regulatory Sequences, Nucleic Acid Reticulocytes - metabolism RNA Caps - metabolism RNA, Messenger - metabolism Spodoptera Transcription, Genetic Transfection Translation Translation. Translation factors. Protein processing
title	Evidence for Translational Control Elements Within the 5′‐Untranslated Region of GLUT1 Glucose Transporter mRNA
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