Dominant variants in the splicing factor PUF60 cause a recognizable syndrome with intellectual disability, heart defects and short stature

6533b7d7fe1ef96bd1267a36

RESEARCH PRODUCT

Dominant variants in the splicing factor PUF60 cause a recognizable syndrome with intellectual disability, heart defects and short stature

Matthieu P. Robert Salima El Chehadeh Geert Vandeweyer Candace Bensignor Wilhelmina S. Kerstjens-frederikse Darina Prchalova Hélène Dollfus Jean-baptiste Rivière Christel Thauvin-robinet Paul Kuentz Edwin Reyniers Patrick Calvas Caroline Bonnet Marketa Havlovicova Rodica Isaiko Vincent Laugel Nicolas Chassaing Julien Thevenon Christian Gilissen Morgane Straub Laurence Faivre Yannis Duffourd Miroslava Hancarova Bart Loeys R. Frank Kooy Ange-line Bruel Rolph Pfundt Catherine Creuzot-garcher Jolien S. Klein Wassink-ruiter Zdenek Sedlacek

subject

0301 basic medicine Male MESH: Heart Defects Congenital / physiopathology Microcephaly Pathology MESH: Heart Defects Congenital / genetics MESH: Exome / genetics 030105 genetics & heredity MESH: RNA Splicing / genetics Microphthalmia [SDV.MHEP.MI]Life Sciences [q-bio]/Human health and pathology/Infectious diseases MESH: Child Exome MESH: RNA Splicing Factors / genetics Child Frameshift Mutation MESH: High-Throughput Nucleotide Sequencing Genetics (clinical)Exome sequencing Coloboma MESH: Frameshift Mutation High-Throughput Nucleotide Sequencing Microdeletion syndrome Microcephaly Verheij syndrome PUF60 Chemistry Phenotype Child Preschool DISEASES Microcephaly Medical genetics Female RNA Splicing Factors medicine.symptom Chromosome Deletion Chromosomes Human Pair 8 MESH: Dwarfism / genetics*Heart Defects Congenital medicine.medical_specialty GENES Adolescent RNA Splicing MESH: Chromosome Deletion Dwarfism Biology MESH: Phenotype Short stature Article PUF60 03 medical and health sciences Internal medicine Intellectual Disability [ SDV.MHEP ] Life Sciences [q-bio]/Human health and pathology Genetics medicine Humans Craniofacial Biology MESH: Adolescent Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7]MESH: Humans MESH: Child Preschool medicine.disease MESH: Repressor Proteins / genetics MESH: Male Repressor Proteins 030104 developmental biology Endocrinology MESH: Chromosomes Human Pair 8 / genetics MESH: Dwarfism / physiopathology MESH: Intellectual Disability / physiopathology Human medicine MESH: Intellectual Disability / genetics Verheij syndrome MESH: Female [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology

description

Item does not contain fulltext Verheij syndrome, also called 8q24.3 microdeletion syndrome, is a rare condition characterized by ante- and postnatal growth retardation, microcephaly, vertebral anomalies, joint laxity/dislocation, developmental delay (DD), cardiac and renal defects and dysmorphic features. Recently, PUF60 (Poly-U Binding Splicing Factor 60 kDa), which encodes a component of the spliceosome, has been discussed as the best candidate gene for the Verheij syndrome phenotype, regarding the cardiac and short stature phenotype. To date, only one patient has been reported with a de novo variant in PUF60 that probably affects function (c.505C>T leading to p.(His169Tyr)) associated with DD, microcephaly, craniofacial and cardiac defects. Additional patients were required to confirm the pathogenesis of this association and further delineate the clinical spectrum. Here we report five patients with de novo heterozygous variants in PUF60 identified using whole exome sequencing. Variants included a splice-site variant (c.24+1G>C), a frameshift variant (p.(Ile136Thrfs*31)), two nonsense variants (p.(Arg448*) and p.(Lys301*)) and a missense change (p.(Val483Ala)). All six patients with a PUF60 variant (the five patients of the present study and the unique reported patient) have the same core facial gestalt as 8q24.3 microdeletions patients, associated with DD. Other findings include feeding difficulties (3/6), cardiac defects (5/6), short stature (5/6), joint laxity and/or dislocation (5/6), vertebral anomalies (3/6), bilateral microphthalmia and irido-retinal coloboma (1/6), bilateral optic nerve hypoplasia (2/6), renal anomalies (2/6) and branchial arch defects (2/6). These results confirm that PUF60 is a major driver for the developmental, craniofacial, skeletal and cardiac phenotypes associated with the 8q24.3 microdeletion.

year	journal	country	edition	language
2016-01-25

10.1038/ejhg.2016.133 https://research.rug.nl/en/publications/daa8a5f7-967c-43ac-87f6-c19664c6accc