A De Novo Frameshift in HNRNPK Causing a Kabuki-Like Syndrome with Nodular Heterotopia

A De Novo Frameshift in HNRNPK Causing a Kabuki-Like Syndrome with Nodular Heterotopia

Clin Genet 2016: 90: 258–262 CLINICAL GENETICS Printed in Singapore. All rights reserved doi: 10.1111/cge.12773 Short Report A de novo frameshift in HNRNPK causing a Kabuki-like syndrome with nodular heterotopia ,† Lange L., Pagnamenta A.T., Lise S., Clasper S., Stewart H., Akha E.S., L. Langea , ,† Quaghebeur G., Knight S.J.L., Keays D.A., Taylor J.C., Kini U. A de novo A. T. Pagnamentaa ,S.Lisea, frameshift in HNRNPK causing a Kabuki-like syndrome with nodular S. Clasperb,H.Stewartc, heterotopia. E. S. Akhaa, G. Quaghebeurd, Clin Genet 2016: 90: 258–262. © 2016 The Authors. Clinical Genetics S. J. L. Knighta,D.A.Keayse, published by John Wiley & Sons A/S. Published by John Wiley & Sons Ltd., J. C. Taylora,† and U. Kinic,† 2016 aNational Institute for Health Research Kabuki syndrome is a heterogeneous condition characterized by distinctive Biomedical Research Centre, Wellcome facial features, intellectual disability, growth retardation, skeletal Trust Centre for Human Genetics, abnormalities and a range of organ malformations. Although at least two University of Oxford, Oxford, UK, bOxford major causative genes have been identified, these do not explain all cases. Regional Genetics Service, Oxford Here we describe a patient with a complex Kabuki-like syndrome that Radcliffe Hospitals NHS Trust, The included nodular heterotopia, in whom testing for several single-gene Churchill Hospital, Oxford, UK, cDepartment of Clinical Genetics, disorders had proved negative. Exome sequencing uncovered a de novo dDepartment of Neuroradiology, Oxford c.931_932insTT variant in HNRNPK (heterogeneous nuclear University Hospitals NHS Foundation ribonucleoprotein K). Although this variant was identified in March 2012, its Trust, Oxford, UK, and eInstitute of clinical relevance could only be confirmed following the August 2015 Molecular Pathology, Vienna, Austria publication of two cases with HNRNPK mutations and an overlapping phenotype that included intellectual disability, distinctive facial †These authors contributed equally; dysmorphism and skeletal/connective tissue abnormalities. Whilst we had attempted (unsuccessfully) to identify additional cases through existing Key words: exome – heterotopia – collaborators, the two published cases were ‘matched’ using GeneMatcher, a HNRNPK –Kabuki web-based tool for connecting researchers and clinicians working on identical genes. Our report therefore exemplifies the importance of such Corresponding author: Dr Usha Kini, online tools in clinical genetics research and the benefits of periodically Department of Clinical Genetics, Oxford reviewing cases with variants of unproven significance. Our study also University Hospitals NHS Foundation Trust, Old Road, Headington, Oxford suggests that loss of function variants in HNRNPK should be considered as a OX3 9LE, UK. molecular basis for patients with Kabuki-like syndrome. Tel.: +44 1865 226020; fax: +44 1865 223572; Conflict of interest e-mail: [email protected] The authors declare no conflicts of interest. Received 29 January 2016, revised and accepted for publication 3 March 2016 Over the last decade, the development of NGS tech- way, rare disease-causing variants that previously could nologies has accelerated disease-gene discovery such not be confirmed can now be identified by matching that (as of January 2016) there are now reported to be up similar cases from around the world. One such 5654 phenotypes for which the genetic basis is known example is a recent study describing two unrelated (www.omim.org/statistics/geneMap). For the remaining patients with de novo mutations in HNRNPK, the gene rare genetic disorders in which the underlying molec- encoding the heterogeneous nuclear ribonucleoprotein ular mechanisms have not yet been determined, online K (4). Both patients presented with intellectual dis- tools such as GeneMatcher (1), GenomeConnect (2) ability, facial dysmorphism and skeletal/connective tis- and MyGene2 (3) have been developed that can help sue abnormalities. Structural brain abnormalities such connect researchers working on the same gene. In this as hypomyelination and thin corpus callosum were also 258 © 2016 The Authors. Clinical Genetics published by John Wiley & Sons A/S. Published by John Wiley & Sons Ltd. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. De novo frameshift in HNRNPK causing Kabuki-like syndrome with nodular heterotopia (a) (b) (c) (d) (e) (f) Fig. 1.(a, b) Proband at ages 7 months and 8 years, respectively. Note the prominent metopic ridge, turricephaly, sparseness of lateral eyebrows with medial flare, long palpebral fissures, eversion of lower eyelids, low-set prominent ears.(c) Thick, wrinkled skin on the neck posteriorly. (d, e) Deep plantar and palmar creases with fetal finger pads. (f) Coronal MRI image from inversion recovery volume sequence demonstrating two grey matter rounded nodules (blue arrows) adjacent to the borders of the lateral ventricles, in keeping with periventricular heterotopia. Written consent from the family to publish these images was obtained. reported. One patient harboured a splice donor site mild scoliosis. CT scan of the skull revealed a saggital mutation in HNRNPK (NM_002140.3:c.953+1dupG) synostosis and a repeat MRI brain scan confirmed agen- that predicts a frame-shift and a truncated protein esis of the corpus callosum, with nodular heterotopia in (p.Gly319Argfs*6). In the second patient, a c.257G>A the frontal horns (Fig. 1f). The patient’s neonatal weight, variant, although annotated as p.Arg86His, was shown length and head circumference were in the 25–50th, to be associated with reduced expression of hnRNP K 91–98th and on the 50th centile, respectively. protein, presumably through an aberrant splicing mech- His growth continued on this trajectory such that when anism (4). last examined at the age of 11 years, his weight, height Here, we describe a patient (BRC052) with a complex and head circumference were on the 25th, 91st and in phenotype overlapping that seen in the patients described the 25–50th centile range, respectively. He was able by Au et al. BRC052 was born following a pregnancy to crawl, bottom-shuffle and walk with help. Hehad complicated by nuchal thickening of 9.8 mm identified taken 25 steps independently. He had a single word in at 12 weeks gestation. Chorionic villus sampling done his speech (‘mum’), although he did make some vowel at the time revealed a normal karyotype. Postnatally, he sounds and was able to communicate with more than 100 was found to have an atrioventricular septal defect, cleft signs. His understanding of speech was at a 3- to 4-year palate, renal pelvic dilatation, bilateral talipes and partial old level. He was in the process of being toilet-trained agenesis of the corpus callosum. He was hypotonic and and attended a school for children with special needs. He showed significant developmental delay. Dysmorphic had a high threshold for pain. features included a prominent metopic ridge (Fig. 1a,b), Testing for several single gene disorders was carried medial flare of the eyebrows, long palpebral fissures out including Smith Lemli-Opitz syndrome, Goldberg with lateral eversion of lower eyelids, hypoplastic alae Shprintzen syndrome, FLNA-associated periventric- nasi, low-set prominent ears and thick, wrinkled skin in ular heterotopia and Kabuki syndrome (KMT2D and the back of the neck, which was already present at birth KDM6A). He was recruited into the Genetics of Struc- (Fig. 1c), hypoplastic toe nails and very deep palmar and tural Brain Abnormalities and Learning Disabilities plantar creases (Fig. 1d,e) and a midline groove on his Study. CNV analysis using 180k array-CGH (Agilent) tongue. He was noted to have a shallow acetabulum and identified a rare maternally inherited 82 kb deletion 259 Lange et al. Fig. 2.(a) Gene structure with position of variants in relation to known functional domains. (b) Sanger sequencing electropherogram showing validation results for the c.931_932insTT variant alongside the predicted effect at the amino-acid level. Sequencing was also performed in the non-coding direction (data not shown). involving IQGAP2 of uncertain significance but no other in the patient resided in known Kabuki disease genes likely pathogenic alterations. Whole-exome sequencing (KMT2D, KDM6A, KDM1A)orlayin trans with the (WES) was performed on the patient and his biological IQGAP2 deletion. As BRC052 had no family history of parents using a pipeline that involved SureSelect capture the disease, we scanned for de novo variants and detected (Agilent), sequencing using the HiSeq2000 (Illumina) a single such variant, c.931_932insTT in HNRNPK. The and a 100 bp paired-end read format. The bioinformatic variant has not been reported in population-based analysis was similar to that described previously (5) cohorts including the ExAC browser which included using population allele frequencies from ExAC V0.3 WES data from 60,706 unrelated individuals and was (http://exac.broadinstitute.org/) and 1000 Genomes not observed in 1000G. This mutation is predicted to Project (1000G) datasets (6). None of the 415 rare (<1% result in a frameshift (p.Pro311Leufs*40) 67% through allele frequency), predicted deleterious variants detected the coding sequence, in a region engaging with Zik1, 260 De novo frameshift in HNRNPK causing Kabuki-like syndrome with nodular heterotopia a transcriptional repressor

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