48 results on '"Herkert JC"'
Search Results
2. De Novo Truncating Mutations in the Last and Penultimate Exons of PPM1D Cause an Intellectual Disability Syndrome
- Author
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Jansen, S, Geuer, S, Pfundt, R, Brought, R, Ghongane, P, Herkert, JC, Marco, EJ, Willemsen, MH, Kleefstra, T, Hannibal, M, Shieh, JT, Lynch, SA, Flinter, F, FitzPatrick, DR, Gardham, A, Bernhard, B, Ragge, Nicola, Newbury-Ecob, R, Bernier, R, Kvarnung, M, Magnusson, EAH, Wessels, MW, van Slegtenhorst, MA, Monaghan, KG, de Vries, P, Veltman, JA, Lord, CJ, Vissers, LELM, de Vries, BBA, Jansen, S, Geuer, S, Pfundt, R, Brought, R, Ghongane, P, Herkert, JC, Marco, EJ, Willemsen, MH, Kleefstra, T, Hannibal, M, Shieh, JT, Lynch, SA, Flinter, F, FitzPatrick, DR, Gardham, A, Bernhard, B, Ragge, Nicola, Newbury-Ecob, R, Bernier, R, Kvarnung, M, Magnusson, EAH, Wessels, MW, van Slegtenhorst, MA, Monaghan, KG, de Vries, P, Veltman, JA, Lord, CJ, Vissers, LELM, and de Vries, BBA
- Abstract
Intellectual disability (ID) is a highly heterogeneous disorder involving at least 600 genes, yet a genetic diagnosis remains elusive in ∼35%–40% of individuals with moderate to severe ID. Recent meta-analyses statistically analyzing de novo mutations in >7,000 individuals with neurodevelopmental disorders highlighted mutations in PPM1D as a possible cause of ID. PPM1D is a type 2C phosphatase that functions as a negative regulator of cellular stress-response pathways by mediating a feedback loop of p38-p53 signaling, thereby contributing to growth inhibition and suppression of stress-induced apoptosis. We identified 14 individuals with mild to severe ID and/or developmental delay and de novo truncating PPM1D mutations. Additionally, deep phenotyping revealed overlapping behavioral problems (ASD, ADHD, and anxiety disorders), hypotonia, broad-based gait, facial dysmorphisms, and periods of fever and vomiting. PPM1D is expressed during fetal brain development and in the adult brain. All mutations were located in the last or penultimate exon, suggesting escape from nonsense-mediated mRNA decay. Both PPM1D expression analysis and cDNA sequencing in EBV LCLs of individuals support the presence of a stable truncated transcript, consistent with this hypothesis. Exposure of cells derived from individuals with PPM1D truncating mutations to ionizing radiation resulted in normal p53 activation, suggesting that p53 signaling is unaffected. However, a cell-growth disadvantage was observed, suggesting a possible effect on the stress-response pathway. Thus, we show that de novo truncating PPM1D mutations in the last and penultimate exons cause syndromic ID, which provides additional insight into the role of cell-cycle checkpoint genes in neurodevelopmental disorders.
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- 2017
3. A Dutch MYH7 founder mutation, p.(Asn1918Lys), is associated with early onset cardiomyopathy and congenital heart defects
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van der Linde, IHM, Hiemstra, YL, Bokenkamp, R, Mil, Annemieke, Breuning, MH, Ruivenkamp, C, ten Broeke, SW, Veldkamp, RF, Waning, Jaap, van Slegtenhorst, MA, Spaendonck-Zwarts, KY, Deprez, RHL, Herkert, JC, Boven, LA, van der Zwaag, PA, Jongbloed, JDH, Bootsma, M, Barge-Schaapveld, D, van der Linde, IHM, Hiemstra, YL, Bokenkamp, R, Mil, Annemieke, Breuning, MH, Ruivenkamp, C, ten Broeke, SW, Veldkamp, RF, Waning, Jaap, van Slegtenhorst, MA, Spaendonck-Zwarts, KY, Deprez, RHL, Herkert, JC, Boven, LA, van der Zwaag, PA, Jongbloed, JDH, Bootsma, M, and Barge-Schaapveld, D
- Published
- 2017
4. Detection of genomic deletions ofPKP2in arrhythmogenic right ventricular cardiomyopathy
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Roberts, JD, primary, Herkert, JC, additional, Rutberg, J, additional, Nikkel, SM, additional, Wiesfeld, ACP, additional, Dooijes, D, additional, Gow, RM, additional, van Tintelen, JP, additional, and Gollob, MH, additional
- Published
- 2012
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5. Detection of genomic deletions of PKP2 in arrhythmogenic right ventricular cardiomyopathy.
- Author
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Roberts, JD, Herkert, JC, Rutberg, J, Nikkel, SM, Wiesfeld, ACP, Dooijes, D, Gow, RM, Tintelen, JP, and Gollob, MH
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VENTRICULAR arrhythmia , *CARDIOMYOPATHIES , *GENETIC testing , *NUCLEOTIDE sequence , *PATHOGENIC microorganisms , *EXONS (Genetics) , *GENETICS - Abstract
Arrhythmogenic right ventricular cardiomyopathy ( ARVC) is an inherited myocardial disease that predominantly affects the right ventricle and is associated with ventricular arrhythmias that may lead to sudden cardiac death. Mutations within at least seven separate genes have been identified to cause ARVC, however a genetic culprit remains elusive in approximately 50% of cases. Although negative genetic testing may be secondary to pathogenic mutations within undiscovered genes, an alternative explanation may be the presence of large deletions or duplications involving known genes. These large copy number variants may not be detected with standard clinical genetic testing which is presently limited to direct DNA sequencing. We describe two cases of ARVC possessing large deletions involving plakophilin-2 ( PKP2) identified with microarray analysis and/or multiplex ligation-dependent probe amplification ( MLPA) that would have been classified as genotype negative with standard clinical genetic testing. A deletion of the entire coding region of PKP2 excluding exon 1 was identified in patient 1 and his son. In patient 2, MLPA analysis of PKP2 revealed deletion of the entire gene with subsequent microarray analysis demonstrating a de novo 7.9 Mb deletion of chromosome 12p12.1p11.1. These findings support screening for large copy number variants in clinically suspected ARVC cases without clear disease causing mutations following initial sequencing analysis. [ABSTRACT FROM AUTHOR]
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- 2013
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6. CUL3-Related Neurodevelopmental Disorder: Clinical Phenotype of 20 New Individuals and Identification of a Potential Phenotype-Associated Episignature.
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van der Laan L, Silva A, Kleinendorst L, Rooney K, Haghshenas S, Lauffer P, Alanay Y, Bhai P, Brusco A, de Munnik S, de Vries BBA, Vega AD, Engelen M, Herkert JC, Hochstenbach R, Hopman S, Kant SG, Kira R, Kato M, Keren B, Kroes HY, Levy MA, Lock-Hock N, Maas SM, Mancini GMS, Marcelis C, Matsumoto N, Mizuguchi T, Mussa A, Mignot C, Närhi A, Nordgren A, Pfundt R, Polstra AM, Trajkova S, van Bever Y, José van den Boogaard M, van der Smagt JJ, Barakat TS, Alders M, Mannens MMAM, Sadikovic B, van Haelst MM, and Henneman P
- Abstract
Neurodevelopmental disorder with or without autism or seizures (NEDAUS; OMIM #619239) is a neurodevelopmental disorder characterized by global developmental delay, speech delay, seizures, autistic features and/or behavior abnormalities. It is caused by CUL3 (Cullin-3 ubiquitin ligase; OMIM #603136) haploinsufficiency. We collected clinical and molecular data from twenty-six individuals carrying pathogenic variants and variants of uncertain significance (VUS) in the CUL3 gene, including twenty previously unreported cases. By comparing their DNA methylation (DNAm) classifiers with those of healthy controls and other neurodevelopmental disorders characterized by established episignatures, we aimed to create a diagnostic biomarker (episignature) and gain more knowledge into the molecular pathophysiology. We discovered a sensitive and specific DNAm episignature for patients with pathogenic variants in CUL3 and utilized it to reclassify patients carrying a VUS in the CUL3 gene. Comparative epigenomic analysis revealed similarities between NEDAUS and several other rare genetic neurodevelopmental disorders with previously identified episignatures, highlighting the broader implication of our findings. In addition, we preformed genotype-phenotype correlation studies to explain the variety in clinical presentation between the cases. We discovered a highly accurate DNAm episignature serving as a robust diagnostic biomarker for NEDAUS. Furthermore, we broadened the phenotypic spectrum by identifying twenty new individuals and confirming five previously reported cases of NEDAUS., (Copyright © 2024. Published by Elsevier Inc.)
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- 2024
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7. Novel variants in the SOX11 gene: clinical description of seven new patients.
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Schincariol-Manhe B, Campagnolo É, Spineli-Silva S, de Leeuw N, Correia-Costa GR, Pessoa A, de Souza CFM, Stevens C, Javaher P, Scallet HF, Mohr J, Biskup S, Herkert JC, Pfundt R, Mehta L, Rekab A, Elloumi HZ, Sanyoura M, Maciel-Guerra AT, Gil-da-Silva-Lopes VL, Dos Santos AM, and Vieira TP
- Abstract
Pathogenic SOX11 variants have been associated with intellectual developmental disorder with microcephaly, and with or without ocular malformations or hypogonadotropic hypogonadism (HH) (IDDMOH, OMIM # 615866). In this article, we report seven new patients with de novo SOX11 variants. Five of the variants are missense, one nonsense, and one whole-gene deletion, most of them are novel variants. The main clinical features included neurodevelopmental delay (7/7) and intellectual disability (5/7), autism/attention deficit hyperactivity disorder (5/7), microcephaly (4/7), short stature (4/7), hypotonia (4/7), and clinodactyly of the 5th fingers (5/7). HH was confirmed in two female patients with primary amenorrhea, nonvisualized/prepubertal size of the uterus, and nonvisualized ovaries. Two of the male patients presented with micropenis, two had cryptorchidism, and one had decreased testicular size, which are suggestive findings of HH. This article contributes to the clinical characterization of patients with SOX11 variants and supports the role of this gene in HH., (© 2024. The Author(s), under exclusive licence to European Society of Human Genetics.)
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- 2024
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8. Loss-of-Function Variants in CUL3 Cause a Syndromic Neurodevelopmental Disorder.
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Blackburn PR, Ebstein F, Hsieh TC, Motta M, Radio FC, Herkert JC, Rinne T, Thiffault I, Rapp M, Alders M, Maas S, Gerard B, Smol T, Vincent-Delorme C, Cogné B, Isidor B, Vincent M, Bachmann-Gagescu R, Rauch A, Joset P, Ferrero GB, Ciolfi A, Husson T, Guerrot AM, Bacino C, Macmurdo C, Thompson SS, Rosenfeld JA, Faivre L, Mau-Them FT, Deb W, Vignard V, Agrawal PB, Madden JA, Goldenberg A, Lecoquierre F, Zech M, Prokisch H, Necpál J, Jech R, Winkelmann J, Koprušáková MT, Konstantopoulou V, Younce JR, Shinawi M, Mighton C, Fung C, Morel CF, Lerner-Ellis J, DiTroia S, Barth M, Bonneau D, Krapels I, Stegmann APA, van der Schoot V, Brunet T, Bußmann C, Mignot C, Zampino G, Wortmann SB, Mayr JA, Feichtinger RG, Courtin T, Ravelli C, Keren B, Ziegler A, Hasadsri L, Pichurin PN, Klee EW, Grand K, Sanchez-Lara PA, Krüger E, Bézieau S, Klinkhammer H, Krawitz PM, Eichler EE, Tartaglia M, Küry S, and Wang T
- Abstract
Objective: De novo variants in cullin-3 ubiquitin ligase (CUL3) have been strongly associated with neurodevelopmental disorders (NDDs), but no large case series have been reported so far. Here, we aimed to collect sporadic cases carrying rare variants in CUL3, describe the genotype-phenotype correlation, and investigate the underlying pathogenic mechanism., Methods: Genetic data and detailed clinical records were collected via multicenter collaboration. Dysmorphic facial features were analyzed using GestaltMatcher. Variant effects on CUL3 protein stability were assessed using patient-derived T-cells., Results: We assembled a cohort of 37 individuals with heterozygous CUL3 variants presenting a syndromic NDD characterized by intellectual disability with or without autistic features. Of these, 35 have loss-of-function (LoF) and 2 have missense variants. CUL3 LoF variants in patients may affect protein stability leading to perturbations in protein homeostasis, as evidenced by decreased ubiquitin-protein conjugates in vitro. Notably, we show that 4E-BP1 (EIF4EBP1), a prominent substrate of CUL3, fails to be targeted for proteasomal degradation in patient-derived cells., Interpretation: Our study further refines the clinical and mutational spectrum of CUL3-associated NDDs, expands the spectrum of cullin RING E3 ligase-associated neuropsychiatric disorders, and suggests haploinsufficiency via LoF variants is the predominant pathogenic mechanism. ANN NEUROL 2024., (© 2024 American Neurological Association.)
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- 2024
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9. Penetrance and Prognosis of MYH7 Variant-Associated Cardiomyopathies: Results From a Dutch Multicenter Cohort Study.
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Jansen M, de Brouwer R, Hassanzada F, Schoemaker AE, Schmidt AF, Kooijman-Reumerman MD, Bracun V, Slieker MG, Dooijes D, Vermeer AMC, Wilde AAM, Amin AS, Lekanne Deprez RH, Herkert JC, Christiaans I, de Boer RA, Jongbloed JDH, van Tintelen JP, Asselbergs FW, and Baas AF
- Subjects
- Humans, Male, Adult, Child, Preschool, Child, Female, Penetrance, Cohort Studies, Prognosis, Mutation, Myosin Heavy Chains genetics, Cardiac Myosins genetics, Heart Failure, Cardiomyopathies genetics, Cardiomyopathy, Hypertrophic, Cardiomyopathy, Dilated genetics
- Abstract
Background: MYH7 variants cause hypertrophic cardiomyopathy (HCM), noncompaction cardiomyopathy (NCCM), and dilated cardiomyopathy (DCM). Screening of relatives of patients with genetic cardiomyopathy is recommended from 10 to 12 years of age onward, irrespective of the affected gene., Objectives: This study sought to study the penetrance and prognosis of MYH7 variant-associated cardiomyopathies., Methods: In this multicenter cohort study, penetrance and major cardiomyopathy-related events (MCEs) were assessed in carriers of (likely) pathogenic MYH7 variants by using Kaplan-Meier curves and log-rank tests. Prognostic factors were evaluated using Cox regression with time-dependent coefficients., Results: In total, 581 subjects (30.1% index patients, 48.4% male, median age 37.0 years [IQR: 19.5-50.2 years]) were included. HCM was diagnosed in 226 subjects, NCCM in 70, and DCM in 55. Early penetrance and MCEs (age <12 years) were common among NCCM-associated variant carriers (21.2% and 12.0%, respectively) and DCM-associated variant carriers (15.3% and 10.0%, respectively), compared with HCM-associated variant carriers (2.9% and 2.1%, respectively). Penetrance was significantly increased in carriers of converter region variants (adjusted HR: 1.87; 95% CI: 1.15-3.04; P = 0.012) and at age ≤1 year in NCCM-associated or DCM-associated variant carriers (adjusted HR: 21.17; 95% CI: 4.81-93.20; P < 0.001) and subjects with a family history of early MCEs (adjusted HR: 2.45; 95% CI: 1.09-5.50; P = 0.030). The risk of MCE was increased in subjects with a family history of early MCEs (adjusted HR: 1.82; 95% CI: 1.15-2.87; P = 0.010) and at age ≤5 years in NCCM-associated or DCM-associated variant carriers (adjusted HR: 38.82; 95% CI: 5.16-291.88; P < 0.001)., Conclusions: MYH7 variants can cause cardiomyopathies and MCEs at a young age. Screening at younger ages may be warranted, particularly in carriers of NCCM- or DCM-associated variants and/or with a family history of MCEs at <12 years., Competing Interests: Funding Support and Author Disclosures This work was supported by the Netherlands Cardiovascular Research Initiative with the support of the Dutch Heart Foundation. Dr Jansen has received support from the Netherlands Cardiovascular Research Initiative with the support of the Dutch Heart Foundation (CVON2014-40 DOSIS, DCVA [Dutch Cardiovascular Alliance] 2020B005 DoubleDose) and from the Dutch Heart Foundation (Dekker 2015T041). Dr Christiaans has received support from the Netherlands Cardiovascular Research Initiative with the support of the Dutch Heart Foundation (CVON2015-12 e-Detect). Dr de Boer has received support from the Netherlands Cardiovascular Research Initiative with the support of the Dutch Heart Foundation (CVON2014-40 DOSIS, DCVA 2020B005 DoubleDose). Dr van Tintelen has received support from the Netherlands Cardiovascular Research Initiative with the support of the Dutch Heart Foundation (CVON2014-40 DOSIS, DCVA 2020B005 DoubleDose and CVON2015-12 e-Detect). Dr Asselbergs has received support from the Netherlands Cardiovascular Research Initiative with the support of the Dutch Heart Foundation (CVON2014-40 DOSIS, DCVA 2020B005 DoubleDose and CVON2015-12 e-Detect) and from the UCL Hospitals NIHR Biomedical Research Centre. Dr Baas has received support from the Netherlands Cardiovascular Research Initiative with the support of the Dutch Heart Foundation (CVON2014-40 DOSIS, DCVA 2020B005 DoubleDose and CVON2015-12 e-Detect) and from the Dutch Heart Foundation (Dekker 2015T041). All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2024 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)
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- 2024
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10. Models of KPTN-related disorder implicate mTOR signalling in cognitive and overgrowth phenotypes.
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Levitin MO, Rawlins LE, Sanchez-Andrade G, Arshad OA, Collins SC, Sawiak SJ, Iffland PH 2nd, Andersson MHL, Bupp C, Cambridge EL, Coomber EL, Ellis I, Herkert JC, Ironfield H, Jory L, Kretz PF, Kant SG, Neaverson A, Nibbeling E, Rowley C, Relton E, Sanderson M, Scott EM, Stewart H, Shuen AY, Schreiber J, Tuck L, Tonks J, Terkelsen T, van Ravenswaaij-Arts C, Vasudevan P, Wenger O, Wright M, Day A, Hunter A, Patel M, Lelliott CJ, Crino PB, Yalcin B, Crosby AH, Baple EL, Logan DW, Hurles ME, and Gerety SS
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- Humans, Animals, Mice, Brain metabolism, Mechanistic Target of Rapamycin Complex 1 metabolism, Cognition, Microfilament Proteins genetics, Signal Transduction genetics, TOR Serine-Threonine Kinases metabolism
- Abstract
KPTN-related disorder is an autosomal recessive disorder associated with germline variants in KPTN (previously known as kaptin), a component of the mTOR regulatory complex KICSTOR. To gain further insights into the pathogenesis of KPTN-related disorder, we analysed mouse knockout and human stem cell KPTN loss-of-function models. Kptn -/- mice display many of the key KPTN-related disorder phenotypes, including brain overgrowth, behavioural abnormalities, and cognitive deficits. By assessment of affected individuals, we have identified widespread cognitive deficits (n = 6) and postnatal onset of brain overgrowth (n = 19). By analysing head size data from their parents (n = 24), we have identified a previously unrecognized KPTN dosage-sensitivity, resulting in increased head circumference in heterozygous carriers of pathogenic KPTN variants. Molecular and structural analysis of Kptn-/- mice revealed pathological changes, including differences in brain size, shape and cell numbers primarily due to abnormal postnatal brain development. Both the mouse and differentiated induced pluripotent stem cell models of the disorder display transcriptional and biochemical evidence for altered mTOR pathway signalling, supporting the role of KPTN in regulating mTORC1. By treatment in our KPTN mouse model, we found that the increased mTOR signalling downstream of KPTN is rapamycin sensitive, highlighting possible therapeutic avenues with currently available mTOR inhibitors. These findings place KPTN-related disorder in the broader group of mTORC1-related disorders affecting brain structure, cognitive function and network integrity., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain.)
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- 2023
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11. Contiguous Gene Deletion of Chromosome 15q25.2q25.3 in Biallelic ALPK3 -Related Cardiomyopathy: Novel Insights Into Phenotypic Presentation and Variant Spectrum.
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Grutters LA, Klein Wassink-Ruiter JS, Dijkhuizen T, Nijenhuis HP, Jongbloed JDH, and Herkert JC
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- Humans, Chromosomes, Gene Deletion, Muscle Proteins genetics, Protein Kinases genetics, Cardiomyopathies genetics
- Abstract
Competing Interests: Disclosures None.
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- 2023
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12. POU3F3-related disorder: Defining the phenotype and expanding the molecular spectrum.
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Rossi A, Blok LS, Neuser S, Klöckner C, Platzer K, Faivre LO, Weigand H, Dentici ML, Tartaglia M, Niceta M, Alfieri P, Srivastava S, Coulter D, Smith L, Vinorum K, Cappuccio G, Brunetti-Pierri N, Torun D, Arslan M, Lauridsen MF, Murch O, Irving R, Lynch SA, Mehta SG, Carmichael J, Zonneveld-Huijssoon E, de Vries B, Kleefstra T, Johannesen KM, Westphall IT, Hughes SS, Smithson S, Evans J, Dudding-Byth T, Simon M, van Binsbergen E, Herkert JC, Beunders G, Oppermann H, Bakal M, Møller RS, Rubboli G, and Bayat A
- Subjects
- Humans, Child, Phenotype, Mutation, Missense genetics, Developmental Disabilities genetics, POU Domain Factors genetics, Intellectual Disability genetics, Autistic Disorder genetics, Epilepsy genetics
- Abstract
POU3F3 variants cause developmental delay, behavioral problems, hypotonia and dysmorphic features. We investigated the phenotypic and genetic landscape, and genotype-phenotype correlations in individuals with POU3F3-related disorders. We recruited unpublished individuals with POU3F3 variants through international collaborations and obtained updated clinical data on previously published individuals. Trio exome sequencing or single exome sequencing followed by segregation analysis were performed in the novel cohort. Functional effects of missense variants were investigated with 3D protein modeling. We included 28 individuals (5 previously published) from 26 families carrying POU3F3 variants; 23 de novo and one inherited from an affected parent. Median age at study inclusion was 7.4 years. All had developmental delay mainly affecting speech, behavioral difficulties, psychiatric comorbidities and dysmorphisms. Additional features included gastrointestinal comorbidities, hearing loss, ophthalmological anomalies, epilepsy, sleep disturbances and joint hypermobility. Autism, hearing and eye comorbidities, dysmorphisms were more common in individuals with truncating variants, whereas epilepsy was only associated with missense variants. In silico structural modeling predicted that all (likely) pathogenic variants destabilize the DNA-binding region of POU3F3. Our study refined the phenotypic and genetic landscape of POU3F3-related disorders, it reports the functional properties of the identified pathogenic variants, and delineates some genotype-phenotype correlations., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)
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- 2023
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13. Loss-of-function variants in CUL3 cause a syndromic neurodevelopmental disorder.
- Author
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Blackburn PR, Ebstein F, Hsieh TC, Motta M, Radio FC, Herkert JC, Rinne T, Thiffault I, Rapp M, Alders M, Maas S, Gerard B, Smol T, Vincent-Delorme C, Cogné B, Isidor B, Vincent M, Bachmann-Gagescu R, Rauch A, Joset P, Ferrero GB, Ciolfi A, Husson T, Guerrot AM, Bacino C, Macmurdo C, Thompson SS, Rosenfeld JA, Faivre L, Mau-Them FT, Deb W, Vignard V, Agrawal PB, Madden JA, Goldenberg A, Lecoquierre F, Zech M, Prokisch H, Necpál J, Jech R, Winkelmann J, Koprušáková MT, Konstantopoulou V, Younce JR, Shinawi M, Mighton C, Fung C, Morel C, Ellis JL, DiTroia S, Barth M, Bonneau D, Krapels I, Stegmann S, van der Schoot V, Brunet T, Bußmann C, Mignot C, Courtin T, Ravelli C, Keren B, Ziegler A, Hasadsri L, Pichurin PN, Klee EW, Grand K, Sanchez-Lara PA, Krüger E, Bézieau S, Klinkhammer H, Krawitz PM, Eichler EE, Tartaglia M, Küry S, and Wang T
- Abstract
Purpose: De novo variants in CUL3 (Cullin-3 ubiquitin ligase) have been strongly associated with neurodevelopmental disorders (NDDs), but no large case series have been reported so far. Here we aimed to collect sporadic cases carrying rare variants in CUL3, describe the genotype-phenotype correlation, and investigate the underlying pathogenic mechanism., Methods: Genetic data and detailed clinical records were collected via multi-center collaboration. Dysmorphic facial features were analyzed using GestaltMatcher. Variant effects on CUL3 protein stability were assessed using patient-derived T-cells., Results: We assembled a cohort of 35 individuals with heterozygous CUL3 variants presenting a syndromic NDD characterized by intellectual disability with or without autistic features. Of these, 33 have loss-of-function (LoF) and two have missense variants. CUL3 LoF variants in patients may affect protein stability leading to perturbations in protein homeostasis, as evidenced by decreased ubiquitin-protein conjugates in vitro . Specifically, we show that cyclin E1 (CCNE1) and 4E-BP1 (EIF4EBP1), two prominent substrates of CUL3, fail to be targeted for proteasomal degradation in patient-derived cells., Conclusion: Our study further refines the clinical and mutational spectrum of CUL3 -associated NDDs, expands the spectrum of cullin RING E3 ligase-associated neuropsychiatric disorders, and suggests haploinsufficiency via LoF variants is the predominant pathogenic mechanism.
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- 2023
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14. Further clinical and molecular characterization of an XLID syndrome associated with BRWD3 variants, a gene implicated in the leukemia-related JAK-STAT pathway.
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Delanne J, Lecat M, Blackburn PR, Klee EW, Stumpel CTRM, Stegmann S, Stevens SJC, Nava C, Heron D, Keren B, Mahida S, Naidu S, Babovic-Vuksanovic D, Herkert JC, Torring PM, Kibæk M, De Bie I, Pfundt R, Hendriks YMC, Ousager LB, Bend R, Warren H, Skinner SA, Lyons MJ, Pöe C, Chevarin M, Jouan T, Garde A, Thomas Q, Kuentz P, Tisserant E, Duffourd Y, Philippe C, Faivre L, and Thauvin-Robinet C
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- Male, Female, Humans, Janus Kinases genetics, Janus Kinases metabolism, STAT Transcription Factors genetics, STAT Transcription Factors metabolism, Signal Transduction, Syndrome, Phenotype, Mutation, Transcription Factors genetics, Intellectual Disability genetics, Megalencephaly genetics, Language Development Disorders
- Abstract
Background: Since the first description of a BRWD3-associated nonsydromic intellectual disability (ID) disorder in 2007, 21 additional families have been reported in the literature., Methods: Using exome sequencing (ES) and international data sharing, we identified 14 additional unrelated individuals with pathogenic BRWD3 variants (12 males and 2 females, including one with skewed X-inactivation). We reviewed the 31 previously published cases in the literature with clinical data available, and describe the collective phenotypes of 43 males and 2 females, with 33 different BRWD3 variants., Results: The most common features in males (excluding one patient with a mosaic variant) included ID (39/39 males), speech delay (24/25 males), postnatal macrocephaly (28/35 males) with prominent forehead (18/25 males) and large ears (14/26 males), and obesity (12/27 males). Both females presented with macrocephaly, speech delay, and epilepsy, while epilepsy was only observed in 4/41 males. Among the 28 variants with available segregation reported, 19 were inherited from unaffected mothers and 9 were de novo., Conclusion: This study demonstrates that the BRWD3-related phenotypes are largely non-specific, leading to difficulty in clinical recognition of this disorder. A genotype-first approach, however, allows for the more efficient diagnosis of the BRWD3-related nonsyndromic ID. The refined clinical features presented here may provide additional diagnostic assistance for reverse phenotyping efforts., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2022. Published by Elsevier Masson SAS.)
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- 2023
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15. Expanding the clinical spectrum of primary coenzyme Q10 deficiency type 6: The first case with cardiomyopathy.
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Leeuwen L, Lubout CMA, Nijenhuis HP, Meiners LC, Vos YJ, and Herkert JC
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- Ataxia genetics, Humans, Infant, Muscle Weakness, Mutation, Ubiquinone deficiency, Cardiomyopathies diagnosis, Cardiomyopathies genetics, Mitochondrial Diseases diagnosis, Mitochondrial Diseases genetics
- Abstract
We report a 19-month-old patient with cardiomyopathy as the first presenting feature of primary COQ10 deficiency-6. This case expands the phenotypic spectrum of this disorder. Furthermore, it shows that genetic testing for primary COQ10 deficiency should be considered in patients with pediatric-onset cardiomyopathy as it can guide treatment options., (© 2022 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)
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- 2022
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16. Genetic Evaluation of A Nation-Wide Dutch Pediatric DCM Cohort: The Use of Genetic Testing in Risk Stratification.
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van der Meulen MH, Herkert JC, den Boer SL, du Marchie Sarvaas GJ, Blom NA, Ten Harkel ADJ, Breur HMPJ, Rammeloo LAJ, Tanke RB, Marcelis C, van de Laar IMBH, Verhagen JMA, Lekanne Dit Deprez RH, Barge-Schaapveld DQCM, Baas AF, Sammani A, Christiaans I, van Tintelen JP, and Dalinghaus M
- Subjects
- Humans, Genetic Testing, Genetic Association Studies, Risk Assessment, Cardiomyopathy, Dilated diagnosis, Cardiomyopathy, Dilated genetics, Myocarditis genetics
- Abstract
Background: This study aimed to describe the current practice and results of genetic evaluation in Dutch children with dilated cardiomyopathy and to evaluate genotype-phenotype correlations that may guide prognosis., Methods: We performed a multicenter observational study in children diagnosed with dilated cardiomyopathy, from 2010 to 2017., Results: One hundred forty-four children were included. Initial diagnostic categories were idiopathic dilated cardiomyopathy in 67 children (47%), myocarditis in 23 (16%), neuromuscular in 7 (5%), familial in 18 (13%), inborn error of metabolism in 4 (3%), malformation syndrome in 2 (1%), and "other" in 23 (16%). Median follow-up time was 2.1 years [IQR 1.0-4.3]. Hundred-seven patients (74%) underwent genetic testing. We found a likely pathogenic or pathogenic variant in 38 children (36%), most often in MYH7 (n = 8). In 1 patient initially diagnosed with myocarditis, a pathogenic LMNA variant was found. During the study, 39 patients (27%) reached study endpoint (SE: all-cause death or heart transplantation). Patients with a likely pathogenic or pathogenic variant were more likely to reach SE compared with those without (hazard ratio 2.8; 95% CI 1.3-5.8, P = 0.007), while transplant-free survival was significantly lower ( P = 0.006). Clinical characteristics at diagnosis did not differ between the 2 groups., Conclusions: Genetic testing is a valuable tool for predicting prognosis in children with dilated cardiomyopathy, with carriers of a likely pathogenic or pathogenic variant having a worse prognosis overall. Genetic testing should be incorporated in clinical work-up of all children with dilated cardiomyopathy regardless of presumed disease pathogenesis.
- Published
- 2022
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17. Using symptom-based case predictions to identify host genetic factors that contribute to COVID-19 susceptibility.
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van Blokland IV, Lanting P, Ori APS, Vonk JM, Warmerdam RCA, Herkert JC, Boulogne F, Claringbould A, Lopera-Maya EA, Bartels M, Hottenga JJ, Ganna A, Karjalainen J, Hayward C, Fawns-Ritchie C, Campbell A, Porteous D, Cirulli ET, Schiabor Barrett KM, Riffle S, Bolze A, White S, Tanudjaja F, Wang X, Ramirez JM 3rd, Lim YW, Lu JT, Washington NL, de Geus EJC, Deelen P, Boezen HM, and Franke LH
- Subjects
- Area Under Curve, COVID-19 genetics, COVID-19 virology, Cross-Sectional Studies, Genome-Wide Association Study, Humans, Phenotype, Polymorphism, Single Nucleotide, ROC Curve, SARS-CoV-2 isolation & purification, COVID-19 pathology, Genetic Predisposition to Disease
- Abstract
Epidemiological and genetic studies on COVID-19 are currently hindered by inconsistent and limited testing policies to confirm SARS-CoV-2 infection. Recently, it was shown that it is possible to predict COVID-19 cases using cross-sectional self-reported disease-related symptoms. Here, we demonstrate that this COVID-19 prediction model has reasonable and consistent performance across multiple independent cohorts and that our attempt to improve upon this model did not result in improved predictions. Using the existing COVID-19 prediction model, we then conducted a GWAS on the predicted phenotype using a total of 1,865 predicted cases and 29,174 controls. While we did not find any common, large-effect variants that reached genome-wide significance, we do observe suggestive genetic associations at two SNPs (rs11844522, p = 1.9x10-7; rs5798227, p = 2.2x10-7). Explorative analyses furthermore suggest that genetic variants associated with other viral infectious diseases do not overlap with COVID-19 susceptibility and that severity of COVID-19 may have a different genetic architecture compared to COVID-19 susceptibility. This study represents a first effort that uses a symptom-based predicted phenotype as a proxy for COVID-19 in our pursuit of understanding the genetic susceptibility of the disease. We conclude that the inclusion of symptom-based predicted cases could be a useful strategy in a scenario of limited testing, either during the current COVID-19 pandemic or any future viral outbreak., Competing Interests: The authors have read the journal’s policy and have the following competing interests: ETC, KMSB, SR, AB, SW, FT, XW, JMR, YWL, JTL, and NLW are employees of Helix OpCo, LLC, which is a provider of COVID-19 testing services. There are no patents, products in development or marketed products associated with this research to declare. This does not alter our adherence to PLOS ONE policies on sharing data and materials.
- Published
- 2021
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18. Lifelines COVID-19 cohort: investigating COVID-19 infection and its health and societal impacts in a Dutch population-based cohort.
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Mc Intyre K, Lanting P, Deelen P, Wiersma HH, Vonk JM, Ori APS, Jankipersadsing SA, Warmerdam R, van Blokland I, Boulogne F, Dijkema MXL, Herkert JC, Claringbould A, Bakker O, Lopera Maya EA, Bültmann U, Zhernakova A, Reijneveld SA, Zijlstra E, Swertz MA, Brouwer S, van Ooijen R, Angelini V, Dekker LH, Sijtsma A, Scherjon SA, Wijmenga C, Dekens JAM, Mierau J, Boezen HM, and Franke L
- Subjects
- Adult, Anxiety, Communicable Disease Control, Female, Humans, Loneliness, Male, Middle Aged, Netherlands epidemiology, Prospective Studies, Quality of Life, Surveys and Questionnaires, COVID-19 psychology, Pandemics
- Abstract
Purpose: The Lifelines COVID-19 cohort was set up to assess the psychological and societal impacts of the COVID-19 pandemic and investigate potential risk factors for COVID-19 within the Lifelines prospective population cohort., Participants: Participants were recruited from the 140 000 eligible participants of Lifelines and the Lifelines NEXT birth cohort, who are all residents of the three northern provinces of the Netherlands. Participants filled out detailed questionnaires about their physical and mental health and experiences on a weekly basis starting in late March 2020, and the cohort consists of everyone who filled in at least one questionnaire in the first 8 weeks of the project. FINDINGS TO DATE: >71 000 unique participants responded to the questionnaires at least once during the first 8 weeks, with >22 000 participants responding to seven questionnaires. Compiled questionnaire results are continuously updated and shared with the public through the Corona Barometer website. Early results included a clear signal that younger people living alone were experiencing greater levels of loneliness due to lockdown, and subsequent results showed the easing of anxiety as lockdown was eased in June 2020., Future Plans: Questionnaires were sent on a (bi)weekly basis starting in March 2020 and on a monthly basis starting July 2020, with plans for new questionnaire rounds to continue through 2020 and early 2021. Questionnaire frequency can be increased again for subsequent waves of infections. Cohort data will be used to address how the COVID-19 pandemic developed in the northern provinces of the Netherlands, which environmental and genetic risk factors predict disease susceptibility and severity and the psychological and societal impacts of the crisis. Cohort data are linked to the extensive health, lifestyle and sociodemographic data held for these participants by Lifelines, a 30-year project that started in 2006, and to data about participants held in national databases., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY. Published by BMJ.)
- Published
- 2021
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19. Biallelic loss-of-function variants in PLD1 cause congenital right-sided cardiac valve defects and neonatal cardiomyopathy.
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Lahrouchi N, Postma AV, Salazar CM, De Laughter DM, Tjong F, Piherová L, Bowling FZ, Zimmerman D, Lodder EM, Ta-Shma A, Perles Z, Beekman L, Ilgun A, Gunst Q, Hababa M, Škorić-Milosavljević D, Stránecký V, Tomek V, de Knijff P, de Leeuw R, Robinson JY, Burn SC, Mustafa H, Ambrose M, Moss T, Jacober J, Niyazov DM, Wolf B, Kim KH, Cherny S, Rousounides A, Aristidou-Kallika A, Tanteles G, Ange-Line B, Denommé-Pichon AS, Francannet C, Ortiz D, Haak MC, Ten Harkel AD, Manten GT, Dutman AC, Bouman K, Magliozzi M, Radio FC, Santen GW, Herkert JC, Brown HA, Elpeleg O, van den Hoff MJ, Mulder B, Airola MV, Kmoch S, Barnett JV, Clur SA, Frohman MA, and Bezzina CR
- Subjects
- Female, Humans, Male, Alleles, Heart Defects, Congenital enzymology, Heart Defects, Congenital genetics, Heart Valve Diseases enzymology, Heart Valve Diseases genetics, Loss of Function Mutation, Phospholipase D genetics, Phospholipase D metabolism
- Abstract
Congenital heart disease is the most common type of birth defect, accounting for one-third of all congenital anomalies. Using whole-exome sequencing of 2718 patients with congenital heart disease and a search in GeneMatcher, we identified 30 patients from 21 unrelated families of different ancestries with biallelic phospholipase D1 (PLD1) variants who presented predominantly with congenital cardiac valve defects. We also associated recessive PLD1 variants with isolated neonatal cardiomyopathy. Furthermore, we established that p.I668F is a founder variant among Ashkenazi Jews (allele frequency of ~2%) and describe the phenotypic spectrum of PLD1-associated congenital heart defects. PLD1 missense variants were overrepresented in regions of the protein critical for catalytic activity, and, correspondingly, we observed a strong reduction in enzymatic activity for most of the mutant proteins in an enzymatic assay. Finally, we demonstrate that PLD1 inhibition decreased endothelial-mesenchymal transition, an established pivotal early step in valvulogenesis. In conclusion, our study provides a more detailed understanding of disease mechanisms and phenotypic expression associated with PLD1 loss of function.
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- 2021
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20. Expanding the clinical and genetic spectrum of ALPK3 variants: Phenotypes identified in pediatric cardiomyopathy patients and adults with heterozygous variants.
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Herkert JC, Verhagen JMA, Yotti R, Haghighi A, Phelan DG, James PA, Brown NJ, Stutterd C, Macciocca I, Leong K, Bulthuis MLC, van Bever Y, van Slegtenhorst MA, Boven LG, Roberts AE, Agarwal R, Seidman J, Lakdawala NK, Fernández-Avilés F, Burke MA, Pierpont ME, Braunlin E, Ḉağlayan AO, Barge-Schaapveld DQCM, Birnie E, van Osch-Gevers L, van Langen IM, Jongbloed JDH, Lockhart PJ, Amor DJ, Seidman CE, and van de Laar IMBH
- Subjects
- Abnormalities, Multiple genetics, Adult, Age of Onset, Cardiomyopathies diagnostic imaging, Cardiomyopathies physiopathology, Cardiomyopathy, Dilated genetics, Cardiomyopathy, Hypertrophic genetics, Child, Child, Preschool, Chromosomes, Human, Pair 15 genetics, Echocardiography, Electrocardiography, Humans, Infant, Phenotype, Cardiomyopathies genetics, Heterozygote, Loss of Function Mutation, Muscle Proteins genetics, Mutation, Missense, Protein Kinases genetics
- Abstract
Introduction: Biallelic damaging variants in ALPK3, encoding alpha-protein kinase 3, cause pediatric-onset cardiomyopathy with manifestations that are incompletely defined., Methods and Results: We analyzed clinical manifestations of damaging biallelic ALPK3 variants in 19 pediatric patients, including nine previously published cases. Among these, 11 loss-of-function (LoF) variants, seven compound LoF and deleterious missense variants, and one homozygous deleterious missense variant were identified. Among 18 live-born patients, 8 exhibited neonatal dilated cardiomyopathy (44.4%; 95% CI: 21.5%-69.2%) that subsequently transitioned into ventricular hypertrophy. The majority of patients had extracardiac phenotypes, including contractures, scoliosis, cleft palate, and facial dysmorphisms. We observed no association between variant type or location, disease severity, and/or extracardiac manifestations. Myocardial histopathology showed focal cardiomyocyte hypertrophy, subendocardial fibroelastosis in patients under 4 years of age, and myofibrillar disarray in adults. Rare heterozygous ALPK3 variants were also assessed in adult-onset cardiomyopathy patients. Among 1548 Dutch patients referred for initial genetic analyses, we identified 39 individuals with rare heterozygous ALPK3 variants (2.5%; 95% CI: 1.8%-3.4%), including 26 missense and 10 LoF variants. Among 149 U.S. patients without pathogenic variants in 83 cardiomyopathy-related genes, we identified six missense and nine LoF ALPK3 variants (10.1%; 95% CI: 5.7%-16.1%). LoF ALPK3 variants were increased in comparison to matched controls (Dutch cohort, P = 1.6×10
-5 ; U.S. cohort, P = 2.2×10-13 )., Conclusion: Biallelic damaging ALPK3 variants cause pediatric cardiomyopathy manifested by DCM transitioning to hypertrophy, often with poor contractile function. Additional extracardiac features occur in most patients, including musculoskeletal abnormalities and cleft palate. Heterozygous LoF ALPK3 variants are enriched in adults with cardiomyopathy and may contribute to their cardiomyopathy. Adults with ALPK3 LoF variants therefore warrant evaluations for cardiomyopathy., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)- Published
- 2020
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21. De novo TBR1 variants cause a neurocognitive phenotype with ID and autistic traits: report of 25 new individuals and review of the literature.
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Nambot S, Faivre L, Mirzaa G, Thevenon J, Bruel AL, Mosca-Boidron AL, Masurel-Paulet A, Goldenberg A, Le Meur N, Charollais A, Mignot C, Petit F, Rossi M, Metreau J, Layet V, Amram D, Boute-Bénéjean O, Bhoj E, Cousin MA, Kruisselbrink TM, Lanpher BC, Klee EW, Fiala E, Grange DK, Meschino WS, Hiatt SM, Cooper GM, Olivié H, Smith WE, Dumas M, Lehman A, Inglese C, Nizon M, Guerrini R, Vetro A, Kaplan ES, Miramar D, Van Gils J, Fergelot P, Bodamer O, Herkert JC, Pajusalu S, Õunap K, Filiano JJ, Smol T, Piton A, Gérard B, Chantot-Bastaraud S, Bienvenu T, Li D, Juusola J, Devriendt K, Bilan F, Poé C, Chevarin M, Jouan T, Tisserant E, Rivière JB, Tran Mau-Them F, Philippe C, Duffourd Y, Dobyns WB, Hevner R, and Thauvin-Robinet C
- Subjects
- Adolescent, Adult, Animals, Autistic Disorder pathology, Child, Child, Preschool, Cognition, Craniofacial Abnormalities pathology, Female, Hippocampus diagnostic imaging, Hippocampus pathology, Humans, Intellectual Disability pathology, Male, Mice, Mutation, Neocortex diagnostic imaging, Neocortex pathology, Syndrome, T-Box Domain Proteins metabolism, Autistic Disorder genetics, Craniofacial Abnormalities genetics, Intellectual Disability genetics, Phenotype, T-Box Domain Proteins genetics
- Abstract
TBR1, a T-box transcription factor expressed in the cerebral cortex, regulates the expression of several candidate genes for autism spectrum disorders (ASD). Although TBR1 has been reported as a high-confidence risk gene for ASD and intellectual disability (ID) in functional and clinical reports since 2011, TBR1 has only recently been recorded as a human disease gene in the OMIM database. Currently, the neurodevelopmental disorders and structural brain anomalies associated with TBR1 variants are not well characterized. Through international data sharing, we collected data from 25 unreported individuals and compared them with data from the literature. We evaluated structural brain anomalies in seven individuals by analysis of MRI images, and compared these with anomalies observed in TBR1 mutant mice. The phenotype included ID in all individuals, associated to autistic traits in 76% of them. No recognizable facial phenotype could be identified. MRI analysis revealed a reduction of the anterior commissure and suggested new features including dysplastic hippocampus and subtle neocortical dysgenesis. This report supports the role of TBR1 in ID associated with autistic traits and suggests new structural brain malformations in humans. We hope this work will help geneticists to interpret TBR1 variants and diagnose ASD probands.
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- 2020
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22. ZMYND11-related syndromic intellectual disability: 16 patients delineating and expanding the phenotypic spectrum.
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Yates TM, Drucker M, Barnicoat A, Low K, Gerkes EH, Fry AE, Parker MJ, O'Driscoll M, Charles P, Cox H, Marey I, Keren B, Rinne T, McEntagart M, Ramachandran V, Drury S, Vansenne F, Sival DA, Herkert JC, Callewaert B, Tan WH, and Balasubramanian M
- Subjects
- Alleles, Child, Child, Preschool, Facies, Female, Genotype, Haploinsufficiency, Humans, Male, Mutation, Nonsense Mediated mRNA Decay, Phenotype, Syndrome, Zinc Fingers, Cell Cycle Proteins genetics, Co-Repressor Proteins genetics, DNA-Binding Proteins genetics, Genetic Association Studies methods, Genetic Predisposition to Disease, Intellectual Disability diagnosis, Intellectual Disability genetics
- Abstract
Pathogenic variants in ZMYND11, which acts as a transcriptional repressor, have been associated with intellectual disability, behavioral abnormalities, and seizures. Only 11 affected individuals have been reported to date, and the phenotype associated with pathogenic variants in this gene have not been fully defined. Here, we present 16 additional patients with predicted pathogenic heterozygous variants in including four individuals from the same family, to further delineate and expand the genotypic and phenotypic spectrum of ZMYND11-related syndromic intellectual disability. The associated phenotype includes developmental delay, particularly affecting speech, mild-moderate intellectual disability, significant behavioral abnormalities, seizures, and hypotonia. There are subtle shared dysmorphic features, including prominent eyelashes and eyebrows, a depressed nasal bridge with bulbous nasal tip, anteverted nares, thin vermilion of the upper lip, and wide mouth. Novel features include brachydactyly and tooth enamel hypoplasia. Most identified variants are likely to result in premature truncation and/or nonsense-mediated decay. Two ZMYND11 variants located in the final exon-p.(Gln586*) (likely escaping nonsense-mediated decay) and p.(Cys574Arg)-are predicted to disrupt the MYND-type zinc-finger motif and likely interfere with binding to its interaction partners. Hence, the homogeneous phenotype likely results from a common mechanism of loss-of-function., (© 2020 Wiley Periodicals, Inc.)
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- 2020
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23. Homozygous damaging SOD2 variant causes lethal neonatal dilated cardiomyopathy.
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Almomani R, Herkert JC, Posafalvi A, Post JG, Boven LG, van der Zwaag PA, Willems PHGM, van Veen-Hof IH, Verhagen JMA, Wessels MW, Nikkels PGJ, Wintjes LT, van den Berg MP, Sinke RJ, Rodenburg RJ, Niezen-Koning KE, van Tintelen JP, and Jongbloed JDH
- Subjects
- Amino Acid Sequence, Cardiomyopathy, Dilated enzymology, Cardiomyopathy, Dilated metabolism, Conserved Sequence, DNA Mutational Analysis, Female, Homozygote, Humans, Infant, Infant, Newborn, Mitochondria metabolism, Myocardium metabolism, Oxidative Stress, Pedigree, Superoxide Dismutase chemistry, Superoxide Dismutase metabolism, Superoxides metabolism, Cardiomyopathy, Dilated genetics, Mutation, Missense, Myocardium pathology, Superoxide Dismutase genetics
- Abstract
Background: Idiopathic dilated cardiomyopathy (DCM) is recognised to be a heritable disorder, yet clinical genetic testing does not produce a diagnosis in >50% of paediatric patients. Identifying a genetic cause is crucial because this knowledge can affect management options, cardiac surveillance in relatives and reproductive decision-making. In this study, we sought to identify the underlying genetic defect in a patient born to consanguineous parents with rapidly progressive DCM that led to death in early infancy., Methods and Results: Exome sequencing revealed a potentially pathogenic, homozygous missense variant, c.542G>T, p.(Gly181Val), in SOD2 . This gene encodes superoxide dismutase 2 (SOD2) or manganese-superoxide dismutase, a mitochondrial matrix protein that scavenges oxygen radicals produced by oxidation-reduction and electron transport reactions occurring in mitochondria via conversion of superoxide anion (O
2 -· ) into H2 O2 . Measurement of hydroethidine oxidation showed a significant increase in O2 -· levels in the patient's skin fibroblasts, as compared with controls, and this was paralleled by reduced catalytic activity of SOD2 in patient fibroblasts and muscle. Lentiviral complementation experiments demonstrated that mitochondrial SOD2 activity could be completely restored on transduction with wild type SOD2., Conclusion: Our results provide evidence that defective SOD2 may lead to toxic increases in the levels of damaging oxygen radicals in the neonatal heart, which can result in rapidly developing heart failure and death. We propose SOD2 as a novel nuclear-encoded mitochondrial protein involved in severe human neonatal cardiomyopathy, thus expanding the wide range of genetic factors involved in paediatric cardiomyopathies., Competing Interests: Competing interests: PHGMW is scientific advisor of Khondrion, Nijmegen, the Netherlands. This SME had no involvement in the data collection, analysis and interpretation, writing of the manuscript and in the decision to submit the manuscript for publication., (© Author(s) (or their employer(s)) 2020. No commercial re-use. See rights and permissions. Published by BMJ.)- Published
- 2020
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24. Biallelic Variants in ASNA1 , Encoding a Cytosolic Targeting Factor of Tail-Anchored Proteins, Cause Rapidly Progressive Pediatric Cardiomyopathy.
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Verhagen JMA, van den Born M, van der Linde HC, G J Nikkels P, Verdijk RM, Kivlen MH, van Unen LMA, Baas AF, Ter Heide H, van Osch-Gevers L, Hoogeveen-Westerveld M, Herkert JC, Bertoli-Avella AM, van Slegtenhorst MA, Wessels MW, Verheijen FW, Hassel D, Hofstra RMW, Hegde RS, van Hasselt PM, van Ham TJ, and van de Laar IMBH
- Subjects
- Alleles, Amino Acid Sequence, Animals, Arsenite Transporting ATPases chemistry, Arsenite Transporting ATPases metabolism, Cardiomyopathies enzymology, Child, Preschool, Disease Models, Animal, Exome, Female, Genetic Variation, Humans, Protein Transport, Sequence Alignment, Zebrafish genetics, Zebrafish metabolism, Zebrafish Proteins chemistry, Zebrafish Proteins metabolism, Arsenite Transporting ATPases genetics, Cardiomyopathies genetics, Cytosol enzymology, Point Mutation, Zebrafish Proteins genetics
- Abstract
Background: Pediatric cardiomyopathies are a clinically and genetically heterogeneous group of heart muscle disorders associated with high morbidity and mortality. Although knowledge of the genetic basis of pediatric cardiomyopathy has improved considerably, the underlying cause remains elusive in a substantial proportion of cases., Methods: Exome sequencing was used to screen for the causative genetic defect in a pair of siblings with rapidly progressive dilated cardiomyopathy and death in early infancy. Protein expression was assessed in patient samples, followed by an in vitro tail-anchored protein insertion assay and functional analyses in zebrafish., Results: We identified compound heterozygous variants in the highly conserved ASNA1 gene (arsA arsenite transporter, ATP-binding, homolog), which encodes an ATPase required for post-translational membrane insertion of tail-anchored proteins. The c.913C>T variant on the paternal allele is predicted to result in a premature stop codon p.(Gln305*), and likely explains the decreased protein expression observed in myocardial tissue and skin fibroblasts. The c.488T>C variant on the maternal allele results in a valine to alanine substitution at residue 163 (p.Val163Ala). Functional studies showed that this variant leads to protein misfolding as well as less effective tail-anchored protein insertion. Loss of asna1 in zebrafish resulted in reduced cardiac contractility and early lethality. In contrast to wild-type mRNA, injection of either mutant mRNA failed to rescue this phenotype., Conclusions: Biallelic variants in ASNA1 cause severe pediatric cardiomyopathy and early death. Our findings point toward a critical role of the tail-anchored membrane protein insertion pathway in vertebrate cardiac function and disease.
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- 2019
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25. Correction: The ARID1B spectrum in 143 patients: from nonsyndromic intellectual disability to Coffin-Siris syndrome.
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van der Sluijs PJ, Jansen S, Vergano SA, Adachi-Fukuda M, Alanay Y, AlKindy A, Baban A, Bayat A, Beck-Wödl S, Berry K, Bijlsma EK, Bok LA, Brouwer AFJ, van der Burgt I, Campeau PM, Canham N, Chrzanowska K, Chu YWY, Chung BHY, Dahan K, De Rademaeker M, Destree A, Dudding-Byth T, Earl R, Elcioglu N, Elias ER, Fagerberg C, Gardham A, Gener B, Gerkes EH, Grasshoff U, van Haeringen A, Heitink KR, Herkert JC, den Hollander NS, Horn D, Hunt D, Kant SG, Kato M, Kayserili H, Kersseboom R, Kilic E, Krajewska-Walasek M, Lammers K, Laulund LW, Lederer D, Lees M, López-González V, Maas S, Mancini GMS, Marcelis C, Martinez F, Maystadt I, McGuire M, McKee S, Mehta S, Metcalfe K, Milunsky J, Mizuno S, Moeschler JB, Netzer C, Ockeloen CW, Oehl-Jaschkowitz B, Okamoto N, Olminkhof SNM, Orellana C, Pasquier L, Pottinger C, Riehmer V, Robertson SP, Roifman M, Rooryck C, Ropers FG, Rosello M, Ruivenkamp CAL, Sagiroglu MS, Sallevelt SCEH, Calvo AS, Simsek-Kiper PO, Soares G, Solaeche L, Sonmez FM, Splitt M, Steenbeek D, Stegmann APA, Stumpel CTRM, Tanabe S, Uctepe E, Utine GE, Veenstra-Knol HE, Venkateswaran S, Vilain C, Vincent-Delorme C, Vulto-van Silfhout AT, Wheeler P, Wilson GN, Wilson LC, Wollnik B, Kosho T, Wieczorek D, Eichler E, Pfundt R, de Vries BBA, Clayton-Smith J, and Santen GWE
- Abstract
The original version of this Article contained an error in the spelling of the author Pleuntje J. van der Sluijs, which was incorrectly given as Eline (P. J.) van der Sluijs. This has now been corrected in both the PDF and HTML versions of the Article.
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- 2019
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26. Improving the diagnostic yield of exome- sequencing by predicting gene-phenotype associations using large-scale gene expression analysis.
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Deelen P, van Dam S, Herkert JC, Karjalainen JM, Brugge H, Abbott KM, van Diemen CC, van der Zwaag PA, Gerkes EH, Zonneveld-Huijssoon E, Boer-Bergsma JJ, Folkertsma P, Gillett T, van der Velde KJ, Kanninga R, van den Akker PC, Jan SZ, Hoorntje ET, Te Rijdt WP, Vos YJ, Jongbloed JDH, van Ravenswaaij-Arts CMA, Sinke R, Sikkema-Raddatz B, Kerstjens-Frederikse WS, Swertz MA, and Franke L
- Subjects
- Databases, Nucleic Acid, Humans, Models, Genetic, Principal Component Analysis, Software, User-Computer Interface, Gene Expression Regulation physiology, Genetic Predisposition to Disease, Sequence Analysis, RNA methods, Transcriptome
- Abstract
The diagnostic yield of exome and genome sequencing remains low (8-70%), due to incomplete knowledge on the genes that cause disease. To improve this, we use RNA-seq data from 31,499 samples to predict which genes cause specific disease phenotypes, and develop GeneNetwork Assisted Diagnostic Optimization (GADO). We show that this unbiased method, which does not rely upon specific knowledge on individual genes, is effective in both identifying previously unknown disease gene associations, and flagging genes that have previously been incorrectly implicated in disease. GADO can be run on www.genenetwork.nl by supplying HPO-terms and a list of genes that contain candidate variants. Finally, applying GADO to a cohort of 61 patients for whom exome-sequencing analysis had not resulted in a genetic diagnosis, yields likely causative genes for ten cases.
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- 2019
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27. The ARID1B spectrum in 143 patients: from nonsyndromic intellectual disability to Coffin-Siris syndrome.
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van der Sluijs PJ, Jansen S, Vergano SA, Adachi-Fukuda M, Alanay Y, AlKindy A, Baban A, Bayat A, Beck-Wödl S, Berry K, Bijlsma EK, Bok LA, Brouwer AFJ, van der Burgt I, Campeau PM, Canham N, Chrzanowska K, Chu YWY, Chung BHY, Dahan K, De Rademaeker M, Destree A, Dudding-Byth T, Earl R, Elcioglu N, Elias ER, Fagerberg C, Gardham A, Gener B, Gerkes EH, Grasshoff U, van Haeringen A, Heitink KR, Herkert JC, den Hollander NS, Horn D, Hunt D, Kant SG, Kato M, Kayserili H, Kersseboom R, Kilic E, Krajewska-Walasek M, Lammers K, Laulund LW, Lederer D, Lees M, López-González V, Maas S, Mancini GMS, Marcelis C, Martinez F, Maystadt I, McGuire M, McKee S, Mehta S, Metcalfe K, Milunsky J, Mizuno S, Moeschler JB, Netzer C, Ockeloen CW, Oehl-Jaschkowitz B, Okamoto N, Olminkhof SNM, Orellana C, Pasquier L, Pottinger C, Riehmer V, Robertson SP, Roifman M, Rooryck C, Ropers FG, Rosello M, Ruivenkamp CAL, Sagiroglu MS, Sallevelt SCEH, Sanchis Calvo A, Simsek-Kiper PO, Soares G, Solaeche L, Sonmez FM, Splitt M, Steenbeek D, Stegmann APA, Stumpel CTRM, Tanabe S, Uctepe E, Utine GE, Veenstra-Knol HE, Venkateswaran S, Vilain C, Vincent-Delorme C, Vulto-van Silfhout AT, Wheeler P, Wilson GN, Wilson LC, Wollnik B, Kosho T, Wieczorek D, Eichler E, Pfundt R, de Vries BBA, Clayton-Smith J, and Santen GWE
- Subjects
- Abnormalities, Multiple genetics, Adolescent, Adult, Child, Child, Preschool, Chromosomal Proteins, Non-Histone genetics, Exome, Face abnormalities, Female, Genetic Association Studies methods, Genetic Variation genetics, Hand Deformities, Congenital genetics, Humans, Infant, Infant, Newborn, Intellectual Disability genetics, Male, Micrognathism genetics, Middle Aged, Mutation, Neck abnormalities, Penetrance, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Transcription Factors genetics, Transcription Factors metabolism
- Abstract
Purpose: Pathogenic variants in ARID1B are one of the most frequent causes of intellectual disability (ID) as determined by large-scale exome sequencing studies. Most studies published thus far describe clinically diagnosed Coffin-Siris patients (ARID1B-CSS) and it is unclear whether these data are representative for patients identified through sequencing of unbiased ID cohorts (ARID1B-ID). We therefore sought to determine genotypic and phenotypic differences between ARID1B-ID and ARID1B-CSS. In parallel, we investigated the effect of different methods of phenotype reporting., Methods: Clinicians entered clinical data in an extensive web-based survey., Results: 79 ARID1B-CSS and 64 ARID1B-ID patients were included. CSS-associated dysmorphic features, such as thick eyebrows, long eyelashes, thick alae nasi, long and/or broad philtrum, small nails and small or absent fifth distal phalanx and hypertrichosis, were observed significantly more often (p < 0.001) in ARID1B-CSS patients. No other significant differences were identified., Conclusion: There are only minor differences between ARID1B-ID and ARID1B-CSS patients. ARID1B-related disorders seem to consist of a spectrum, and patients should be managed similarly. We demonstrated that data collection methods without an explicit option to report the absence of a feature (such as most Human Phenotype Ontology-based methods) tended to underestimate gene-related features.
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- 2019
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28. Novel SPEG mutations in congenital myopathies: Genotype-phenotype correlations.
- Author
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Qualls AE, Donkervoort S, Herkert JC, D'gama AM, Bharucha-Goebel D, Collins J, Chao KR, Foley AR, Schoots MH, Jongbloed JDH, Bönnemann CG, and Agrawal PB
- Subjects
- Biopsy, Child, Child, Preschool, Consanguinity, Exome genetics, Female, Genetic Association Studies, Humans, Infant, Male, Muscle Weakness etiology, Muscle Weakness genetics, Muscle, Skeletal pathology, Mutation genetics, Sequence Analysis, Muscle Proteins genetics, Myopathies, Structural, Congenital congenital, Myopathies, Structural, Congenital genetics, Protein Serine-Threonine Kinases genetics
- Abstract
Introduction: Centronuclear myopathies (CNMs) are a subtype of congenital myopathies (CMs) characterized by muscle weakness, predominant type 1 fibers, and increased central nuclei. SPEG (striated preferentially expressed protein kinase) mutations have recently been identified in 7 CM patients (6 with CNMs). We report 2 additional patients with SPEG mutations expanding the phenotype and evaluate genotype-phenotype correlations associated with SPEG mutations., Methods: Using whole exome/genome sequencing in CM families, we identified novel recessive SPEG mutations in 2 patients., Results: Patient 1, with severe muscle weakness requiring respiratory support, dilated cardiomyopathy, ophthalmoplegia, and findings of nonspecific CM on muscle biopsy carried a homozygous SPEG mutation (p.Val3062del). Patient 2, with milder muscle weakness, ophthalmoplegia, and CNM carried compound heterozygous mutations (p.Leu728Argfs*82) and (p.Val2997Glyfs*52)., Conclusions: The 2 patients add insight into genotype-phenotype correlations of SPEG-associated CMs. Clinicians should consider evaluating a CM patient for SPEG mutations even in the absence of CNM features. Muscle Nerve 59:357-362, 2019., (© 2018 Wiley Periodicals, Inc.)
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- 2019
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29. Toward an effective exome-based genetic testing strategy in pediatric dilated cardiomyopathy.
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Herkert JC, Abbott KM, Birnie E, Meems-Veldhuis MT, Boven LG, Benjamins M, du Marchie Sarvaas GJ, Barge-Schaapveld DQCM, van Tintelen JP, van der Zwaag PA, Vos YJ, Sinke RJ, van den Berg MP, van Langen IM, and Jongbloed JDH
- Subjects
- Adolescent, Cardiomyopathy, Dilated pathology, Child, Child, Preschool, Exome genetics, Female, Humans, Male, Pedigree, Polymorphism, Single Nucleotide genetics, Sequence Analysis, DNA, Sequence Deletion genetics, Exome Sequencing, Cardiomyopathy, Dilated diagnosis, Cardiomyopathy, Dilated genetics, DNA Copy Number Variations genetics, Genetic Testing methods
- Abstract
Purpose: We evaluated the diagnostic yield in pediatric dilated cardiomyopathy (DCM) of combining exome sequencing (ES)-based targeted analysis and genome-wide copy-number variation (CNV) analysis. Based on our findings, we retrospectively designed an effective approach for genetic testing in pediatric DCM., Methods: We identified 95 patients (in 85 families) with pediatric onset of DCM. We initially excluded 13 of these families because they already had a genetic diagnosis, leaving a total of 31 probands for single-nucleotide polymorphism (SNP) array and trio-ES. We used Human Phenotype Ontology (HPO)-based filtering for our data analysis., Results: We reached a genetic diagnosis in 15/31 (48.4%) families. ES yielded a diagnosis in 13 probands (13/15; 86.7%), with most variants being found in genes encoding structural cardiomyocyte components. Two large deletions were identified using SNP array. If we had included the 13 excluded families, our estimated yield would have been 54%., Conclusion: We propose a standardized, stepwise analysis of (i) well-known cardiomyopathy genes, (ii) CNVs, (iii) all genes assigned to HPO cardiomyopathy, and (iv) if appropriate, genes assigned to other HPO terms. This diagnostic approach yields the highest increase at each subsequent step and reduces analytic effort, cost, the number of variants of unknown clinical significance, and the chance of incidental findings.
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- 2018
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30. De novo variants in CDK13 associated with syndromic ID/DD: Molecular and clinical delineation of 15 individuals and a further review.
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van den Akker WMR, Brummelman I, Martis LM, Timmermans RN, Pfundt R, Kleefstra T, Willemsen MH, Gerkes EH, Herkert JC, van Essen AJ, Rump P, Vansenne F, Terhal PA, van Haelst MM, Cristian I, Turner CE, Cho MT, Begtrup A, Willaert R, Fassi E, van Gassen KLI, Stegmann APA, de Vries BBA, and Schuurs-Hoeijmakers JHM
- Subjects
- Adolescent, Adult, Child, Child, Preschool, Codon, Nonsense, Developmental Disabilities physiopathology, Exome genetics, Female, Genetic Association Studies, Genetic Predisposition to Disease, Heart Defects, Congenital physiopathology, Humans, Intellectual Disability physiopathology, Male, Middle Aged, Mutation, Phenotype, RNA Splice Sites genetics, Young Adult, CDC2 Protein Kinase genetics, Developmental Disabilities genetics, Heart Defects, Congenital genetics, Intellectual Disability genetics
- Abstract
De novo variants in the gene encoding cyclin-dependent kinase 13 (CDK13) have been associated with congenital heart defects and intellectual disability (ID). Here, we present the clinical assessment of 15 individuals and report novel de novo missense variants within the kinase domain of CDK13. Furthermore, we describe 2 nonsense variants and a recurrent frame-shift variant. We demonstrate the synthesis of 2 aberrant CDK13 transcripts in lymphoblastoid cells from an individual with a splice-site variant. Clinical characteristics of the individuals include mild to severe ID, developmental delay, behavioral problems, (neonatal) hypotonia and a variety of facial dysmorphism. Congenital heart defects were present in 2 individuals of the current cohort, but in at least 42% of all known individuals. An overview of all published cases is provided and does not demonstrate an obvious genotype-phenotype correlation, although 2 individuals harboring a stop codons at the end of the kinase domain might have a milder phenotype. Overall, there seems not to be a clinically recognizable facial appearance. The variability in the phenotypes impedes an à vue diagnosis of this syndrome and therefore genome-wide or gene-panel driven genetic testing is needed. Based on this overview, we provide suggestions for clinical work-up and management of this recently described ID syndrome., (© 2018 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)
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- 2018
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31. De novo, deleterious sequence variants that alter the transcriptional activity of the homeoprotein PBX1 are associated with intellectual disability and pleiotropic developmental defects.
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Slavotinek A, Risolino M, Losa M, Cho MT, Monaghan KG, Schneidman-Duhovny D, Parisotto S, Herkert JC, Stegmann APA, Miller K, Shur N, Chui J, Muller E, DeBrosse S, Szot JO, Chapman G, Pachter NS, Winlaw DS, Mendelsohn BA, Dalton J, Sarafoglou K, Karachunski PI, Lewis JM, Pedro H, Dunwoodie SL, Selleri L, and Shieh J
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- Adolescent, Adult, Amino Acid Sequence, Animals, Child, Child, Preschool, Female, Genetic Pleiotropy genetics, Homeodomain Proteins genetics, Humans, Infant, Infant, Newborn, Male, Mice, Pregnancy, Protein Binding, Proto-Oncogene Proteins genetics, Transcription Factors genetics, Intellectual Disability genetics, Pre-B-Cell Leukemia Transcription Factor 1 genetics, Pre-B-Cell Leukemia Transcription Factor 1 metabolism
- Abstract
We present eight patients with de novo, deleterious sequence variants in the PBX1 gene. PBX1 encodes a three amino acid loop extension (TALE) homeodomain transcription factor that forms multimeric complexes with TALE and HOX proteins to regulate target gene transcription during development. As previously reported, Pbx1 homozygous mutant mice (Pbx1-/-) develop malformations and hypoplasia or aplasia of multiple organs, including the craniofacial skeleton, ear, branchial arches, heart, lungs, diaphragm, gut, kidneys, and gonads. Clinical findings similar to those in Pbx mutant mice were observed in all patients with varying expressivity and severity, including external ear anomalies, abnormal branchial arch derivatives, heart malformations, diaphragmatic hernia, renal hypoplasia and ambiguous genitalia. All patients but one had developmental delays. Previously reported patients with congenital anomalies affecting the kidney and urinary tract exhibited deletions and loss of function variants in PBX1. The sequence variants in our cases included missense substitutions adjacent to the PBX1 homeodomain (p.Arg184Pro, p.Met224Lys, and p.Arg227Pro) or within the homeodomain (p.Arg234Pro, and p.Arg235Gln), whereas p.Ser262Glnfs*2, and p.Arg288* yielded truncated PBX1 proteins. Functional studies on five PBX1 sequence variants revealed perturbation of intrinsic, PBX-dependent transactivation ability and altered nuclear translocation, suggesting abnormal interactions between mutant PBX1 proteins and wild-type TALE or HOX cofactors. It is likely that the mutations directly affect the transcription of PBX1 target genes to impact embryonic development. We conclude that deleterious sequence variants in PBX1 cause intellectual disability and pleiotropic malformations resembling those in Pbx1 mutant mice, arguing for strong conservation of gene function between these two species., (© The Author 2017. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)
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- 2017
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32. A Dutch MYH7 founder mutation, p.(Asn1918Lys), is associated with early onset cardiomyopathy and congenital heart defects.
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van der Linde IHM, Hiemstra YL, Bökenkamp R, van Mil AM, Breuning MH, Ruivenkamp C, Ten Broeke SW, Veldkamp RF, van Waning JI, van Slegtenhorst MA, van Spaendonck-Zwarts KY, Lekanne Deprez RH, Herkert JC, Boven L, van der Zwaag PA, Jongbloed JDH, Bootsma M, and Barge-Schaapveld DQCM
- Abstract
Background: Mutations in the myosin heavy chain 7 (MYH7) gene commonly cause cardiomyopathy but are less frequently associated with congenital heart defects., Methods: In this study, we describe a mutation in the MYH7 gene, c. 5754C > G; p. (Asn1918Lys), present in 15 probands and 65 family members., Results: Of the 80 carriers (age range 0-88 years), 46 (57.5%) had cardiomyopathy (mainly dilated cardiomyopathy (DCM)) and seven (8.8%) had a congenital heart defect. Childhood onset of cardiomyopathy was present in almost 10% of carriers. However, in only a slight majority (53.7%) was the left ventricular ejection fraction reduced and almost no arrhythmias or conduction disorders were noted. Moreover, only one carrier required heart transplantation and nine (11.3%) an implantable cardioverter defibrillator. In addition, the standardised mortality ratio for MYH7 carriers was not significantly increased. Whole exome sequencing in several cases with paediatric onset of DCM and one with isolated congenital heart defects did not reveal additional known disease-causing variants. Haplotype analysis suggests that the MYH7 variant is a founder mutation, and is therefore the first Dutch founder mutation identified in the MYH7 gene. The mutation appears to have originated in the western region of the province of South Holland between 500 and 900 years ago., Conclusion: Clinically, the p. (Asn1918Lys) mutation is associated with congenital heart defects and/or cardiomyopathy at young age but with a relatively benign course.
- Published
- 2017
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33. Rapid Targeted Genomics in Critically Ill Newborns.
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van Diemen CC, Kerstjens-Frederikse WS, Bergman KA, de Koning TJ, Sikkema-Raddatz B, van der Velde JK, Abbott KM, Herkert JC, Löhner K, Rump P, Meems-Veldhuis MT, Neerincx PBT, Jongbloed JDH, van Ravenswaaij-Arts CM, Swertz MA, Sinke RJ, van Langen IM, and Wijmenga C
- Subjects
- Critical Illness, Female, Follow-Up Studies, Genetic Diseases, Inborn genetics, Genetic Markers, Humans, Infant, Newborn, Male, Mutation, Pilot Projects, Prospective Studies, Time Factors, Delayed Diagnosis prevention & control, Genetic Diseases, Inborn diagnosis, Genomics methods, Intensive Care, Neonatal methods, Sequence Analysis, DNA methods
- Abstract
Background: Rapid diagnostic whole-genome sequencing has been explored in critically ill newborns, hoping to improve their clinical care and replace time-consuming and/or invasive diagnostic testing. A previous retrospective study in a research setting showed promising results with diagnoses in 57%, but patients were highly selected for known and likely Mendelian disorders. The aim of our prospective study was to assess the speed and yield of rapid targeted genomic diagnostics for clinical application., Methods: We included 23 critically ill children younger than 12 months in ICUs over a period of 2 years. A quick diagnosis could not be made after routine clinical evaluation and diagnostics. Targeted analysis of 3426 known disease genes was performed by using whole-genome sequencing data. We measured diagnostic yield, turnaround times, and clinical consequences., Results: A genetic diagnosis was obtained in 7 patients (30%), with a median turnaround time of 12 days (ranging from 5 to 23 days). We identified compound heterozygous mutations in the EPG5 gene (Vici syndrome), the RMND1 gene (combined oxidative phosphorylation deficiency-11), and the EIF2B5 gene (vanishing white matter), and homozygous mutations in the KLHL41 gene (nemaline myopathy), the GFER gene (progressive mitochondrial myopathy), and the GLB1 gene (GM1-gangliosidosis). In addition, a 1p36.33p36.32 microdeletion was detected in a child with cardiomyopathy., Conclusions: Rapid targeted genomics combined with copy number variant detection adds important value in the neonatal and pediatric intensive care setting. It led to a fast diagnosis in 30% of critically ill children for whom the routine clinical workup was unsuccessful., Competing Interests: POTENTIAL CONFLICT OF INTEREST: The authors have indicated they have no potential conflicts of interest to disclose., (Copyright © 2017 by the American Academy of Pediatrics.)
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- 2017
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34. De Novo Truncating Mutations in the Last and Penultimate Exons of PPM1D Cause an Intellectual Disability Syndrome.
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Jansen S, Geuer S, Pfundt R, Brough R, Ghongane P, Herkert JC, Marco EJ, Willemsen MH, Kleefstra T, Hannibal M, Shieh JT, Lynch SA, Flinter F, FitzPatrick DR, Gardham A, Bernhard B, Ragge N, Newbury-Ecob R, Bernier R, Kvarnung M, Magnusson EA, Wessels MW, van Slegtenhorst MA, Monaghan KG, de Vries P, Veltman JA, Lord CJ, Vissers LE, and de Vries BB
- Subjects
- Adolescent, Cell Cycle, Child, Child, Preschool, Humans, Intellectual Disability pathology, Young Adult, Exons, Intellectual Disability genetics, Mutation, Protein Phosphatase 2C genetics
- Abstract
Intellectual disability (ID) is a highly heterogeneous disorder involving at least 600 genes, yet a genetic diagnosis remains elusive in ∼35%-40% of individuals with moderate to severe ID. Recent meta-analyses statistically analyzing de novo mutations in >7,000 individuals with neurodevelopmental disorders highlighted mutations in PPM1D as a possible cause of ID. PPM1D is a type 2C phosphatase that functions as a negative regulator of cellular stress-response pathways by mediating a feedback loop of p38-p53 signaling, thereby contributing to growth inhibition and suppression of stress-induced apoptosis. We identified 14 individuals with mild to severe ID and/or developmental delay and de novo truncating PPM1D mutations. Additionally, deep phenotyping revealed overlapping behavioral problems (ASD, ADHD, and anxiety disorders), hypotonia, broad-based gait, facial dysmorphisms, and periods of fever and vomiting. PPM1D is expressed during fetal brain development and in the adult brain. All mutations were located in the last or penultimate exon, suggesting escape from nonsense-mediated mRNA decay. Both PPM1D expression analysis and cDNA sequencing in EBV LCLs of individuals support the presence of a stable truncated transcript, consistent with this hypothesis. Exposure of cells derived from individuals with PPM1D truncating mutations to ionizing radiation resulted in normal p53 activation, suggesting that p53 signaling is unaffected. However, a cell-growth disadvantage was observed, suggesting a possible effect on the stress-response pathway. Thus, we show that de novo truncating PPM1D mutations in the last and penultimate exons cause syndromic ID, which provides additional insight into the role of cell-cycle checkpoint genes in neurodevelopmental disorders., (Copyright © 2017 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)
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- 2017
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35. Biallelic Truncating Mutations in ALPK3 Cause Severe Pediatric Cardiomyopathy.
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Almomani R, Verhagen JM, Herkert JC, Brosens E, van Spaendonck-Zwarts KY, Asimaki A, van der Zwaag PA, Frohn-Mulder IM, Bertoli-Avella AM, Boven LG, van Slegtenhorst MA, van der Smagt JJ, van IJcken WF, Timmer B, van Stuijvenberg M, Verdijk RM, Saffitz JE, du Plessis FA, Michels M, Hofstra RM, Sinke RJ, van Tintelen JP, Wessels MW, Jongbloed JD, and van de Laar IM
- Subjects
- Age of Onset, Animals, Echocardiography methods, Exome genetics, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Mice, Mutation, Prognosis, Cardiomyopathies diagnosis, Cardiomyopathies genetics, Cell Differentiation genetics, Muscle Proteins genetics, Myocytes, Cardiac physiology
- Abstract
Background: Cardiomyopathies are usually inherited and predominantly affect adults, but they can also present in childhood. Although our understanding of the molecular basis of pediatric cardiomyopathy has improved, the underlying mechanism remains elusive in a substantial proportion of cases., Objectives: This study aimed to identify new genes involved in pediatric cardiomyopathy., Methods: The authors performed homozygosity mapping and whole-exome sequencing in 2 consanguineous families with idiopathic pediatric cardiomyopathy. Sixty unrelated patients with pediatric cardiomyopathy were subsequently screened for mutations in a candidate gene. First-degree relatives were submitted to cardiac screening and cascade genetic testing. Myocardial samples from 2 patients were processed for histological and immunohistochemical studies., Results: We identified 5 patients from 3 unrelated families with pediatric cardiomyopathy caused by homozygous truncating mutations in ALPK3, a gene encoding a nuclear kinase that plays an essential role in early differentiation of cardiomyocytes. All patients with biallelic mutations presented with severe hypertrophic and/or dilated cardiomyopathy in utero, at birth, or in early childhood. Three patients died from heart failure within the first week of life. Moreover, 2 of 10 (20%) heterozygous family members showed hypertrophic cardiomyopathy with an atypical distribution of hypertrophy. Deficiency of alpha-kinase 3 has previously been associated with features of both hypertrophic and dilated cardiomyopathy in mice. Consistent with studies in knockout mice, we provide microscopic evidence for intercalated disc remodeling., Conclusions: Biallelic truncating mutations in the newly identified gene ALPK3 give rise to severe, early-onset cardiomyopathy in humans. Our findings highlight the importance of transcription factor pathways in the molecular mechanisms underlying human cardiomyopathies., (Copyright © 2016 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)
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- 2016
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36. De Novo Mutations in CHAMP1 Cause Intellectual Disability with Severe Speech Impairment.
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Hempel M, Cremer K, Ockeloen CW, Lichtenbelt KD, Herkert JC, Denecke J, Haack TB, Zink AM, Becker J, Wohlleber E, Johannsen J, Alhaddad B, Pfundt R, Fuchs S, Wieczorek D, Strom TM, van Gassen KL, Kleefstra T, Kubisch C, Engels H, and Lessel D
- Subjects
- Base Sequence, Female, Humans, Male, Molecular Sequence Data, Sequence Analysis, DNA, Abnormalities, Multiple genetics, Abnormalities, Multiple pathology, Chromosomal Proteins, Non-Histone genetics, Codon, Nonsense genetics, Intellectual Disability genetics, Phosphoproteins genetics, Speech Disorders genetics
- Abstract
CHAMP1 encodes a protein with a function in kinetochore-microtubule attachment and in the regulation of chromosome segregation, both of which are known to be important for neurodevelopment. By trio whole-exome sequencing, we have identified de novo deleterious mutations in CHAMP1 in five unrelated individuals affected by intellectual disability with severe speech impairment, motor developmental delay, muscular hypotonia, and similar dysmorphic features including short philtrum and a tented upper and everted lover lip. In addition to two frameshift and one nonsense mutations, we found an identical nonsense mutation, c.1192C>T (p.Arg398*), in two affected individuals. All mutations, if resulting in a stable protein, are predicted to lead to the loss of the functionally important zinc-finger domains in the C terminus of the protein, which regulate CHAMP1 localization to chromosomes and the mitotic spindle, thereby providing a mechanistic understanding for their pathogenicity. We thus establish deleterious de novo mutations in CHAMP1 as a cause of intellectual disability., (Copyright © 2015 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)
- Published
- 2015
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37. Compound heterozygous or homozygous truncating MYBPC3 mutations cause lethal cardiomyopathy with features of noncompaction and septal defects.
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Wessels MW, Herkert JC, Frohn-Mulder IM, Dalinghaus M, van den Wijngaard A, de Krijger RR, Michels M, de Coo IF, Hoedemaekers YM, and Dooijes D
- Subjects
- Cardiomyopathy, Hypertrophic, Familial diagnosis, Carrier Proteins, DNA Mutational Analysis, Echocardiography, Electrocardiography, Fatal Outcome, Female, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics, Heart Septal Defects diagnosis, Heterozygote, Homozygote, Humans, Infant, Infant, Newborn, Male, Cardiomyopathy, Hypertrophic, Familial genetics, Genetic Predisposition to Disease genetics, Heart Septal Defects genetics, Mutation
- Abstract
Familial hypertrophic cardiomyopathy (HCM) is usually caused by autosomal dominant pathogenic mutations in genes encoding sarcomeric or sarcomere-associated cardiac muscle proteins. The disease mainly affects adults, although young children with severe HCM have also been reported. We describe four unrelated neonates with lethal cardiomyopathy, and performed molecular studies to identify the genetic defect. We also present a literature overview of reported patients with compound heterozygous or homozygous pathogenic MYBPC3 mutations and describe their clinical characteristics. All four children presented with feeding difficulties, failure to thrive, and dyspnea. They died from cardiac failure before age 13 weeks. Features of left ventricular noncompaction were diagnosed in three patients. In the fourth, hypertrabeculation was not a clear feature, but could not be excluded. All of them had septal defects. Two patients were compound heterozygotes for the pathogenic c.2373dup p.(Trp792fs) and c.2827C>T p.(Arg943*) mutations, and two were homozygous for the c.2373dup and c.2827C>T mutations. All patients with biallelic truncating pathogenic mutations in MYBPC3 reported so far (n=21) were diagnosed with severe cardiomyopathy and/or died within the first few months of life. In 62% (13/21), septal defects or a patent ductus arteriosus accompanied cardiomyopathy. In contrast to heterozygous pathogenic mutations, homozygous or compound heterozygous truncating pathogenic MYBPC3 mutations cause severe neonatal cardiomyopathy with features of left ventricular noncompaction and septal defects in approximately 60% of patients.
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- 2015
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38. Phenotype and genotype in 103 patients with tricho-rhino-phalangeal syndrome.
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Maas SM, Shaw AC, Bikker H, Lüdecke HJ, van der Tuin K, Badura-Stronka M, Belligni E, Biamino E, Bonati MT, Carvalho DR, Cobben J, de Man SA, Den Hollander NS, Di Donato N, Garavelli L, Grønborg S, Herkert JC, Hoogeboom AJ, Jamsheer A, Latos-Bielenska A, Maat-Kievit A, Magnani C, Marcelis C, Mathijssen IB, Nielsen M, Otten E, Ousager LB, Pilch J, Plomp A, Poke G, Poluha A, Posmyk R, Rieubland C, Silengo M, Simon M, Steichen E, Stumpel C, Szakszon K, Polonkai E, van den Ende J, van der Steen A, van Essen T, van Haeringen A, van Hagen JM, Verheij JB, Mannens MM, and Hennekam RC
- Subjects
- Abnormalities, Multiple pathology, Adolescent, Adult, Aged, Child, Child, Preschool, Female, Genetic Association Studies, Humans, Infant, Langer-Giedion Syndrome pathology, Male, Middle Aged, Mutation, Missense, Repressor Proteins, Young Adult, Abnormalities, Multiple genetics, DNA-Binding Proteins genetics, Langer-Giedion Syndrome genetics, Transcription Factors genetics
- Abstract
Tricho-rhino-phalangeal syndrome (TRPS) is characterized by craniofacial and skeletal abnormalities, and subdivided in TRPS I, caused by mutations in TRPS1, and TRPS II, caused by a contiguous gene deletion affecting (amongst others) TRPS1 and EXT1. We performed a collaborative international study to delineate phenotype, natural history, variability, and genotype-phenotype correlations in more detail. We gathered information on 103 cytogenetically or molecularly confirmed affected individuals. TRPS I was present in 85 individuals (22 missense mutations, 62 other mutations), TRPS II in 14, and in 5 it remained uncertain whether TRPS1 was partially or completely deleted. Main features defining the facial phenotype include fine and sparse hair, thick and broad eyebrows, especially the medial portion, a broad nasal ridge and tip, underdeveloped nasal alae, and a broad columella. The facial manifestations in patients with TRPS I and TRPS II do not show a significant difference. In the limbs the main findings are short hands and feet, hypermobility, and a tendency for isolated metacarpals and metatarsals to be shortened. Nails of fingers and toes are typically thin and dystrophic. The radiological hallmark are the cone-shaped epiphyses and in TRPS II multiple exostoses. Osteopenia is common in both, as is reduced linear growth, both prenatally and postnatally. Variability for all findings, also within a single family, can be marked. Morbidity mostly concerns joint problems, manifesting in increased or decreased mobility, pain and in a minority an increased fracture rate. The hips can be markedly affected at a (very) young age. Intellectual disability is uncommon in TRPS I and, if present, usually mild. In TRPS II intellectual disability is present in most but not all, and again typically mild to moderate in severity. Missense mutations are located exclusively in exon 6 and 7 of TRPS1. Other mutations are located anywhere in exons 4-7. Whole gene deletions are common but have variable breakpoints. Most of the phenotype in patients with TRPS II is explained by the deletion of TRPS1 and EXT1, but haploinsufficiency of RAD21 is also likely to contribute. Genotype-phenotype studies showed that mutations located in exon 6 may have somewhat more pronounced facial characteristics and more marked shortening of hands and feet compared to mutations located elsewhere in TRPS1, but numbers are too small to allow firm conclusions., (Copyright © 2015 Elsevier Masson SAS. All rights reserved.)
- Published
- 2015
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39. A study of the clinical and radiological features in a cohort of 93 patients with a COL2A1 mutation causing spondyloepiphyseal dysplasia congenita or a related phenotype.
- Author
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Terhal PA, Nievelstein RJ, Verver EJ, Topsakal V, van Dommelen P, Hoornaert K, Le Merrer M, Zankl A, Simon ME, Smithson SF, Marcelis C, Kerr B, Clayton-Smith J, Kinning E, Mansour S, Elmslie F, Goodwin L, van der Hout AH, Veenstra-Knol HE, Herkert JC, Lund AM, Hennekam RC, Mégarbané A, Lees MM, Wilson LC, Male A, Hurst J, Alanay Y, Annerén G, Betz RC, Bongers EM, Cormier-Daire V, Dieux A, David A, Elting MW, van den Ende J, Green A, van Hagen JM, Hertel NT, Holder-Espinasse M, den Hollander N, Homfray T, Hove HD, Price S, Raas-Rothschild A, Rohrbach M, Schroeter B, Suri M, Thompson EM, Tobias ES, Toutain A, Vreeburg M, Wakeling E, Knoers NV, Coucke P, and Mortier GR
- Subjects
- Adolescent, Adult, Aged, Child, Child, Preschool, Cohort Studies, DNA Mutational Analysis, Female, Genetic Association Studies, Humans, Infant, Male, Middle Aged, Osteochondrodysplasias diagnostic imaging, Osteochondrodysplasias genetics, Radiography, Young Adult, Collagen Type II genetics, Mutation, Osteochondrodysplasias congenital, Phenotype
- Abstract
Type 2 collagen disorders encompass a diverse group of skeletal dysplasias that are commonly associated with orthopedic, ocular, and hearing problems. However, the frequency of many clinical features has never been determined. We retrospectively investigated the clinical, radiological, and genotypic data in a group of 93 patients with molecularly confirmed SEDC or a related disorder. The majority of the patients (80/93) had short stature, with radiological features of SEDC (n = 64), others having SEMD (n = 5), Kniest dysplasia (n = 7), spondyloperipheral dysplasia (n = 2), or Torrance-like dysplasia (n = 2). The remaining 13 patients had normal stature with mild SED, Stickler-like syndrome or multiple epiphyseal dysplasia. Over 50% of the patients had undergone orthopedic surgery, usually for scoliosis, femoral osteotomy or hip replacement. Odontoid hypoplasia was present in 56% (95% CI 38-74) and a correlation between odontoid hypoplasia and short stature was observed. Atlanto-axial instability, was observed in 5 of the 18 patients (28%, 95% CI 10-54) in whom flexion-extension films of the cervical spine were available; however, it was rarely accompanied by myelopathy. Myopia was found in 45% (95% CI 35-56), and retinal detachment had occurred in 12% (95% CI 6-21; median age 14 years; youngest age 3.5 years). Thirty-two patients complained of hearing loss (37%, 95% CI 27-48) of whom 17 required hearing aids. The ophthalmological features and possibly also hearing loss are often relatively frequent and severe in patients with splicing mutations. Based on clinical findings, age at onset and genotype-phenotype correlations in this cohort, we propose guidelines for the management and follow-up in this group of disorders., (© 2015 Wiley Periodicals, Inc.)
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- 2015
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40. Rapidly deteriorating course in Dutch hereditary spastic paraplegia type 11 patients.
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de Bot ST, Burggraaff RC, Herkert JC, Schelhaas HJ, Post B, Diekstra A, van Vliet RO, van der Knaap MS, Kamsteeg EJ, Scheffer H, van de Warrenburg BP, Verschuuren-Bemelmans CC, and Kremer HP
- Subjects
- Adolescent, Adult, Brain pathology, Follow-Up Studies, Fundus Oculi, Humans, Magnetic Resonance Imaging, Middle Aged, Mutation genetics, Netherlands, Phenotype, Proteins genetics, Spastic Paraplegia, Hereditary genetics, Young Adult, Disease Progression, Spastic Paraplegia, Hereditary pathology
- Abstract
Although SPG11 is the most common complicated hereditary spastic paraplegia, our knowledge of the long-term prognosis and life expectancy is limited. We therefore studied the disease course of all patients with a proven SPG11 mutation as tested in our laboratory, the single Dutch laboratory providing SPG11 mutation analysis, between 1 January 2009 and 1 January 2011. We identified nine different SPG11 mutations, four of which are novel, in nine index patients. Eighteen SPG11 patients from these nine families were studied by means of a retrospective chart analysis and additional interview/examination. Ages at onset were between 4 months and 14 years; 39% started with learning difficulties rather than gait impairment. Brain magnetic resonance imaging showed a thin corpus callosum and typical periventricular white matter changes in the frontal horn region (known as the 'ears-of the lynx'-sign) in all. Most patients became wheelchair bound after a disease duration of 1 to 2 decades. End-stage disease consisted of loss of spontaneous speech, severe dysphagia, spastic tetraplegia with peripheral nerve involvement and contractures. Several patients died of complications between ages 30 and 48 years, 3-4 decades after onset of gait impairment. Other relevant features during the disease were urinary and fecal incontinence, obesity and psychosis. Our study of 18 Dutch SPG11-patients shows the potential serious long-term consequences of SPG11 including a possibly restricted life span.
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- 2013
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41. Clinical utility gene card for: dilated cardiomyopathy (CMD).
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Posafalvi A, Herkert JC, Sinke RJ, van den Berg MP, Mogensen J, Jongbloed JD, and van Tintelen JP
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- Cardiomyopathy, Dilated diagnosis, Cardiomyopathy, Dilated epidemiology, Databases, Genetic, Genetic Predisposition to Disease, Humans, Mutation, Cardiomyopathy, Dilated genetics, Genetic Loci
- Published
- 2013
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42. Calibration of multiple in silico tools for predicting pathogenicity of mismatch repair gene missense substitutions.
- Author
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Thompson BA, Greenblatt MS, Vallee MP, Herkert JC, Tessereau C, Young EL, Adzhubey IA, Li B, Bell R, Feng B, Mooney SD, Radivojac P, Sunyaev SR, Frebourg T, Hofstra RM, Sijmons RH, Boucher K, Thomas A, Goldgar DE, Spurdle AB, and Tavtigian SV
- Subjects
- Adaptor Proteins, Signal Transducing genetics, Adenosine Triphosphatases genetics, Bayes Theorem, Calibration, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, Computational Biology classification, Computational Biology standards, DNA Repair Enzymes genetics, DNA-Binding Proteins genetics, Humans, Mismatch Repair Endonuclease PMS2, MutL Protein Homolog 1, MutS Homolog 2 Protein genetics, Nuclear Proteins genetics, Regression Analysis, Reproducibility of Results, Computational Biology methods, DNA Mismatch Repair genetics, Genetic Predisposition to Disease genetics, Mutation, Missense
- Abstract
Classification of rare missense substitutions observed during genetic testing for patient management is a considerable problem in clinical genetics. The Bayesian integrated evaluation of unclassified variants is a solution originally developed for BRCA1/2. Here, we take a step toward an analogous system for the mismatch repair (MMR) genes (MLH1, MSH2, MSH6, and PMS2) that confer colon cancer susceptibility in Lynch syndrome by calibrating in silico tools to estimate prior probabilities of pathogenicity for MMR gene missense substitutions. A qualitative five-class classification system was developed and applied to 143 MMR missense variants. This identified 74 missense substitutions suitable for calibration. These substitutions were scored using six different in silico tools (Align-Grantham Variation Grantham Deviation, multivariate analysis of protein polymorphisms [MAPP], MutPred, PolyPhen-2.1, Sorting Intolerant From Tolerant, and Xvar), using curated MMR multiple sequence alignments where possible. The output from each tool was calibrated by regression against the classifications of the 74 missense substitutions; these calibrated outputs are interpretable as prior probabilities of pathogenicity. MAPP was the most accurate tool and MAPP + PolyPhen-2.1 provided the best-combined model (R(2) = 0.62 and area under receiver operating characteristic = 0.93). The MAPP + PolyPhen-2.1 output is sufficiently predictive to feed as a continuous variable into the quantitative Bayesian integrated evaluation for clinical classification of MMR gene missense substitutions., (© 2012 Wiley Periodicals, Inc.)
- Published
- 2013
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43. Practical guidelines for interpreting copy number gains detected by high-resolution array in routine diagnostics.
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Hanemaaijer NM, Sikkema-Raddatz B, van der Vries G, Dijkhuizen T, Hordijk R, van Essen AJ, Veenstra-Knol HE, Kerstjens-Frederikse WS, Herkert JC, Gerkes EH, Leegte LK, Kok K, Sinke RJ, and van Ravenswaaij-Arts CM
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- Cohort Studies, Female, Humans, Male, Practice Guidelines as Topic, Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Comparative Genomic Hybridization, DNA Copy Number Variations, Developmental Disabilities diagnosis, Developmental Disabilities genetics
- Abstract
The correct interpretation of copy number gains in patients with developmental delay and multiple congenital anomalies is hampered by the large number of copy number variations (CNVs) encountered in healthy individuals. The variable phenotype associated with copy number gains makes interpretation even more difficult. Literature shows that inheritence, size and presence in healthy individuals are commonly used to decide whether a certain copy number gain is pathogenic, but no general consensus has been established. We aimed to develop guidelines for interpreting gains detected by array analysis using array CGH data of 300 patients analysed with the 105K Agilent oligo array in a diagnostic setting. We evaluated the guidelines in a second, independent, cohort of 300 patients. In the first 300 patients 797 gains of four or more adjacent oligonucleotides were observed. Of these, 45.4% were de novo and 54.6% were familial. In total, 94.8% of all de novo gains and 87.1% of all familial gains were concluded to be benign CNVs. Clinically relevant gains ranged from 288 to 7912 kb in size, and were significantly larger than benign gains and gains of unknown clinical relevance (P < 0.001). Our study showed that a threshold of 200 kb is acceptable in a clinical setting, whereas heritability does not exclude a pathogenic nature of a gain. Evaluation of the guidelines in the second cohort of 300 patients revealed that the interpretation guidelines were clear, easy to follow and efficient.
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- 2012
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44. A rare cause of congenital adrenal hyperplasia: Antley-Bixler syndrome due to POR deficiency.
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Herkert JC, Blaauwwiekel EE, Hoek A, Veenstra-Knol HE, Kema IP, Arlt W, and Kerstens MN
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- Adrenal Hyperplasia, Congenital diagnosis, Adrenal Hyperplasia, Congenital etiology, Female, Humans, Menstruation Disturbances etiology, Young Adult, Adrenal Hyperplasia, Congenital genetics, Antley-Bixler Syndrome Phenotype genetics, NADPH-Ferrihemoprotein Reductase deficiency
- Abstract
Cytochrome P450 oxidoreductase (POR) deficiency is a recently discovered new variant of congenital adrenal hyperplasia. Distinctive features of POR deficiency are the presence of disorders of sexual development in both sexes, glucocorticoid deficiency and skeletal malformations similar to those observed in the Antley-Bixler syndrome.
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- 2011
45. Paediatric intestinal cancer and polyposis due to bi-allelic PMS2 mutations: case series, review and follow-up guidelines.
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Herkert JC, Niessen RC, Olderode-Berends MJ, Veenstra-Knol HE, Vos YJ, van der Klift HM, Scheenstra R, Tops CM, Karrenbeld A, Peters FT, Hofstra RM, Kleibeuker JH, and Sijmons RH
- Subjects
- Adult, Base Pair Mismatch, Child, Child, Preschool, DNA Repair, Family Health, Female, Follow-Up Studies, Gene Deletion, Germ-Line Mutation, Humans, Immunohistochemistry methods, Male, Microsatellite Instability, Microsatellite Repeats, Mismatch Repair Endonuclease PMS2, Syndrome, Adenosine Triphosphatases genetics, DNA Repair Enzymes genetics, DNA-Binding Proteins genetics, Intestinal Neoplasms genetics, Intestinal Polyposis genetics, Mutation
- Abstract
Background: Bi-allelic germline mutations of one of the DNA mismatch repair genes, so far predominantly found in PMS2, cause constitutional MMR-deficiency syndrome. This rare disorder is characterised by paediatric intestinal cancer and other malignancies. We report the clinical, immunohistochemical and genetic characterisation of four families with bi-allelic germline PMS2 mutations. We present an overview of the published gastrointestinal manifestations of CMMR-D syndrome and propose recommendations for gastro-intestinal screening., Methods and Results: The first proband developed a cerebral angiosarcoma at age 2 and two colorectal adenomas at age 7. Genetic testing identified a complete PMS2 gene deletion and a frameshift c.736_741delinsTGTGTGTGAAG (p.Pro246CysfsX3) mutation. In the second family, both the proband and her brother had multiple intestinal adenomas, initially wrongly diagnosed as familial adenomatous polyposis. A splice site c.2174+1G>A, and a missense c.137G>T (p.Ser46Ile) mutation in PMS2 were identified. The third patient was diagnosed with multiple colorectal adenomas at age 11; he developed a high-grade dysplastic colorectal adenocarcinoma at age 21. Two intragenic PMS2 deletions were found. The fourth proband developed a cerebral anaplastic ganglioma at age 9 and a high-grade colerectal dysplastic adenoma at age 10 and carries a homozygous c.2174+1G>A mutation. Tumours of all patients showed microsatellite instability and/or loss of PMS2 expression., Conclusions: Our findings show the association between bi-allelic germline PMS2 mutations and severe childhood-onset gastrointestinal manifestations, and support the notion that patients with early-onset gastrointestinal adenomas and cancer should be investigated for CMMR-D syndrome. We recommend yearly follow-up with colonoscopy from age 6 and simultaneous video-capsule small bowel enteroscopy from age 8., (Copyright © 2011 Elsevier Ltd. All rights reserved.)
- Published
- 2011
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46. Screening for germline DND1 mutations in testicular cancer patients.
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Sijmons RH, Vos YJ, Herkert JC, Bos KK, Lutke Holzik MF, Hoekstra-Weebers JE, Hofstra RM, and Hoekstra HJ
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- Adult, Base Sequence, Germ-Line Mutation, Humans, Male, Molecular Sequence Data, Pedigree, Genetic Predisposition to Disease, Neoplasm Proteins genetics, Neoplasms, Germ Cell and Embryonal genetics, Testicular Neoplasms genetics
- Abstract
Although several observations suggest that a strong genetic predisposition to developing testicular germ cell tumors (TGCT) exists, no associated, highly penetrant germline mutations have been identified so far. In the 129/Sv mouse strain, a germline mutation in the DND1 gene has been shown to strongly increase the TGCT risk. We screened 272 men with TGCT (89% sporadic cases, 11% familial) for germline mutations in the human homologue of DND1. A single nucleotide substitution c.657C > G (p.Asp219Glu) was observed in a non-familial case of testicular embryonal carcinoma. The variant was also present in the patient's asymptomatic father and two brothers, but not observed in 210 control chromosomes. The wild type DND1 allele was not lost in the patient's tumor. In silico analysis of the variant predicts it to be non-pathogenic. We conclude that germline DND1 mutations are unlikely to contribute significantly to human testicular germ cell tumor susceptibility. The role of human DND1 in normal physiology and disease, however, is still virtually unknown and it therefore warrants further research.
- Published
- 2010
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47. The unfolding clinical spectrum of holoprosencephaly due to mutations in SHH, ZIC2, SIX3 and TGIF genes.
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Paulussen AD, Schrander-Stumpel CT, Tserpelis DC, Spee MK, Stegmann AP, Mancini GM, Brooks AS, Collée M, Maat-Kievit A, Simon ME, van Bever Y, Stolte-Dijkstra I, Kerstjens-Frederikse WS, Herkert JC, van Essen AJ, Lichtenbelt KD, van Haeringen A, Kwee ML, Lachmeijer AM, Tan-Sindhunata GM, van Maarle MC, Arens YH, Smeets EE, de Die-Smulders CE, Engelen JJ, Smeets HJ, and Herbergs J
- Subjects
- Female, Humans, Male, Pedigree, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, Homeobox Protein SIX3, Eye Proteins genetics, Hedgehog Proteins genetics, Holoprosencephaly genetics, Homeodomain Proteins genetics, Mutation, Nerve Tissue Proteins genetics, Nuclear Proteins genetics, Repressor Proteins genetics, Transcription Factors genetics
- Abstract
Holoprosencephaly is a severe malformation of the brain characterized by abnormal formation and separation of the developing central nervous system. The prevalence is 1:250 during early embryogenesis, the live-born prevalence is 1:16 000. The etiology of HPE is extremely heterogeneous and can be teratogenic or genetic. We screened four known HPE genes in a Dutch cohort of 86 non-syndromic HPE index cases, including 53 family members. We detected 21 mutations (24.4%), 3 in SHH, 9 in ZIC2 and 9 in SIX3. Eight mutations involved amino-acid substitutions, 7 ins/del mutations, 1 frame-shift, 3 identical poly-alanine tract expansions and 2 gene deletions. Pathogenicity of mutations was presumed based on de novo character, predicted non-functionality of mutated proteins, segregation of mutations with affected family-members or combinations of these features. Two mutations were reported previously. SNP array confirmed detected deletions; one spanning the ZIC2/ZIC5 genes (approx. 100 kb) the other a 1.45 Mb deletion including SIX2/SIX3 genes. The mutation percentage (24%) is comparable with previous reports, but we detected significantly less mutations in SHH: 3.5 vs 10.7% (P=0.043) and significantly more in SIX3: 10.5 vs 4.3% (P=0.018). For TGIF1 and ZIC2 mutation the rate was in conformity with earlier reports. About half of the mutations were de novo, one was a germ line mosaic. The familial mutations displayed extensive heterogeneity in clinical manifestation. Of seven familial index patients only two parental carriers showed minor HPE signs, five were completely asymptomatic. Therefore, each novel mutation should be considered as a risk factor for clinically manifest HPE, with the caveat of reduced clinical penetrance.
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- 2010
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48. Thyroid cancer in a patient with a germline MSH2 mutation. Case report and review of the Lynch syndrome expanding tumour spectrum.
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Stulp RP, Herkert JC, Karrenbeld A, Mol B, Vos YJ, and Sijmons RH
- Abstract
Lynch syndrome (HNPCC) is a dominantly inherited disorder characterized by germline defects in DNA mismatch repair (MMR) genes and the development of a variety of cancers, predominantly colorectal and endometrial. We present a 44-year-old woman who was shown to carry the truncating MSH2 gene mutation that had previously been identified in her family. Recently, she had been diagnosed with an undifferentiated carcinoma of the thyroid and an adenoma of her coecum. Although the thyroid carcinoma was not MSI-high (1 out of 5 microsatellites instable), it did show complete loss of immunohistochemical expression for the MSH2 protein, suggesting that this tumour was not coincidental. Although the risks for some tumour types, including breast cancer, soft tissue sarcoma and prostate cancer, are not significantly increased in Lynch syndrome, MMR deficiency in the presence of a corresponding germline defect has been demonstrated in incidental cases of a growing range of tumour types, which is reviewed in this paper. Interestingly, the MSH2-associated tumour spectrum appears to be wider than that of MLH1 and generally the risk for most extra-colonic cancers appears to be higher for MSH2 than for MLH1 mutation carriers. Together with a previously reported case, our findings show that anaplastic thyroid carcinoma can develop in the setting of Lynch syndrome. Uncommon Lynch syndrome-associated tumour types might be useful in the genetic analysis of a Lynch syndrome suspected family if samples from typical Lynch syndrome tumours are unavailable.
- Published
- 2008
- Full Text
- View/download PDF
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