Submicroscopic Duplications of the Hydroxysteroid Dehydrogenase HSD17B10 and the E3 Ubiquitin Ligase HUWE1 Are Associated with Mental Retardation
Submicroscopic copy-number imbalances contribute significantly to the genetic etiology of human disease. Here, we report a novel microduplication hot spot at Xp11.22 identified in six unrelated families with predominantly nonsyndromic XLMR. All duplications segregate with the disease, including the...
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| creator | Froyen, Guy Corbett, Mark Vandewalle, Joke Jarvela, Irma Lawrence, Owen Meldrum, Cliff Bauters, Marijke Govaerts, Karen Vandeleur, Lucianne Esch, Hilde Van Chelly, Jamel Saniaville, Damien Bokhoven, Hans van Ropers, Hans- Hilger Laumonnier, Frederic Ranieri, Enzo Schwartz, Charles E Abidi, Fatima Tarpey, Patrick S Futreal, P Andrew Whibley, Annabel Raymond, F Lucy Stratton, Michael R Fryns, Jean-Pierre Scott, Rodney Peippo, Maarit Sipponen, Marjatta Partington, Michael Mowat, David Field, Michael Hackett, Anna Marynen, Peter Turner, Gillian Gécz, Jozef |
| description | Submicroscopic copy-number imbalances contribute significantly to the genetic etiology of human disease. Here, we report a novel microduplication hot spot at Xp11.22 identified in six unrelated families with predominantly nonsyndromic XLMR. All duplications segregate with the disease, including the large families MRX17 and MRX31. The minimal, commonly duplicated region contains three genes: RIBC1, HSD17B10, and HUWE1. RIBC1 could be excluded on the basis of its absence of expression in the brain and because it escapes X inactivation in females. For the other genes, expression array and quantitative PCR analysis in patient cell lines compared to controls showed a significant upregulation of HSD17B10 and HUWE1 as well as several important genes in their molecular pathways. Loss-of-function mutations of HSD17B10 have previously been associated with progressive neurological disease and XLMR. The E3 ubiquitin ligase HUWE1 has been implicated in TP53-associated regulation of the neuronal cell cycle. Here, we also report segregating sequence changes of highly conserved residues in HUWE1 in three XLMR families; these changes are possibly associated with the phenotype. Our findings demonstrate that an increased gene dosage of HSD17B10, HUWE1, or both contribute to the etiology of XLMR and suggest that point mutations in HUWE1 are associated with this disease too. [PUBLICATION ABSTRACT] |
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Here, we report a novel microduplication hot spot at Xp11.22 identified in six unrelated families with predominantly nonsyndromic XLMR. All duplications segregate with the disease, including the large families MRX17 and MRX31. The minimal, commonly duplicated region contains three genes: RIBC1, HSD17B10, and HUWE1. RIBC1 could be excluded on the basis of its absence of expression in the brain and because it escapes X inactivation in females. For the other genes, expression array and quantitative PCR analysis in patient cell lines compared to controls showed a significant upregulation of HSD17B10 and HUWE1 as well as several important genes in their molecular pathways. Loss-of-function mutations of HSD17B10 have previously been associated with progressive neurological disease and XLMR. The E3 ubiquitin ligase HUWE1 has been implicated in TP53-associated regulation of the neuronal cell cycle. Here, we also report segregating sequence changes of highly conserved residues in HUWE1 in three XLMR families; these changes are possibly associated with the phenotype. Our findings demonstrate that an increased gene dosage of HSD17B10, HUWE1, or both contribute to the etiology of XLMR and suggest that point mutations in HUWE1 are associated with this disease too. 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Here, we report a novel microduplication hot spot at Xp11.22 identified in six unrelated families with predominantly nonsyndromic XLMR. All duplications segregate with the disease, including the large families MRX17 and MRX31. The minimal, commonly duplicated region contains three genes: RIBC1, HSD17B10, and HUWE1. RIBC1 could be excluded on the basis of its absence of expression in the brain and because it escapes X inactivation in females. For the other genes, expression array and quantitative PCR analysis in patient cell lines compared to controls showed a significant upregulation of HSD17B10 and HUWE1 as well as several important genes in their molecular pathways. Loss-of-function mutations of HSD17B10 have previously been associated with progressive neurological disease and XLMR. The E3 ubiquitin ligase HUWE1 has been implicated in TP53-associated regulation of the neuronal cell cycle. Here, we also report segregating sequence changes of highly conserved residues in HUWE1 in three XLMR families; these changes are possibly associated with the phenotype. Our findings demonstrate that an increased gene dosage of HSD17B10, HUWE1, or both contribute to the etiology of XLMR and suggest that point mutations in HUWE1 are associated with this disease too. [PUBLICATION ABSTRACT]</description><subject>Cell cycle</subject><subject>Correlation analysis</subject><subject>Gene expression</subject><subject>Genetic disorders</subject><subject>Genotype & phenotype</subject><subject>Mental retardation</subject><subject>Mutation</subject><issn>0002-9297</issn><issn>1537-6605</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNqNjU1OwzAQRi0EEuHnDiP2kexYTciykKAuYEOpWFauM22mCnbqsQU9BjemRByA1Se996TvTGRqpqu8LOXsXGRSyiKvi7q6FFfMeymVupc6E9_LtPkgGzxbP5KFJo0DWRPJOwa_hdgjLI5d8F9Hjhg8ddBg_wt26Ayf5LJR1YOSYFw31a2G1YYOiSI5eKbdFK3eWwXzgDBn9pZMxA4-Kfbwgi6aAV4xmtBNtzfiYmsGxtu_vRZ3T-3b4yIfgz8k5Lje-xTcSa0LVZe6LnSl_xX9ABnKVmE</recordid><startdate>20080208</startdate><enddate>20080208</enddate><creator>Froyen, Guy</creator><creator>Corbett, Mark</creator><creator>Vandewalle, Joke</creator><creator>Jarvela, Irma</creator><creator>Lawrence, Owen</creator><creator>Meldrum, Cliff</creator><creator>Bauters, Marijke</creator><creator>Govaerts, Karen</creator><creator>Vandeleur, Lucianne</creator><creator>Esch, Hilde Van</creator><creator>Chelly, Jamel</creator><creator>Saniaville, Damien</creator><creator>Bokhoven, Hans van</creator><creator>Ropers, Hans- Hilger</creator><creator>Laumonnier, Frederic</creator><creator>Ranieri, Enzo</creator><creator>Schwartz, Charles E</creator><creator>Abidi, Fatima</creator><creator>Tarpey, Patrick S</creator><creator>Futreal, P Andrew</creator><creator>Whibley, Annabel</creator><creator>Raymond, F Lucy</creator><creator>Stratton, Michael R</creator><creator>Fryns, Jean-Pierre</creator><creator>Scott, Rodney</creator><creator>Peippo, Maarit</creator><creator>Sipponen, Marjatta</creator><creator>Partington, Michael</creator><creator>Mowat, David</creator><creator>Field, Michael</creator><creator>Hackett, Anna</creator><creator>Marynen, Peter</creator><creator>Turner, Gillian</creator><creator>Gécz, Jozef</creator><general>Cell Press</general><scope>7QP</scope><scope>7TK</scope><scope>7TM</scope><scope>7U7</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>K9.</scope><scope>NAPCQ</scope><scope>P64</scope><scope>RC3</scope></search><sort><creationdate>20080208</creationdate><title>Submicroscopic Duplications of the Hydroxysteroid Dehydrogenase HSD17B10 and the E3 Ubiquitin Ligase HUWE1 Are Associated with Mental Retardation</title><author>Froyen, Guy ; 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Here, we report a novel microduplication hot spot at Xp11.22 identified in six unrelated families with predominantly nonsyndromic XLMR. All duplications segregate with the disease, including the large families MRX17 and MRX31. The minimal, commonly duplicated region contains three genes: RIBC1, HSD17B10, and HUWE1. RIBC1 could be excluded on the basis of its absence of expression in the brain and because it escapes X inactivation in females. For the other genes, expression array and quantitative PCR analysis in patient cell lines compared to controls showed a significant upregulation of HSD17B10 and HUWE1 as well as several important genes in their molecular pathways. Loss-of-function mutations of HSD17B10 have previously been associated with progressive neurological disease and XLMR. The E3 ubiquitin ligase HUWE1 has been implicated in TP53-associated regulation of the neuronal cell cycle. Here, we also report segregating sequence changes of highly conserved residues in HUWE1 in three XLMR families; these changes are possibly associated with the phenotype. Our findings demonstrate that an increased gene dosage of HSD17B10, HUWE1, or both contribute to the etiology of XLMR and suggest that point mutations in HUWE1 are associated with this disease too. [PUBLICATION ABSTRACT]</abstract><cop>Chicago</cop><pub>Cell Press</pub></addata></record> |
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| source | Elsevier ScienceDirect Journals Complete; Cell Press Free Archives; EZB-FREE-00999 freely available EZB journals; PubMed Central |
| subjects | Cell cycle Correlation analysis Gene expression Genetic disorders Genotype & phenotype Mental retardation Mutation |
| title | Submicroscopic Duplications of the Hydroxysteroid Dehydrogenase HSD17B10 and the E3 Ubiquitin Ligase HUWE1 Are Associated with Mental Retardation |
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