Your search keyword '"Haan, Eric"' showing total 17 results

1. Mutations in U4atac snRNA, a Component of the Minor Spliceosome, in the Developmental Disorder MOPD I

Author

He, Huiling, Liyanarachchi, Sandya, Akagi, Keiko, Nagy, Rebecca, Li, Jingfeng, Dietrich, Rosemary C., Li, Wei, Sebastian, Nikhil, Wen, Bernard, Xin, Baozhong, Singh, Jarnail, Yan, Pearlly, Alder, Hansjuerg, Haan, Eric, Wieczorek, Dagmar, Albrecht, Beate, Puffenberger, Erik, Wang, Heng, Westman, Judith A., Padgett, Richard A., Symer, David E., and de la Chapelle, Albert

Published

2011

2. Optimal Polymerase Chain Reaction Amplification For Preimplantation Diagnosis In Cystic Fibrosis (ΔF508)

Author

Cui, Ke-Hui, Haan, Eric A., Wang, Ling-Jia, Matthews, Colin D., and Raeburn, J. A.

Published

1995

3. Assessment of myocardial oxygenation, strain, and diastology in MYBPC3 -related hypertrophic cardiomyopathy: a cardiovascular magnetic resonance and echocardiography study.

Author

Grover, Suchi, Lloyd, Rachael, Perry, Rebecca, Lou, Pey Wen, Haan, Eric, Yeates, Laura, Woodman, Richard, Atherton, John J, Semsarian, Chris, and Selvanayagam, Joseph B

Subjects

HEART ventricle diseases, REACTIVE oxygen species, DIASTOLE (Cardiac cycle), ECHOCARDIOGRAPHY, CARDIAC hypertrophy, LEFT heart ventricle, MAGNETIC resonance imaging, GENETIC mutation, MYOCARDIUM, OXYGEN, OXYGEN in the body, RESEARCH funding, VASODILATORS, LEFT ventricular hypertrophy

Abstract

Aims Myocardial oxygenation is impaired in hypertrophic cardiomyopathy (HCM) patients with left ventricular hypertrophy (LVH), and possibly also in HCM gene carriers without LVH. Whether these oxygenation changes are also associated with abnormalities in diastolic function or left ventricular (LV) strain are unknown. Methods and results We evaluated 60 subjects: 20 MYBPC3 gene positive patients with LVH (G+LVH+), 18 MYBPC3 gene positive without LVH (G+LVH−), 11 gene negative siblings (G−), and 11 normal controls (NC). All subjects underwent 2D transthoracic echocardiography and cardiovascular magnetic resonance imaging for assessment of ventricular volumes, mass, and myocardial oxygenation at rest and adenosine stress using the blood oxygen level dependent (BOLD) technique. Maximal septal thickness was 20 mm in the G+LVH+ group, vs. 9 mm for the G+LVH− group. As expected, the G+LVH+ group had a more blunted myocardial oxygenation response to stress when compared with the G+LVH− group (−5% ± 3% vs. 2% ± 4%, P  < 0.05), G− siblings (−5% ± 3% vs. 11% ± 4%, P  < 0.0001) and NC (−5% ± 3% vs. 15% ± 4%, P  < 0.0001). A blunted BOLD response to stress was also seen in G+LVH− subjects when compared with gene negative siblings (2% ± 4% vs. 11% ± 4%, P  < 0.05) and NC (15% ± 4%, P  < 0.050). G+LVH+ patients exhibited abnormal diastolic function including lower Eʹ, higher E to E ʹ ratio and greater left atrial area compared with the G+LVH− subjects who all had normal values for these indices. Conclusion Myocardial deoxygenation during stress is observed in MYBPC3 HCM patients, even in the presence of normal LV diastolic function, LV global longitudinal strain, and LV wall thickness. [ABSTRACT FROM AUTHOR]

Published

2019

4. Human Genetics Society of Australasia Position Statement: Population-Based Carrier Screening for Cystic Fibrosis.

Author

Delatycki, Martin B., Burke, Jo, Christie, Louise, Collins, Felicity, Gabbett, Michael, George, Peter, Haan, Eric, Ioannou, Liane, Martin, Nicole, McKenzie, Fiona, O’Leary, Peter, Scoble-Williams, Nicole, Turner, Gillian, and Massie, John

Subjects

CYSTIC fibrosis, GENETIC testing, MEDICAL screening, GENETIC counseling, HUMAN genetics, GENETIC carriers, GENETIC mutation, CHROMOSOME abnormalities, GENETICS, SOCIETIES

Abstract

Since the discovery in 1989 that mutations in cystic fibrosis transmembrane conductance regulator (CFTR) underlie cystic fibrosis (CF), the most common life shortening genetic disorder in Caucasians, it has been possible to identify heterozygous mutation carriers at risk of having affected children. The Human Genetics Society of Australasia has produced a position statement with recommendations in relation to population-based screening for CF. These include: (1) that screening should be offered to all relatives of people with or carriers of CF (cascade testing) as well as to all couples planning to have children or who are pregnant; (2) the minimum CFTR mutation panel to be tested consists of 17 mutations which are those mutations that are associated with typical CF and occur with a frequency of 0.1% or higher among individuals diagnosed with CF in Australasia; (3) that genetic counselling is offered to all couples where both members are known to have one or two CFTR mutations and that such couples are given the opportunity to meet with a physician with expertise in the management of CF as well as a family/individual affected by the condition. [ABSTRACT FROM PUBLISHER]

Published

2014

5. FRA2A Is a CGG Repeat Expansion Associated with Silencing of AFF3.

Author

Metsu, Sofie, Rooms, Liesbeth, Rainger, Jacqueline, Taylor, Martin S., Bengani, Hemant, Wilson, David I., Chilamakuri, Chandra Sekhar Reddy, Morrison, Harris, Vandeweyer, Geert, Reyniers, Edwin, Douglas, Evelyn, Thompson, Geoffrey, Haan, Eric, Gecz, Jozef, FitzPatrick, David R., and Kooy, R. Frank

Subjects

GENE silencing, GENETIC regulation, GENETIC mutation, GENE expression, GENETIC polymorphism research, IN situ hybridization

Abstract

Folate-sensitive fragile sites (FSFS) are a rare cytogenetically visible subset of dynamic mutations. Of the eight molecularly characterized FSFS, four are associated with intellectual disability (ID). Cytogenetic expression results from CGG tri-nucleotide-repeat expansion mutation associated with local CpG hypermethylation and transcriptional silencing. The best studied is the FRAXA site in the FMR1 gene, where large expansions cause fragile X syndrome, the most common inherited ID syndrome. Here we studied three families with FRA2A expression at 2q11 associated with a wide spectrum of neurodevelopmental phenotypes. We identified a polymorphic CGG repeat in a conserved, brain-active alternative promoter of the AFF3 gene, an autosomal homolog of the X-linked AFF2/FMR2 gene: Expansion of the AFF2 CGG repeat causes FRAXE ID. We found that FRA2A-expressing individuals have mosaic expansions of the AFF3 CGG repeat in the range of several hundred repeat units. Moreover, bisulfite sequencing and pyrosequencing both suggest AFF3 promoter hypermethylation. cSNP-analysis demonstrates monoallelic expression of the AFF3 gene in FRA2A carriers thus predicting that FRA2A expression results in functional haploinsufficiency for AFF3 at least in a subset of tissues. By whole-mount in situ hybridization the mouse AFF3 ortholog shows strong regional expression in the developing brain, somites and limb buds in 9.5–12.5dpc mouse embryos. Our data suggest that there may be an association between FRA2A and a delay in the acquisition of motor and language skills in the families studied here. However, additional cases are required to firmly establish a causal relationship. [ABSTRACT FROM AUTHOR]

Published

2014

6. NKX2-1 mutation in a family diagnosed with ataxic dyskinetic cerebral palsy.

Author

McMichael, Gai, Haan, Eric, Gardner, Alison, Yap, Tzu Ying, Thompson, Suzanna, Ouvrier, Robert, Dale, Russell C., Gecz, Jozef, and MacLennan, Alastair H.

Subjects

*HOMEOBOX genes, *GENETIC mutation, *PEOPLE with cerebral palsy, *HUNTINGTON disease, *DIAGNOSTIC errors, *BIOINFORMATICS

Abstract

Abstract: Benign hereditary chorea caused by mutations in the NK2 homeobox 1 gene (NKX2-1), shares clinical features with ataxic and dyskinetic cerebral palsy (CP), resulting in the possibility of misdiagnosis. A father and his two children were considered to have ataxic CP until a possible diagnosis of benign familial chorea was made in the children in early teenage. The father's neurological condition had not been appreciated prior to examination of the affected son. Whole exome sequencing of blood derived DNA and bioinformatics analysis were performed. A 7 bp deletion in exon 1 of NKX2-1, resulting in a frame shift and creation of a premature termination codon, was identified in all affected individuals. Screening of 60 unrelated individuals with a diagnosis of dyskinetic or ataxic CP did not identify NKX2-1 mutations. BHC can be confused with ataxic and dyskinetic CP. Occasionally these children have a mutation in NKX2-1. [Copyright &y& Elsevier]

Published

2013

7. C9ORF72 Repeat Expansion in Australian and Spanish Frontotemporal Dementia Patients.

Author

Dobson-Stone, Carol, Hallupp, Marianne, Loy, Clement T., Thompson, Elizabeth M., Haan, Eric, Sue, Carolyn M., Panegyres, Peter K., Razquin, Cristina, Seijo-Martínez, Manuel, Rene, Ramon, Gascon, Jordi, Campdelacreu, Jaume, Schmoll, Birgit, Volk, Alexander E., Brooks, William S., Schofield, Peter R., Pastor, Pau, and Kwok, John B. J.

Subjects

FRONTOTEMPORAL dementia, AUSTRALIANS, SPANIARDS, NUCLEOTIDES, ALLELES, GENETIC mutation, HUMAN genetics, AMYOTROPHIC lateral sclerosis, DISEASES

Abstract

A hexanucleotide repeat expansion in C9ORF72 has been established as a common cause of frontotemporal dementia (FTD). However, the minimum repeat number necessary for disease pathogenesis is not known. The aims of our study were to determine the frequency of the C9ORF72 repeat expansion in two FTD patient collections (one Australian and one Spanish, combined n = 190), to examine C9ORF72 expansion allele length in a subset of FTD patients, and to examine C9ORF72 allele length in ‘non-expansion’ patients (those with <30 repeats). The C9ORF72 repeat expansion was detected in 5–17% of patients (21–41% of familial FTD patients). For one family, the expansion was present in the proband but absent in the mother, who was diagnosed with dementia at age 68. No association was found between C9ORF72 non-expanded allele length and age of onset and in the Spanish sample mean allele length was shorter in cases than in controls. Southern blotting analysis revealed that one of the nine ‘expansion-positive’ patients examined, who had neuropathologically confirmed frontotemporal lobar degeneration with TDP-43 pathology, harboured an ‘intermediate’ allele with a mean size of only ∼65 repeats. Our study indicates that the C9ORF72 repeat expansion accounts for a significant proportion of Australian and Spanish FTD cases. However, C9ORF72 allele length does not influence the age at onset of ‘non-expansion’ FTD patients in the series examined. Expansion of the C9ORF72 allele to as little as ∼65 repeats may be sufficient to cause disease. [ABSTRACT FROM AUTHOR]

Published

2013

8. Lung disease associated with periventricular nodular heterotopia and an FLNA mutation

Author

Masurel-Paulet, Alice, Haan, Eric, Thompson, Elizabeth M., Goizet, Cyril, Thauvin-Robinet, Christel, Tai, Andrew, Kennedy, Declan, Smith, Greg, Khong, Teck Yee, Solé, Guilhem, Guerineau, Elodie, Coupry, Isabelle, Huet, Frédéric, Robertson, Stephen, and Faivre, Laurence

Subjects

*LUNG diseases, *GENETIC mutation, *PHENOTYPES, *PULMONARY hypertension, *LONGITUDINAL method, *CARDIOVASCULAR diseases

Abstract

Abstract: X-linked periventricular nodular heterotopia (PH) is a neuronal migration disorder caused by mutations in the gene encoding filamin A (FLNA). High phenotypic diversity, ranging from PH to otopalatodigital syndrome and frontometaphyseal dysplasia has been described in association with FLNA mutations. Extra-neurological features including cardiovascular abnormalities, coagulopathy, skeletal dysplasia and joint hypermobility have sometimes been described in patients with PH. Respiratory manifestations have not been associated with FLNA disorders with the exception of tracheal stenosis and pulmonary hypoplasia associated with frontometaphyseal dysplasia and Melnick–Needles syndrome. Here, we report on a male patient aged 6 years presenting with a mosaic nonsense mutation c.994delG within the FLNA gene, PH and severe congenital lung disease comprising bilateral atelectasis, lung cysts, tracheobronchomalacia, pulmonary arterial hypertension and long-term oxygen dependence; histology of resected lung showed panpulmonary emphysema with marked reduction of bronchial cartilage. Rare male patients with PH and FLNA mutations have already been reported, usually with early lethality. These observations suggest the possibility of a link between FLNA mutations and congenital lung disease. A prospective study of patients with PH and FLNA mutations would be helpful in order to test this hypothesis. [Copyright &y& Elsevier]

Published

2011

9. TRPV4 related skeletal dysplasias: a phenotypic spectrum highlighted byclinical, radiographic, and molecular studies in 21 new families.

Author

Andreucci, Elena, Aftimos, Salim, Alcausin, Melanie, Haan, Eric, Hunter, Warwick, Kannu, Peter, Kerr, Bronwyn, McGillivray, George, McKinlay Gardner, R J, Patricelli, Maria G, Sillence, David, Thompson, Elizabeth, Zacharin, Margaret, Zankl, Andreas, Lamandé, Shireen R, and Savarirayan, Ravi

Subjects

DYSPLASIA, CALCIUM, GENETIC mutation, FAMILIES, ION channels

Abstract

Background: The TRPV4 gene encodes a calcium-permeable ion-channel that is widely expressed, responds to many different stimuli and participates in an extraordinarily wide range of physiologic processes. Autosomal dominant brachyolmia, spondylometaphyseal dysplasia Kozlowski type (SMDK) and metatropic dysplasia (MD) are currently considered three distinct skeletal dysplasias with some shared clinical features, including short stature, platyspondyly, and progressive scoliosis. Recently, TRPV4 mutations have been found in patients diagnosed with these skeletal phenotypes.Methods and Results: We critically analysed the clinical and radiographic data on 26 subjects from 21 families, all of whom had a clinical diagnosis of one of the conditions described above: 15 with MD; 9 with SMDK; and 2 with brachyolmia. We sequenced TRPV4 and identified 9 different mutations in 22 patients, 4 previously described, and 5 novel. There were 4 mutation-negative cases: one with MD and one with SMDK, both displaying atypical clinical and radiographic features for these diagnoses; and two with brachyolmia, who had isolated spine changes and no metaphyseal involvement.Conclusions: Our data suggest the TRPV4 skeletal dysplasias represent a continuum of severity with areas of phenotypic overlap, even within the same family. We propose that AD brachyolmia lies at the mildest end of this spectrum and, since all cases described with this diagnosis and TRPV4 mutations display metaphyseal changes, we suggest that it is not a distinct entity but represents the mildest phenotypic expression of SMDK. [ABSTRACT FROM AUTHOR]

Published

2011

10. Associations between inherited thrombophilias, gestational age, and cerebraL palsy.

Author

Gibson, Catherine S., MacLennan, Alastair H., Hague, William M., Haan, Eric A., Priest, Kevin, Chan, Annabelle, and Dekker, Gustaaf A.

Subjects

GESTATIONAL age, CEREBRAL palsy, BRAIN damage, GENETIC mutation, GENETIC polymorphisms, DEVELOPMENTAL disabilities

Abstract

Objective: This study was undertaken to investigate associations between inherited thrombophilic polymorphisms and cerebral palsy (CP) in a large case-control study. Study design: This is a population-based case-control study. Genomic DNA from newborn screening cards of 443 white CP cases and 883 white controls was tested for factor V Leiden (FVL, G1691A), prothrombin gene mutation (PGM, G20210A), and methylenetetrahydrofolate reductase (MTHFR) C677T and MTHFR A1298C. Results: MTHFR C677T was associated with an increased risk of developing any CP (32–36 weeks' gestation, homozygous odds ratio [OR] 2.55, 95% CI 1.12–5.74; heterozygous OR 1.91, 95% CI 1.01–3.66). MTHFR C677T was also associated with diplegia at both less than 32 weeks' gestation (homozygous OR 2.76, 95% CI 1.21–6.12) and all gestations (heterozygous OR 1.58 95%, CI 1.02–2.45). For children less than 32 weeks, FVL homozygosity may be associated with an increase in the risk of developing quadriplegia (OR 9.12, 95% CI 0.86–53.71). MTHFR A1298C (heterozygous) was associated with a reduced risk of diplegia developing at 32 to 36 weeks' gestation (OR 0.16, 95% CI 0.02–0.70). There were no associations between any type of CP and thrombophilia for children born 37 weeks or greater. Heterozygous PGM and homozygous MTHFR C677T combined were associated with quadriplegia at all gestational ages (OR 5.33, 95% CI 1.06–23.25). [ABSTRACT FROM AUTHOR]

Published

2005

11. Lamin A/C mutation: An easily missed opportunity.

Author

Parnham, Susie, Selvanayagam, Joseph B., Haan, Eric, Heddle, William, and De Pasquale, Carmine G.

Subjects

*LAMINS, *HEART conduction system, *DILATED cardiomyopathy, *HEART block, *HEART failure, *GENETIC mutation, *DISEASES, *DIAGNOSIS, CARDIAC arrest prevention

Published

2015

12. Identical by descent L1CAM mutation in two apparently unrelated families with intellectual disability without L1 syndrome.

Author

Shaw, Marie, Yap, Tzu Ying, Henden, Lyndal, Bahlo, Melanie, Gardner, Alison, Kalscheuer, Vera M., Haan, Eric, Christie, Louise, Hackett, Anna, and Gecz, Jozef

Subjects

*X-linked intellectual disabilities, *CELL adhesion molecules, *SYNDROMES, *GENETIC mutation, *X chromosome

Abstract

Mutations in the L1 Cell Adhesion Molecule ( L1CAM ) gene (MIM#308840) cause a variety of X-linked recessive neurological disorders collectively called L1 syndrome. Using massively parallel sequencing (MPS) of the X-chromosome exome, we identified a novel missense variant in L1CAM in two Caucasian families with mild-moderate intellectual disability without obvious L1 syndrome features. These families were not known to be related. SNP data extracted from MPS identified a 5.6 cM tract of identity by descent (IBD), encompassing the L1CAM gene, between the DNA of the two probands. This cannot be explained by chance alone and strongly implies that the two families are related. It also suggests that the L1CAM (NM_000425.3, c.604G > A, p.D202N) variant is pathogenic. This report also demonstrates the usefulness of additional information, which can be extracted from exome sequencing data. [ABSTRACT FROM AUTHOR]

Published

2015

13. FRA2A Is a CGG Repeat Expansion Associated with Silencing of AFF3.

Author

Metsu, Sofie, Rooms, Liesbeth, Rainger, Jacqueline, Taylor, Martin S., Bengani, Hemant, Wilson, David I., Chilamakuri, Chandra Sekhar Reddy, Morrison, Harris, Vandeweyer, Geert, Reyniers, Edwin, Douglas, Evelyn, Thompson, Geoffrey, Haan, Eric, Gecz, Jozef, FitzPatrick, David R., and Kooy, R. Frank

Subjects

*GENE silencing, *GENETIC regulation, *GENETIC mutation, *GENE expression, *GENETIC polymorphism research, *IN situ hybridization

Abstract

Folate-sensitive fragile sites (FSFS) are a rare cytogenetically visible subset of dynamic mutations. Of the eight molecularly characterized FSFS, four are associated with intellectual disability (ID). Cytogenetic expression results from CGG tri-nucleotide-repeat expansion mutation associated with local CpG hypermethylation and transcriptional silencing. The best studied is the FRAXA site in the FMR1 gene, where large expansions cause fragile X syndrome, the most common inherited ID syndrome. Here we studied three families with FRA2A expression at 2q11 associated with a wide spectrum of neurodevelopmental phenotypes. We identified a polymorphic CGG repeat in a conserved, brain-active alternative promoter of the AFF3 gene, an autosomal homolog of the X-linked AFF2/FMR2 gene: Expansion of the AFF2 CGG repeat causes FRAXE ID. We found that FRA2A-expressing individuals have mosaic expansions of the AFF3 CGG repeat in the range of several hundred repeat units. Moreover, bisulfite sequencing and pyrosequencing both suggest AFF3 promoter hypermethylation. cSNP-analysis demonstrates monoallelic expression of the AFF3 gene in FRA2A carriers thus predicting that FRA2A expression results in functional haploinsufficiency for AFF3 at least in a subset of tissues. By whole-mount in situ hybridization the mouse AFF3 ortholog shows strong regional expression in the developing brain, somites and limb buds in 9.5–12.5dpc mouse embryos. Our data suggest that there may be an association between FRA2A and a delay in the acquisition of motor and language skills in the families studied here. However, additional cases are required to firmly establish a causal relationship. [ABSTRACT FROM AUTHOR]

Published

2014

14. Mutations in USP9X Are Associated with X-Linked Intellectual Disability and Disrupt Neuronal Cell Migration and Growth.

Author

Homan, Claire?C., Kumar, Raman, Nguyen, Lam?Son, Haan, Eric, Raymond, F.?Lucy, Abidi, Fatima, Raynaud, Martine, Schwartz, Charles E., Wood, Stephen?A., Gecz, Jozef, and Jolly, Lachlan?A.

Subjects

*X-linked intellectual disabilities, *GENETIC mutation, *CELL migration, *CELL growth, *LABORATORY mice, *GENE expression, *PHENOTYPES

Abstract

With a wealth of disease-associated DNA variants being recently reported, the challenges of providing their functional characterization are mounting. Previously, as part of a large systematic resequencing of the X chromosome in 208 unrelated families with nonsyndromic X-linked intellectual disability, we identified three unique variants (two missense and one protein truncating) in USP9X. To assess the functional significance of these variants, we took advantage of the Usp9x knockout mouse we generated. Loss of Usp9x causes reduction in both axonal growth and neuronal cell migration. Although overexpression of wild-type human USP9X rescued these defects, all three USP9X variants failed to rescue axonal growth, caused reduced USP9X protein localization in axonal growth cones, and (in 2/3 variants) failed to rescue neuronal cell migration. Interestingly, in one of these families, the proband was subsequently identified to have a microdeletion encompassing ARID1B, a known ID gene. Given our findings it is plausible that loss of function of both genes contributes to the individual's phenotype. This case highlights the complexity of the interpretations of genetic findings from genome-wide investigations. We also performed proteomics analysis of neurons from both the wild-type and Usp9x knockout embryos and identified disruption of the cytoskeleton as the main underlying consequence of the loss of Usp9x. Detailed clinical assessment of all three families with USP9X variants identified hypotonia and behavioral and morphological defects as common features in addition to ID. Together our data support involvement of all three USP9X variants in ID in these families and provide likely cellular and molecular mechanisms involved. [Copyright &y& Elsevier]

Published

2014

15. Yunis-Varón Syndrome Is Caused by Mutations in FIG4, Encoding a Phosphoinositide Phosphatase.

Author

Campeau, Philippe?M., Lenk, Guy?M., Lu, James?T., Bae, Yangjin, Burrage, Lindsay, Turnpenny, Peter, Román?Corona-Rivera, Jorge, Morandi, Lucia, Mora, Marina, Reutter, Heiko, Vulto-van?Silfhout, Anneke?T., Faivre, Laurence, Haan, Eric, Gibbs, Richard?A., Meisler, Miriam?H., and Lee, Brendan?H.

Subjects

*YUNIS-Varon syndrome, *DYSPLASIA, *GENETIC mutation, *GENETIC code, *PHOSPHOINOSITIDES, *PHOSPHATASES, *NEURONS

Abstract

Yunis-Varón syndrome (YVS) is an autosomal-recessive disorder with cleidocranial dysplasia, digital anomalies, and severe neurological involvement. Enlarged vacuoles are found in neurons, muscle, and cartilage. By whole-exome sequencing, we identified frameshift and missense mutations of FIG4 in affected individuals from three unrelated families. FIG4 encodes a phosphoinositide phosphatase required for regulation of PI(3,5)P2 levels, and thus endosomal trafficking and autophagy. In a functional assay, both missense substitutions failed to correct the vacuolar phenotype of Fig4-null mouse fibroblasts. Homozygous Fig4-null mice exhibit features of YVS, including neurodegeneration and enlarged vacuoles in neurons. We demonstrate that Fig4-null mice also have small skeletons with reduced trabecular bone volume and cortical thickness and that cultured osteoblasts accumulate large vacuoles. Our findings demonstrate that homozygosity or compound heterozygosity for null mutations of FIG4 is responsible for YVS, the most severe known human phenotype caused by defective phosphoinositide metabolism. In contrast, in Charcot-Marie-Tooth disease type 4J (also caused by FIG4 mutations), one of the FIG4 alleles is hypomorphic and disease is limited to the peripheral nervous system. This genotype-phenotype correlation demonstrates that absence of FIG4 activity leads to central nervous system dysfunction and extensive skeletal anomalies. Our results describe a role for PI(3,5)P2 signaling in skeletal development and maintenance. [Copyright &y& Elsevier]

Published

2013

16. ZC4H2 Mutations Are Associated with Arthrogryposis Multiplex Congenita and Intellectual Disability through Impairment of Central and Peripheral Synaptic Plasticity.

Author

Hirata, Hiromi, Nanda, Indrajit, van?Riesen, Anne, McMichael, Gai, Hu, Hao, Hambrock, Melanie, Papon, Marie-Amélie, Fischer, Ute, Marouillat, Sylviane, Ding, Can, Alirol, Servane, Bienek, Melanie, Preisler-Adams, Sabine, Grimme, Astrid, Seelow, Dominik, Webster, Richard, Haan, Eric, MacLennan, Alastair, Stenzel, Werner, and Yap, Tzu?Ying

Subjects

*GENETIC mutation, *ARTHROGRYPOSIS, *HUMAN abnormalities, *NEUROPLASTICITY, *PRENATAL diagnosis, *MEDICAL care

Abstract

Arthrogryposis multiplex congenita (AMC) is caused by heterogeneous pathologies leading to multiple antenatal joint contractures through fetal akinesia. Understanding the pathophysiology of this disorder is important for clinical care of the affected individuals and genetic counseling of the families. We thus aimed to establish the genetic basis of an AMC subtype that is associated with multiple dysmorphic features and intellectual disability (ID). We used haplotype analysis, next-generation sequencing, array comparative genomic hybridization, and chromosome breakpoint mapping to identify the pathogenic mutations in families and simplex cases. Suspected disease variants were verified by cosegregation analysis. We identified disease-causing mutations in the zinc-finger gene ZC4H2 in four families affected by X-linked AMC plus ID and one family affected by cerebral palsy. Several heterozygous females were also affected, but to a lesser degree. Furthermore, we found two ZC4H2 deletions and one rearrangement in two female and one male unrelated simplex cases, respectively. In mouse primary hippocampal neurons, transiently produced ZC4H2 localized to the postsynaptic compartment of excitatory synapses, and the altered protein influenced dendritic spine density. In zebrafish, antisense-morpholino-mediated zc4h2 knockdown caused abnormal swimming and impaired α-motoneuron development. All missense mutations identified herein failed to rescue the swimming defect of zebrafish morphants. We conclude that ZC4H2 point mutations, rearrangements, and small deletions cause a clinically variable broad-spectrum neurodevelopmental disorder of the central and peripheral nervous systems in both familial and simplex cases of both sexes. Our results highlight the importance of ZC4H2 for genetic testing of individuals presenting with ID plus muscle weakness and minor or major forms of AMC. [Copyright &y& Elsevier]

Published

2013

17. PRRT2 Mutations Cause Benign Familial Infantile Epilepsy and Infantile Convulsions with Choreoathetosis Syndrome

Author

Heron, Sarah E., Grinton, Bronwyn E., Kivity, Sara, Afawi, Zaid, Zuberi, Sameer M., Hughes, James N., Pridmore, Clair, Hodgson, Bree L., Iona, Xenia, Sadleir, Lynette G., Pelekanos, James, Herlenius, Eric, Goldberg-Stern, Hadassa, Bassan, Haim, Haan, Eric, Korczyn, Amos D., Gardner, Alison E., Corbett, Mark A., Gécz, Jozef, and Thomas, Paul Q.

Subjects

*GENETIC mutation, *INFANTILE spasms, *MOVEMENT disorders, *BASAL ganglia, *GENE expression, *NEUROLOGICAL disorders, *DEVELOPMENTAL disabilities

Abstract

Benign familial infantile epilepsy (BFIE) is a self-limited seizure disorder that occurs in infancy and has autosomal-dominant inheritance. We have identified heterozygous mutations in PRRT2, which encodes proline-rich transmembrane protein 2, in 14 of 17 families (82%) affected by BFIE, indicating that PRRT2 mutations are the most frequent cause of this disorder. We also report PRRT2 mutations in five of six (83%) families affected by infantile convulsions and choreoathetosis (ICCA) syndrome, a familial syndrome in which infantile seizures and an adolescent-onset movement disorder, paroxysmal kinesigenic choreoathetosis (PKC), co-occur. These findings show that mutations in PRRT2 cause both epilepsy and a movement disorder. Furthermore, PRRT2 mutations elicit pleiotropy in terms of both age of expression (infancy versus later childhood) and anatomical substrate (cortex versus basal ganglia). [ABSTRACT FROM AUTHOR]

Published

2012