Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11.
BACKGROUND: Benign infantile convulsions and paroxysmal dyskinesia are episodic cerebral disorders that can share common genetic bases. They can be co-inherited as one single autosomal dominant trait (ICCA syndrome); the disease ICCA gene maps at chromosome 16p12-q12. Despite intensive and conventio...
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doaj-1a1a4866687d406094e2e237a83904622020-11-25T01:44:56ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-01-01510e1375010.1371/journal.pone.0013750Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11.Patrice RollDamien SanlavilleJennifer CillarioAudrey LabalmeNadine BruneauAnnick MassacrierMarc DélepinePhilippe DessenVladimir LazarAndrée Robaglia-SchluppGaëtan LescaElisabeth JouveGabrielle RudolfJacques RochetteG Mark LathropPierre SzepetowskiBACKGROUND: Benign infantile convulsions and paroxysmal dyskinesia are episodic cerebral disorders that can share common genetic bases. They can be co-inherited as one single autosomal dominant trait (ICCA syndrome); the disease ICCA gene maps at chromosome 16p12-q12. Despite intensive and conventional mutation screening, the ICCA gene remains unknown to date. The critical area displays highly complicated genomic architecture and is the site of deletions and duplications associated with various diseases. The possibility that the ICCA syndrome is related to the existence of large-scale genomic alterations was addressed in the present study. METHODOLOGY/PRINCIPAL FINDINGS: A combination of whole genome and dedicated oligonucleotide array comparative genomic hybridization coupled with quantitative polymerase chain reaction was used. Low copy number of a region corresponding to a genomic variant (Variation_7105) located at 16p11 nearby the centromere was detected with statistical significance at much higher frequency in patients from ICCA families than in ethnically matched controls. The genomic variant showed no apparent difference in size and copy number between patients and controls, making it very unlikely that the genomic alteration detected here is ICCA-specific. Furthermore, no other genomic alteration that would directly cause the ICCA syndrome in those nine families was detected in the ICCA critical area. CONCLUSIONS/SIGNIFICANCE: Our data excluded that inherited genomic deletion or duplication events directly cause the ICCA syndrome; rather, they help narrowing down the critical ICCA region dramatically and indicate that the disease ICCA genetic defect lies very close to or within Variation_7105 and hence should now be searched in the corresponding genomic area and its surrounding regions.http://europepmc.org/articles/PMC2966418?pdf=render |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Patrice Roll Damien Sanlaville Jennifer Cillario Audrey Labalme Nadine Bruneau Annick Massacrier Marc Délepine Philippe Dessen Vladimir Lazar Andrée Robaglia-Schlupp Gaëtan Lesca Elisabeth Jouve Gabrielle Rudolf Jacques Rochette G Mark Lathrop Pierre Szepetowski |
spellingShingle |
Patrice Roll Damien Sanlaville Jennifer Cillario Audrey Labalme Nadine Bruneau Annick Massacrier Marc Délepine Philippe Dessen Vladimir Lazar Andrée Robaglia-Schlupp Gaëtan Lesca Elisabeth Jouve Gabrielle Rudolf Jacques Rochette G Mark Lathrop Pierre Szepetowski Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11. PLoS ONE |
author_facet |
Patrice Roll Damien Sanlaville Jennifer Cillario Audrey Labalme Nadine Bruneau Annick Massacrier Marc Délepine Philippe Dessen Vladimir Lazar Andrée Robaglia-Schlupp Gaëtan Lesca Elisabeth Jouve Gabrielle Rudolf Jacques Rochette G Mark Lathrop Pierre Szepetowski |
author_sort |
Patrice Roll |
title |
Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11. |
title_short |
Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11. |
title_full |
Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11. |
title_fullStr |
Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11. |
title_full_unstemmed |
Infantile convulsions with paroxysmal dyskinesia (ICCA syndrome) and copy number variation at human chromosome 16p11. |
title_sort |
infantile convulsions with paroxysmal dyskinesia (icca syndrome) and copy number variation at human chromosome 16p11. |
publisher |
Public Library of Science (PLoS) |
series |
PLoS ONE |
issn |
1932-6203 |
publishDate |
2010-01-01 |
description |
BACKGROUND: Benign infantile convulsions and paroxysmal dyskinesia are episodic cerebral disorders that can share common genetic bases. They can be co-inherited as one single autosomal dominant trait (ICCA syndrome); the disease ICCA gene maps at chromosome 16p12-q12. Despite intensive and conventional mutation screening, the ICCA gene remains unknown to date. The critical area displays highly complicated genomic architecture and is the site of deletions and duplications associated with various diseases. The possibility that the ICCA syndrome is related to the existence of large-scale genomic alterations was addressed in the present study. METHODOLOGY/PRINCIPAL FINDINGS: A combination of whole genome and dedicated oligonucleotide array comparative genomic hybridization coupled with quantitative polymerase chain reaction was used. Low copy number of a region corresponding to a genomic variant (Variation_7105) located at 16p11 nearby the centromere was detected with statistical significance at much higher frequency in patients from ICCA families than in ethnically matched controls. The genomic variant showed no apparent difference in size and copy number between patients and controls, making it very unlikely that the genomic alteration detected here is ICCA-specific. Furthermore, no other genomic alteration that would directly cause the ICCA syndrome in those nine families was detected in the ICCA critical area. CONCLUSIONS/SIGNIFICANCE: Our data excluded that inherited genomic deletion or duplication events directly cause the ICCA syndrome; rather, they help narrowing down the critical ICCA region dramatically and indicate that the disease ICCA genetic defect lies very close to or within Variation_7105 and hence should now be searched in the corresponding genomic area and its surrounding regions. |
url |
http://europepmc.org/articles/PMC2966418?pdf=render |
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