Search results for "MECP2 duplication syndrome"

showing 3 items of 3 documents

Four unrelated patients with lubs X-linked mental retardation syndrome and different Xq28 duplications

2010

The Lubs X-linked mental retardation syndrome (MRXSL) is caused by small interstitial duplications at distal Xq28 including the MECP2 gene. Here we report on four novel male patients with MRXSL and different Xq28 duplications delineated by microarray-based chromosome analysis. All mothers were healthy carriers of the duplications. Consistent with an earlier report [Bauters et al. (2008); Genome Res 18: 847-858], the distal breakpoints of all four Xq28 duplications were located in regions containing low-copy repeats (LCRs; J, K, and L groups), which may facilitate chromosome breakage and reunion events. The proximal breakpoint regions did not contain known LCRs. Interestingly, we identified …

AdultMaleHeterozygoteBotulinum ToxinsAdolescentMethyl-CpG-Binding Protein 2MECP2 duplication syndromeMothersBiologyMECP2Gene duplicationGeneticsmedicineHumansChildGenetics (clinical)X chromosomeMuscle contractureChromosome AberrationsGeneticsChromosomes Human XBreakpointInfantmedicine.diseasePedigreeXq28Child PreschoolMental Retardation X-LinkedFemaleChromosome breakageAmerican Journal of Medical Genetics Part A
researchProduct

Xq28 duplication includingMECP2in six unreported affected females: what can we learn for diagnosis and genetic counselling?

2017

Duplication of the Xq28 region, involving MECP2 (dupMECP2), has been primarily described in males with severe developmental delay, spasticity, epilepsy, stereotyped movements and recurrent infections. Carrier mothers are usually asymptomatic with an extremely skewed X chromosome inactivation (XCI) pattern. We report a series of six novel symptomatic females carrying a de novo interstitial dupMECP2, and review the 14 symptomatic females reported to date, with the aim to further delineate their phenotype and give clues for genetic counselling. One patient was adopted and among the other 19 patients, seven (37%) had inherited their duplication from their mother, including three mildly (XCI: 70…

0301 basic medicineGeneticsPediatricsmedicine.medical_specialtyGenetic counselingMECP2 duplication syndrome030105 genetics & heredityBiologymedicine.diseaseX-inactivation3. Good healthXq2803 medical and health sciencesEpilepsy0302 clinical medicineGene duplicationGeneticsmedicineAsymptomatic carrierSkewed X-inactivation030217 neurology & neurosurgeryGenetics (clinical)Clinical Genetics
researchProduct

MECP2 impairs neuronal structure by regulating KIBRA

2016

Using a Drosophila model of MECP2 gain-of-function, we identified memory associated KIBRA as a target of MECP2 in regulating dendritic growth. We found that expression of human MECP2 increased kibra expression in Drosophila, and targeted RNAi knockdown of kibra in identified neurons fully rescued dendritic defects as induced by MECP2 gain-of-function. Validation in mouse confirmed that Kibra is similarly regulated by Mecp2 in a mammalian system. We found that Mecp2 gain-of-function in cultured mouse cortical neurons caused dendritic impairments and increased Kibra levels. Accordingly, Mecp2 loss-of-function in vivo led to decreased Kibra levels in hippocampus, cortex, and cerebellum. Togeth…

0301 basic medicinecongenital hereditary and neonatal diseases and abnormalitiesCerebellumMethyl-CpG-Binding Protein 2Dendritic morphologyHippocampusDisease modelsHippocampusArticlelcsh:RC321-571MECP2Mice03 medical and health sciencesMemoryRNA interferencemental disordersmedicineAnimalsHumanslcsh:Neurosciences. Biological psychiatry. NeuropsychiatryCerebral CortexNeuronsGene knockdownMECP2 duplication syndromebiologybiology.organism_classificationMECP2nervous system diseasesCortex (botany)Disease Models AnimalDrosophila melanogaster030104 developmental biologymedicine.anatomical_structureNeurologyCerebral cortexDrosophilaDrosophila melanogasterNeuroscienceNeurobiology of Disease
researchProduct