TY - JOUR
T1 - Copy number variants from 4800 exomes contribute to ~7% of genetic diagnoses in movement disorders, muscle disorders and neuropathies
AU - Pennings, M.
AU - Meijer, R.P.P.
AU - Gerrits, M.
AU - Janssen, J.
AU - Pfundt, R.
AU - de Leeuw, N.
AU - Gilissen, C.
AU - Gardeitchik, T.
AU - Schouten, M.
AU - Voermans, N.
AU - van de Warrenburg, B.
AU - Kamsteeg, E.J.
N1 - Funding Information:
This work was in part financially supported by grants from the Netherlands Organization for Scientific Research (916-14-043 to CG). BvdW is supported by grants from Radboud university medical center, Gossweiler Foundation, Michael J. Fox Foundation, ZonMw, NOW, and Hersenstichting.
Publisher Copyright:
© 2023, The Author(s).
PY - 2023/6
Y1 - 2023/6
N2 - Various groups of neurological disorders, including movement disorders and neuromuscular diseases, are clinically and genetically heterogeneous. Diagnostic panel-based exome sequencing is a routine test for these disorders. Despite the success rates of exome sequencing, it results in the detection of causative sequence variants in ‘only’ 25–30% of cases. Copy number variants (CNVs), i.e. deletion or duplications, explain 10–20% of individuals with multisystemic phenotypes, such as co-existing intellectual disability, but may also have a role in disorders affecting a single system (organ), like neurological disorders with normal intelligence. In this study, CNVs were extracted from clinical exome sequencing reports of 4800 probands primarily with a movement disorder, myopathy or neuropathy. In 88 (~2%) probands, phenotype-matching CNVs were detected, representing ~7% of genetically confirmed cases. CNVs varied from involvement of over 100 genes to single exons and explained X-linked, autosomal dominant, or - recessive disorders, the latter due to either a homozygous CNV or a compound heterozygous CNV with a sequence variant on the other allele. CNVs were detected affecting genes where deletions or duplications are established as a common mechanism, like PRKN (in Parkinson’s disease), DMD (in Duchenne muscular dystrophy) and PMP22 (in neuropathies), but also genes in which no intragenic CNVs have been reported to date. Analysis of CNVs as part of panel-based exome sequencing for genetically heterogeneous neurological diseases provides an additional diagnostic yield of ~2% without extra laboratory costs. Therefore it is recommended to perform CNV analysis for movement disorders, muscle disease, neuropathies, or any other single-system disorder.
AB - Various groups of neurological disorders, including movement disorders and neuromuscular diseases, are clinically and genetically heterogeneous. Diagnostic panel-based exome sequencing is a routine test for these disorders. Despite the success rates of exome sequencing, it results in the detection of causative sequence variants in ‘only’ 25–30% of cases. Copy number variants (CNVs), i.e. deletion or duplications, explain 10–20% of individuals with multisystemic phenotypes, such as co-existing intellectual disability, but may also have a role in disorders affecting a single system (organ), like neurological disorders with normal intelligence. In this study, CNVs were extracted from clinical exome sequencing reports of 4800 probands primarily with a movement disorder, myopathy or neuropathy. In 88 (~2%) probands, phenotype-matching CNVs were detected, representing ~7% of genetically confirmed cases. CNVs varied from involvement of over 100 genes to single exons and explained X-linked, autosomal dominant, or - recessive disorders, the latter due to either a homozygous CNV or a compound heterozygous CNV with a sequence variant on the other allele. CNVs were detected affecting genes where deletions or duplications are established as a common mechanism, like PRKN (in Parkinson’s disease), DMD (in Duchenne muscular dystrophy) and PMP22 (in neuropathies), but also genes in which no intragenic CNVs have been reported to date. Analysis of CNVs as part of panel-based exome sequencing for genetically heterogeneous neurological diseases provides an additional diagnostic yield of ~2% without extra laboratory costs. Therefore it is recommended to perform CNV analysis for movement disorders, muscle disease, neuropathies, or any other single-system disorder.
KW - JOINT CONSENSUS RECOMMENDATION
KW - MEDICAL GENETICS
KW - AMERICAN-COLLEGE
KW - DE-NOVO
KW - DELETION
KW - DUPLICATION
KW - STANDARDS
KW - GENOMICS
KW - MICRODUPLICATION
KW - INDIVIDUALS
U2 - 10.1038/s41431-023-01312-0
DO - 10.1038/s41431-023-01312-0
M3 - Article
C2 - 36781956
SN - 1018-4813
VL - 31
SP - 654
EP - 662
JO - European Journal of Human Genetics
JF - European Journal of Human Genetics
IS - 6
ER -