Successful application of genome sequencing in a diagnostic setting: 1007 index cases from a clinically heterogeneous cohort

Bertoli‐Avella, Aida M.; Beetz, Christian; Ameziane, Najim; Rocha, María Eugenia; Guatibonza, Pilar; Pereira, Catarina; Calvo, María Teresa Muñoz; Herrera-Ordonez, Natalia; Segura-Castel, Monica; Diego‐Alvarez, Dan; Zawada, Michal; Kandaswamy, Krishna Kumar; Werber, Martin; Paknia, Omid; Zielske, Susan; Ugrinovski, Dimitar; Warnack, Gitte; Kampe, Kapil; Iurașcu, Marius-Ionuț; Cozma, Claudia; Vogel, Florian; Alhashem, Amal; Hertecant, Jozef; Al‐Shamsi, Aisha M.; Alswaid, Abdulrahman; Eyaid, Wafaa; Mutairi, Fuad Al; Alfares, Ahmed; Albalwi, Mohammed; Alfadhel, Majid; Al‐Sannaa, Nouriya; Reardon, William; Alanay, Yasemin; Rolfs, Arndt; Bauer, Péter

doi:10.1038/s41431-020-00713-9

Cited by 72 publications

(48 citation statements)

References 42 publications

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“…When carrying out GS, genomic DNA was fragmented by sonication, and Illumina adapters were ligated to generated fragments for subsequent sequencing on the HiSeqX platform (Illumina) to yield an average coverage depth of at least 30×. Data analysis, including base calling, de-multiplexing, alignment to the hg19 human reference genome (Genome Reference Consortium GRCh37), and variant calling, was performed using the HiSeq Analysis Software v2.0 pipelines (Illumina, Inc., San Diego, CA), as previously described 8 (Supplementary information ).…”

Section: Methodsmentioning

confidence: 99%

Combining exome/genome sequencing with data repository analysis reveals novel gene–disease associations for a wide range of genetic disorders

Bertoli‐Avella

Kandaswamy

Khan

et al. 2021

Genetics in Medicine

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Purpose Within this study, we aimed to discover novel gene–disease associations in patients with no genetic diagnosis after exome/genome sequencing (ES/GS). Methods We followed two approaches: (1) a patient-centered approach, which after routine diagnostic analysis systematically interrogates variants in genes not yet associated to human diseases; and (2) a gene variant centered approach. For the latter, we focused on de novo variants in patients that presented with neurodevelopmental delay (NDD) and/or intellectual disability (ID), which are the most common reasons for genetic testing referrals. Gene–disease association was assessed using our data repository that combines ES/GS data and Human Phenotype Ontology terms from over 33,000 patients. Results We propose six novel gene–disease associations based on 38 patients with variants in the BLOC1S1, IPO8, MMP15, PLK1, RAP1GDS1, and ZNF699 genes. Furthermore, our results support causality of 31 additional candidate genes that had little published evidence and no registered OMIM phenotype (56 patients). The phenotypes included syndromic/nonsyndromic NDD/ID, oral–facial–digital syndrome, cardiomyopathies, malformation syndrome, short stature, skeletal dysplasia, and ciliary dyskinesia. Conclusion Our results demonstrate the value of data repositories which combine clinical and genetic data for discovering and confirming gene–disease associations. Genetic laboratories should be encouraged to pursue such analyses for the benefit of undiagnosed patients and their families.

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Section: Methodsmentioning

confidence: 99%

Combining exome/genome sequencing with data repository analysis reveals novel gene–disease associations for a wide range of genetic disorders

Bertoli‐Avella

Kandaswamy

Khan

et al. 2021

Genetics in Medicine

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“…GS was performed as described previously 7 . X‐inactivation analysis was performed by the Rare & Inherited Disease Genomic Laboratory in London, U.K., using blood samples from four females (V‐2, V‐13, IV‐2, IV‐14, Figure 1).…”

Section: Methodsmentioning

confidence: 99%

An X‐linked syndrome with severe neurodevelopmental delay, hydrocephalus, and early lethality caused by a missense variation in the OTUD5 gene

et al. 2020

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We describe an X‐linked syndrome in 13 male patients from a single family with three generations affected. Patients presented prenatally or during the neonatal period with intrauterine growth retardation, ventriculomegaly, hydrocephalus, hypotonia, congenital heart defects, hypospadias, and severe neurodevelopmental delay. The disease is typically fatal during infancy, mainly due to sepsis (pneumonias). Female carriers are asymptomatic. We performed genome sequencing in four individuals and identified a unique candidate variant in the OTUD5 gene (NM_017602.3:c.598G > A, p.Glu200Lys). The variant cosegregated with the disease in 10 tested individuals. OTUD5 was considered as a candidate gene based on two previous missense variants detected in patients with intellectual disability. In conclusion, we define a syndrome associated with OTUD5 defects and add compelling evidence of genotype–phenotype association. This finding ended the long diagnostic odyssey of this family.

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“…Of note, WGS is even more comprehensive than WES and may detect disease-causing variants in deep intronic or relevant regulatory regions of dystonia genes that would be overlooked by sequencing exons alone. Indeed, the merits of using WGS even as a first-tier stand-alone genetic test are being increasingly recognized (Lionel et al 2018;Kumar et al 2019;Bertoli-Avella et al 2021). The conventional practice includes sequential testing that resorts to WGS only in patients who remain without a diagnosis after several other variant detection strategies have been exhausted [with reported medians of three tests and over 5000 US$ costs per patient (Lionel et al 2018)].…”

Section: Testing Methodsmentioning

confidence: 99%

“…The conventional practice includes sequential testing that resorts to WGS only in patients who remain without a diagnosis after several other variant detection strategies have been exhausted [with reported medians of three tests and over 5000 US$ costs per patient (Lionel et al 2018)]. Clearly, this approach leads to a significant diagnostic delay that may average 5 years and in extreme cases reach 50 years (Bertoli-Avella et al 2021).…”

Section: Testing Methodsmentioning

confidence: 99%

The importance of genetic testing for dystonia patients and translational research

2021

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Genetic testing through a variety of methods is a fundamental but underutilized approach for establishing the precise genetic diagnosis in patients with heritable forms of dystonia. Our knowledge of numerous dystonia-related genes, variants that they may contain, associated clinical presentations, and molecular disease mechanism may have significant translational potential for patients with genetically confirmed dystonia or their family members. Importantly, genetic testing permits the assembly of patient cohorts pertinent for dystonia-related research and developing therapeutics. Here we review the genetic testing approaches relevant to dystonia patients, and summarize and illustrate the multifold benefits of establishing an accurate molecular diagnosis for patients imminently or for translational research in the long run.

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Successful application of genome sequencing in a diagnostic setting: 1007 index cases from a clinically heterogeneous cohort

Cited by 72 publications

References 42 publications

Combining exome/genome sequencing with data repository analysis reveals novel gene–disease associations for a wide range of genetic disorders

Combining exome/genome sequencing with data repository analysis reveals novel gene–disease associations for a wide range of genetic disorders

An X‐linked syndrome with severe neurodevelopmental delay, hydrocephalus, and early lethality caused by a missense variation in the OTUD5 gene

The importance of genetic testing for dystonia patients and translational research

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