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Loss of the scavenger mRNA decapping enzyme DCPS causes syndromic intellectual disability with neuromuscular defects
mRNA decay is an essential and active process that allows cells to continuously adapt gene expression to internal and environmental cues. There are two mRNA degradation pathways: 3' to 5' and 5' to 3'. The DCPS protein is the scavenger mRNA decapping enzyme which functions in the...
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| Published in: | Human molecular genetics 2015-06, Vol.24 (11), p.3163-3171 |
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| Main Authors: | , , , , , , , , , , |
| Format: | Article |
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| container_end_page | 3171 |
| container_issue | 11 |
| container_start_page | 3163 |
| container_title | Human molecular genetics |
| container_volume | 24 |
| creator | Ng, Calista K L Shboul, Mohammad Taverniti, Valerio Bonnard, Carine Lee, Hane Eskin, Ascia Nelson, Stanley F Al-Raqad, Mohammed Altawalbeh, Samah Séraphin, Bertrand Reversade, Bruno |
| description | mRNA decay is an essential and active process that allows cells to continuously adapt gene expression to internal and environmental cues. There are two mRNA degradation pathways: 3' to 5' and 5' to 3'. The DCPS protein is the scavenger mRNA decapping enzyme which functions in the last step of the 3' end mRNA decay pathway. We have identified a DCPS pathogenic mutation in a large family with three affected individuals presenting with a novel recessive syndrome consisting of craniofacial anomalies, intellectual disability and neuromuscular defects. Using patient's primary cells, we show that this homozygous splice mutation results in a DCPS loss-of-function allele. Diagnostic biochemical analyses using various m7G cap derivatives as substrates reveal no DCPS enzymatic activity in patient's cells. Our results implicate DCPS and more generally RNA catabolism, as a critical cellular process for neurological development, normal cognition and organismal homeostasis in humans. |
| doi_str_mv | 10.1093/hmg/ddv067 |
| format | article |
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There are two mRNA degradation pathways: 3' to 5' and 5' to 3'. The DCPS protein is the scavenger mRNA decapping enzyme which functions in the last step of the 3' end mRNA decay pathway. We have identified a DCPS pathogenic mutation in a large family with three affected individuals presenting with a novel recessive syndrome consisting of craniofacial anomalies, intellectual disability and neuromuscular defects. Using patient's primary cells, we show that this homozygous splice mutation results in a DCPS loss-of-function allele. Diagnostic biochemical analyses using various m7G cap derivatives as substrates reveal no DCPS enzymatic activity in patient's cells. Our results implicate DCPS and more generally RNA catabolism, as a critical cellular process for neurological development, normal cognition and organismal homeostasis in humans.</description><identifier>ISSN: 0964-6906</identifier><identifier>EISSN: 1460-2083</identifier><identifier>DOI: 10.1093/hmg/ddv067</identifier><identifier>PMID: 25712129</identifier><language>eng</language><publisher>England: Oxford University Press (OUP)</publisher><subject>Abnormalities, Multiple - genetics ; Biochemistry, Molecular Biology ; Cells, Cultured ; Child ; Child, Preschool ; Consanguinity ; DNA Mutational Analysis ; Endoribonucleases - deficiency ; Endoribonucleases - genetics ; Genetic Association Studies ; Humans ; Intellectual Disability - genetics ; Life Sciences ; Male ; Muscle Hypotonia - genetics ; Pedigree ; RNA Splice Sites ; Syndrome</subject><ispartof>Human molecular genetics, 2015-06, Vol.24 (11), p.3163-3171</ispartof><rights>The Author 2015. 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There are two mRNA degradation pathways: 3' to 5' and 5' to 3'. The DCPS protein is the scavenger mRNA decapping enzyme which functions in the last step of the 3' end mRNA decay pathway. We have identified a DCPS pathogenic mutation in a large family with three affected individuals presenting with a novel recessive syndrome consisting of craniofacial anomalies, intellectual disability and neuromuscular defects. Using patient's primary cells, we show that this homozygous splice mutation results in a DCPS loss-of-function allele. Diagnostic biochemical analyses using various m7G cap derivatives as substrates reveal no DCPS enzymatic activity in patient's cells. Our results implicate DCPS and more generally RNA catabolism, as a critical cellular process for neurological development, normal cognition and organismal homeostasis in humans.</description><subject>Abnormalities, Multiple - genetics</subject><subject>Biochemistry, Molecular Biology</subject><subject>Cells, Cultured</subject><subject>Child</subject><subject>Child, Preschool</subject><subject>Consanguinity</subject><subject>DNA Mutational Analysis</subject><subject>Endoribonucleases - deficiency</subject><subject>Endoribonucleases - genetics</subject><subject>Genetic Association Studies</subject><subject>Humans</subject><subject>Intellectual Disability - genetics</subject><subject>Life Sciences</subject><subject>Male</subject><subject>Muscle Hypotonia - genetics</subject><subject>Pedigree</subject><subject>RNA Splice Sites</subject><subject>Syndrome</subject><issn>0964-6906</issn><issn>1460-2083</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNqFkcuOFCEYhYnROO3oxgcwLNWkHG4Fxcak017GpKPGy5pQ8NOFqUtbUG3ap5dOjxN144oEPg7n50PoMSUvKNH8qht2V94fiFR30IoKSSpGGn4XrYiWopKayAv0IKVvhFApuLqPLlitKKNMr1DeTinhKeDcAU7OHmDcwYyHT-_X2IOz-30cdxjGn8cB8KvNx8_Y2SVBwuk4-nkaosNxzND34PJie-xjsm3sYz7iHzF3eISlUEtyS2_nkhgKlx6ie8H2CR7drJfo65vXXzbX1fbD23eb9bZyXNW5ajkHGhrvQ2lLmGZSCuEDkW3Ng6QE2gCegXbOceEY1ayhTodGKcFbKTm_RC_PufulHcA7GPNse7Of42Dno5lsNH-fjLEzu-lghGBC16eAZ-eA7p9r1-utOe0RRpWuZX2ghX1689g8fV8gZTPE5MrP2BGmJRmqCBWNZqXcf1HZEKoUF01Bn59RNxdRM4TbGpSYk31T7Juz_QI_-XPeW_S3bv4LzAOtgw</recordid><startdate>20150601</startdate><enddate>20150601</enddate><creator>Ng, Calista K L</creator><creator>Shboul, Mohammad</creator><creator>Taverniti, Valerio</creator><creator>Bonnard, Carine</creator><creator>Lee, Hane</creator><creator>Eskin, Ascia</creator><creator>Nelson, Stanley F</creator><creator>Al-Raqad, Mohammed</creator><creator>Altawalbeh, Samah</creator><creator>Séraphin, Bertrand</creator><creator>Reversade, Bruno</creator><general>Oxford University Press (OUP)</general><general>Oxford University Press</general><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>7X8</scope><scope>7TK</scope><scope>8FD</scope><scope>FR3</scope><scope>P64</scope><scope>RC3</scope><scope>1XC</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0002-5168-1921</orcidid></search><sort><creationdate>20150601</creationdate><title>Loss of the scavenger mRNA decapping enzyme DCPS causes syndromic intellectual disability with neuromuscular defects</title><author>Ng, Calista K L ; 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There are two mRNA degradation pathways: 3' to 5' and 5' to 3'. The DCPS protein is the scavenger mRNA decapping enzyme which functions in the last step of the 3' end mRNA decay pathway. We have identified a DCPS pathogenic mutation in a large family with three affected individuals presenting with a novel recessive syndrome consisting of craniofacial anomalies, intellectual disability and neuromuscular defects. Using patient's primary cells, we show that this homozygous splice mutation results in a DCPS loss-of-function allele. Diagnostic biochemical analyses using various m7G cap derivatives as substrates reveal no DCPS enzymatic activity in patient's cells. 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| ispartof | Human molecular genetics, 2015-06, Vol.24 (11), p.3163-3171 |
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| source | Oxford Journals Online |
| subjects | Abnormalities, Multiple - genetics Biochemistry, Molecular Biology Cells, Cultured Child Child, Preschool Consanguinity DNA Mutational Analysis Endoribonucleases - deficiency Endoribonucleases - genetics Genetic Association Studies Humans Intellectual Disability - genetics Life Sciences Male Muscle Hypotonia - genetics Pedigree RNA Splice Sites Syndrome |
| title | Loss of the scavenger mRNA decapping enzyme DCPS causes syndromic intellectual disability with neuromuscular defects |
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