2015
DOI: 10.1038/ejhg.2015.123
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Xp11.2 microduplications including IQSEC2, TSPYL2 and KDM5C genes in patients with neurodevelopmental disorders

Abstract: Copy number variations are a common cause of intellectual disability (ID). Determining the contribution of copy number variants (CNVs), particularly gains, to disease remains challenging. Here, we report four males with ID with sub-microscopic duplications at Xp11.2 and review the few cases with overlapping duplications reported to date. We established the extent of the duplicated regions in each case encompassing a minimum of three known disease genes TSPYL2, KDM5C and IQSEC2 with one case also duplicating th… Show more

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Cited by 47 publications
(57 citation statements)
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“…It has been proposed that non-synonymous variants in this gene are responsible for non-syndromic ID, whereas truncating variants may generate a more severe neurodevelopmental phenotype related to the loss of function of IQSEC2. 5 In agreement with our hypothesis of a dosage effect of the IQSEC2 protein, Moey et al 34 have recently published a review of cases with submicroscopic copy-number gains on Xp11.22 in which they suggest that IQSEC2 gene is a dosagesensitive gene contributing to ID and behavioral disturbances. 34 These authors speculate that increased dosage of IQSEC2 gene may lead to an inappropriate response to glutamate signaling with similar phenotypic consequences as those observed in patients with duplications involving glutamate receptors.…”
Section: Mutationsupporting
confidence: 75%
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“…It has been proposed that non-synonymous variants in this gene are responsible for non-syndromic ID, whereas truncating variants may generate a more severe neurodevelopmental phenotype related to the loss of function of IQSEC2. 5 In agreement with our hypothesis of a dosage effect of the IQSEC2 protein, Moey et al 34 have recently published a review of cases with submicroscopic copy-number gains on Xp11.22 in which they suggest that IQSEC2 gene is a dosagesensitive gene contributing to ID and behavioral disturbances. 34 These authors speculate that increased dosage of IQSEC2 gene may lead to an inappropriate response to glutamate signaling with similar phenotypic consequences as those observed in patients with duplications involving glutamate receptors.…”
Section: Mutationsupporting
confidence: 75%
“…Regarding clinical features in females, these are less severe due to the presence of a normal X-chromosome, which has been previously described. 9,11 I2 II2 II4 II5 II6 III1 Olson et al 30 Gandomi et al 31 Tran Mau-Them et al 5 Tran Mau-Them et al 5 Gilissen et al 32 33 Moey et al 34 Moey et al 34 Moey et al 34 Moey et al 34 Froyen et al 35 Froyen et al 35 Froyen et al 35 Gedeon et al 36 Froyen et al 37 Froyen et al 37 Froyen et al 37 Froyen et al 37 Patient 1 IQSEC2 splicing mutation and ID I Madrigal et al…”
Section: Discussionmentioning
confidence: 99%
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“…21 All the patients had developmental delay/ ID and behavioral abnormalities. 21 All the patients had developmental delay/ ID and behavioral abnormalities.…”
Section: Addendummentioning
confidence: 99%
“…Specific escape genes have been implicated in mental impairment; for example, KDM5C and IQSEC2 deletions or mutations cause X-linked intellectual disability both in males and females, consistent with dosage sensitivity (Santos-Reboucas et al 2011; Simensen et al 2013; Fieremans et al 2015). Further, cognitive deficiencies have been reported in individuals carrying microduplications of KDM5C and IQSEC2 associated with abnormally high expression (Moey et al 2015). Similarly, mutations and deletions in KDM6A have been discovered in patients with Kabuki syndrome characterized by intellectual disability, growth retardation, skeletal abnormalities, and visceral malformations (Lederer et al 2012; Miyake et al 2012).…”
Section: XCI X Aneuploidy and Diseasementioning
confidence: 99%