Comprehensive reanalysis for CNVs in ES data from unsolved rare disease cases results in new diagnoses

SOLVE-RD Consortium; German Demidov; Burcu Yaldiz; José Garcia-Pelaez; Elke de Boer; Nika Schuermans; Liedewei Van de Vondel; Ida Paramonov; Lennart F Johansson; Francesco Musacchia; Elisa Benetti; Gemma Bullich; Karolis Sablauskas; Sergi Beltran; Christian Gilissen; Alexander Hoischen; Stephan Ossowski; Richarda de Voer; Katja Lohmann; Carla Oliveira; Ana Topf; Lisenka E L M Vissers; Steven Laurie

doi:10.1038/s41525-024-00436-6

Comprehensive reanalysis for CNVs in ES data from unsolved rare disease cases results in new diagnoses

SOLVE-RD Consortium
, German Demidov^*
, Burcu Yaldiz
, José Garcia-Pelaez
, Elke de Boer
, Nika Schuermans
, Liedewei Van de Vondel
, Ida Paramonov
, Lennart F Johansson
, Francesco Musacchia
, Elisa Benetti
, Gemma Bullich
, Karolis Sablauskas
, Sergi Beltran
, Christian Gilissen
, Alexander Hoischen
, Stephan Ossowski
, Richarda de Voer
, Katja Lohmann
, Carla Oliveira

Ana Topf, Lisenka E L M Vissers, Steven Laurie^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

We report the results of a comprehensive copy number variant (CNV) reanalysis of 9171 exome sequencing datasets from 5757 families affected by a rare disease (RD). The data reanalysed was extremely heterogeneous, having been generated using 28 different enrichment kits by 42 different research groups across Europe partnering in the Solve-RD project. Each research group had previously undertaken their own analysis of the data but failed to identify disease-causing variants. We applied three CNV calling algorithms to maximise sensitivity, and rare CNVs overlapping genes of interest, provided by four partner European Reference Networks, were taken forward for interpretation by clinical experts. This reanalysis has resulted in a molecular diagnosis being provided to 51 families in this sample, with ClinCNV performing the best of the three algorithms. We also identified partially explanatory pathogenic CNVs in a further 34 individuals. This work illustrates the value of reanalysing ES cold cases for CNVs.

Original language	English
Article number	49
Number of pages	24
Journal	npj Genomic Medicine
Volume	9
DOIs	https://doi.org/10.1038/s41525-024-00436-6
Publication status	Published - 26-Oct-2024

Keywords

Whole exome sequencing (WES)
Copy number variation
Rare disease
REANALYSIS

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Comprehensive reanalysis for CNVs in ES dataFinal publisher's version, 3.06 MBLicence: CC BY

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SOLVE-RD Consortium, Demidov, G., Yaldiz, B., Garcia-Pelaez, J., de Boer, E., Schuermans, N., Van de Vondel, L., Paramonov, I., Johansson, L. F., Musacchia, F., Benetti, E., Bullich, G., Sablauskas, K., Beltran, S., Gilissen, C., Hoischen, A., Ossowski, S., de Voer, R., Lohmann, K., ... Laurie, S. (2024). Comprehensive reanalysis for CNVs in ES data from unsolved rare disease cases results in new diagnoses. npj Genomic Medicine, 9, Article 49. https://doi.org/10.1038/s41525-024-00436-6

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title = "Comprehensive reanalysis for CNVs in ES data from unsolved rare disease cases results in new diagnoses",

abstract = "We report the results of a comprehensive copy number variant (CNV) reanalysis of 9171 exome sequencing datasets from 5757 families affected by a rare disease (RD). The data reanalysed was extremely heterogeneous, having been generated using 28 different enrichment kits by 42 different research groups across Europe partnering in the Solve-RD project. Each research group had previously undertaken their own analysis of the data but failed to identify disease-causing variants. We applied three CNV calling algorithms to maximise sensitivity, and rare CNVs overlapping genes of interest, provided by four partner European Reference Networks, were taken forward for interpretation by clinical experts. This reanalysis has resulted in a molecular diagnosis being provided to 51 families in this sample, with ClinCNV performing the best of the three algorithms. We also identified partially explanatory pathogenic CNVs in a further 34 individuals. This work illustrates the value of reanalysing ES cold cases for CNVs.",

keywords = "Whole exome sequencing (WES), Copy number variation, Rare disease, REANALYSIS",

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doi = "10.1038/s41525-024-00436-6",

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SOLVE-RD Consortium, Demidov, G, Yaldiz, B, Garcia-Pelaez, J, de Boer, E, Schuermans, N, Van de Vondel, L, Paramonov, I, Johansson, LF, Musacchia, F, Benetti, E, Bullich, G, Sablauskas, K, Beltran, S, Gilissen, C, Hoischen, A, Ossowski, S, de Voer, R, Lohmann, K, Oliveira, C, Topf, A, Vissers, LELM & Laurie, S 2024, 'Comprehensive reanalysis for CNVs in ES data from unsolved rare disease cases results in new diagnoses', npj Genomic Medicine, vol. 9, 49. https://doi.org/10.1038/s41525-024-00436-6

TY - JOUR

T1 - Comprehensive reanalysis for CNVs in ES data from unsolved rare disease cases results in new diagnoses

AU - SOLVE-RD Consortium

AU - Demidov, German

AU - Yaldiz, Burcu

AU - Garcia-Pelaez, José

AU - de Boer, Elke

AU - Schuermans, Nika

AU - Van de Vondel, Liedewei

AU - Paramonov, Ida

AU - Johansson, Lennart F

AU - Musacchia, Francesco

AU - Benetti, Elisa

AU - Bullich, Gemma

AU - Sablauskas, Karolis

AU - Beltran, Sergi

AU - Gilissen, Christian

AU - Hoischen, Alexander

AU - Ossowski, Stephan

AU - de Voer, Richarda

AU - Lohmann, Katja

AU - Oliveira, Carla

AU - Topf, Ana

AU - Vissers, Lisenka E L M

AU - Laurie, Steven

PY - 2024/10/26

Y1 - 2024/10/26

N2 - We report the results of a comprehensive copy number variant (CNV) reanalysis of 9171 exome sequencing datasets from 5757 families affected by a rare disease (RD). The data reanalysed was extremely heterogeneous, having been generated using 28 different enrichment kits by 42 different research groups across Europe partnering in the Solve-RD project. Each research group had previously undertaken their own analysis of the data but failed to identify disease-causing variants. We applied three CNV calling algorithms to maximise sensitivity, and rare CNVs overlapping genes of interest, provided by four partner European Reference Networks, were taken forward for interpretation by clinical experts. This reanalysis has resulted in a molecular diagnosis being provided to 51 families in this sample, with ClinCNV performing the best of the three algorithms. We also identified partially explanatory pathogenic CNVs in a further 34 individuals. This work illustrates the value of reanalysing ES cold cases for CNVs.

AB - We report the results of a comprehensive copy number variant (CNV) reanalysis of 9171 exome sequencing datasets from 5757 families affected by a rare disease (RD). The data reanalysed was extremely heterogeneous, having been generated using 28 different enrichment kits by 42 different research groups across Europe partnering in the Solve-RD project. Each research group had previously undertaken their own analysis of the data but failed to identify disease-causing variants. We applied three CNV calling algorithms to maximise sensitivity, and rare CNVs overlapping genes of interest, provided by four partner European Reference Networks, were taken forward for interpretation by clinical experts. This reanalysis has resulted in a molecular diagnosis being provided to 51 families in this sample, with ClinCNV performing the best of the three algorithms. We also identified partially explanatory pathogenic CNVs in a further 34 individuals. This work illustrates the value of reanalysing ES cold cases for CNVs.

KW - Whole exome sequencing (WES)

KW - Copy number variation

KW - Rare disease

KW - REANALYSIS

U2 - 10.1038/s41525-024-00436-6

DO - 10.1038/s41525-024-00436-6

M3 - Article

C2 - 39461972

SN - 2056-7944

VL - 9

JO - npj Genomic Medicine

JF - npj Genomic Medicine

M1 - 49

ER -

Comprehensive reanalysis for CNVs in ES data from unsolved rare disease cases results in new diagnoses

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Keywords

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