Clinical Whole-Exome Sequencing for the Diagnosis of Mendelian Disorders

Yang, Yaping; Muzny, Donna M.; Reid, Jeffrey G.; Bainbridge, Matthew N.; Willis, Alecia; Ward, Patricia A.; Braxton, Alicia; Beuten, Joke; Xia, Fan; Niu, Zhiyv; Hardison, Matthew T.; Person, Richard; Bekheirnia, Mir Reza; Leduc, Magalie S.; Kirby, Amelia; Pham, Peter; Scull, Jennifer; Wang, Min; Ding, Yan; Plon, Sharon E.; Lupski, James R.; Beaudet, Arthur L.; Gibbs, Richard A.; Eng, Christine M.

doi:10.1056/nejmoa1306555

Cited by 1,712 publications

(1,539 citation statements)

References 33 publications

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“…The 27% diagnostic yield included the 256 patients with one pathogenic and one VUS in the same LGMD gene since it is most likely these VUSs are likely pathogenic as the patients show clinical symptoms and no other variant was identified in the same or any other gene. The diagnostic yield of our study is slightly higher than some previous exome sequencing studies in neurological disorders, even with a substantial patient cohort recruited based on specific disease phenotypes 41, 42. This suggests the importance of using screening criteria of disease‐specific clinical information carefully to judge the type of NGS‐diagnostic testing for patient recruitment (fig.…”

Section: Discussionmentioning

confidence: 65%

Genetic landscape and novel disease mechanisms from a large LGMD cohort of 4656 patients

Nallamilli

Chakravorty

Kesari

et al. 2018

Ann Clin Transl Neurol

129

148

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ObjectiveLimb‐girdle muscular dystrophies (LGMDs), one of the most heterogeneous neuromuscular disorders (NMDs), involves predominantly proximal‐muscle weakness with >30 genes associated with different subtypes. The clinical‐genetic overlap among subtypes and with other NMDs complicate disease‐subtype identification lengthening diagnostic process, increases overall costs hindering treatment/clinical‐trial recruitment. Currently seven LGMD clinical trials are active but still no gene‐therapy‐related treatment is available. Till‐date no nation‐wide large‐scale LGMD sequencing program was performed. Our objectives were to understand LGMD genetic basis, different subtypes’ relative prevalence across US and investigate underlying disease mechanisms.MethodsA total of 4656 patients with clinically suspected‐LGMD across US were recruited to conduct next‐generation sequencing (NGS)‐based gene‐panel testing during June‐2015 to June‐2017 in CLIA‐CAP‐certified Emory‐Genetics‐Laboratory. Thirty‐five LGMD‐subtypes‐associated or LGMD‐like other NMD‐associated genes were investigated. Main outcomes were diagnostic yield, gene‐variant spectrum, and LGMD subtypes’ prevalence in a large US LGMD‐suspected population.ResultsMolecular diagnosis was established in 27% (1259 cases; 95% CI, 26–29%) of the patients with major contributing genes to LGMD phenotypes being: CAPN3(17%), DYSF(16%), FKRP(9%) and ANO5(7%). We observed an increased prevalence of genetically confirmed late‐onset Pompe disease, DNAJB6‐associated LGMD subtype1E and CAPN3‐associated autosomal‐dominant LGMDs. Interestingly, we identified a high prevalence of patients with pathogenic variants in more than one LGMD gene suggesting possible synergistic heterozygosity/digenic/multigenic contribution to disease presentation/progression that needs consideration as a part of diagnostic modality.InterpretationOverall, this study has improved our understanding of the relative prevalence of different LGMD subtypes, their respective genetic etiology, and the changing paradigm of their inheritance modes and novel mechanisms that will allow for improved timely treatment, management, and enrolment of molecularly diagnosed individuals in clinical trials.

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Section: Discussionmentioning

confidence: 65%

Genetic landscape and novel disease mechanisms from a large LGMD cohort of 4656 patients

Nallamilli

Chakravorty

Kesari

et al. 2018

Ann Clin Transl Neurol

129

148

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“…Variants in DDX3X were identified by WES, performed according to previously described methods,5, 6, 13 either on a clinical basis at Baylor Genetics (Females 1–24, Males 1–2, Fetus 1) or on a research basis by the Baylor Hopkins Center for Mendelian Genomics (BHCMG, Females 25–27) or through the Centre de Génétique Humaine, Université de Franche‐Comté (Female 28). Deidentified reporting of aggregated demographic and molecular data for all clinically referred cases was approved by the Institutional Review Board at Baylor College of Medicine (BCM).…”

Section: Methodsmentioning

confidence: 99%

“…Although over 100 genes on the X chromosome were found to be associated with ID in males,2, 3 relatively less is known about X‐linked ID genes in females 4. Whole‐exome sequencing (WES) is finding de novo variants in X‐linked ID genes in females of all ages 5, 6, 7, 8. However, limited information is available regarding such cases.…”

Section: Introductionmentioning

confidence: 99%

Phenotypic expansion in DDX3X – a common cause of intellectual disability in females

Wang

Posey

Rosenfeld

et al. 2018

Ann Clin Transl Neurol

Self Cite

102

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De novo variants in DDX3X account for 1–3% of unexplained intellectual disability (ID) cases and are amongst the most common causes of ID especially in females. Forty‐seven patients (44 females, 3 males) have been described. We identified 31 additional individuals carrying 29 unique DDX3X variants, including 30 postnatal individuals with complex clinical presentations of developmental delay or ID, and one fetus with abnormal ultrasound findings. Rare or novel phenotypes observed include respiratory problems, congenital heart disease, skeletal muscle mitochondrial DNA depletion, and late‐onset neurologic decline. Our findings expand the spectrum of DNA variants and phenotypes associated with DDX3X disorders.

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“…The first of these was reported by the Baylor College of Medical Genetics Laboratory which demonstrated a 25% molecular diagnostic rate for 250 probands with varying indications (although 80% had a neurologic phenotype) 16. Interestingly, when they increased the number of patients to 2000, the diagnostic rate remained 25% 17.…”

Section: Impact Of Next‐generation Sequencing On Rare Disease Diagnosismentioning

confidence: 99%

Utility of whole‐exome sequencing for those near the end of the diagnostic odyssey: time to address gaps in care

et al. 2015

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An accurate diagnosis is an integral component of patient care for children with rare genetic disease. Recent advances in sequencing, in particular whole‐exome sequencing (WES), are identifying the genetic basis of disease for 25–40% of patients. The diagnostic rate is probably influenced by when in the diagnostic process WES is used. The Finding Of Rare Disease GEnes (FORGE) Canada project was a nation‐wide effort to identify mutations for childhood‐onset disorders using WES. Most children enrolled in the FORGE project were toward the end of the diagnostic odyssey. The two primary outcomes of FORGE were novel gene discovery and the identification of mutations in genes known to cause disease. In the latter instance, WES identified mutations in known disease genes for 105 of 362 families studied (29%), thereby informing the impact of WES in the setting of the diagnostic odyssey. Our analysis of this dataset showed that these known disease genes were not identified prior to WES enrollment for two key reasons: genetic heterogeneity associated with a clinical diagnosis and atypical presentation of known, clinically recognized diseases. What is becoming increasingly clear is that WES will be paradigm altering for patients and families with rare genetic diseases.

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Clinical Whole-Exome Sequencing for the Diagnosis of Mendelian Disorders

Cited by 1,712 publications

References 33 publications

Genetic landscape and novel disease mechanisms from a large LGMD cohort of 4656 patients

Genetic landscape and novel disease mechanisms from a large LGMD cohort of 4656 patients

Phenotypic expansion in DDX3X – a common cause of intellectual disability in females

Utility of whole‐exome sequencing for those near the end of the diagnostic odyssey: time to address gaps in care

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