Noninvasive Prenatal Testing for Wilson Disease by Use of Circulating Single-Molecule Amplification and Resequencing Technology (cSMART)

Abstract BACKGROUND Noninvasive prenatal testing (NIPT) for monogenic diseases by use of PCR-based strategies requires precise quantification of mutant fetal alleles circulating in the maternal plasma. The study describes the development and validation of a novel assay termed circulating single-molecule amplification and resequencing technology (cSMART) for counting single allelic molecules in plasma. Here we demonstrate the suitability of cSMART for NIPT, with Wilson Disease (WD) as proof of concept. METHODS We used Sanger and whole-exome sequencing to identify familial ATP7B (ATPase, Cu++ transporting, β polypeptide) gene mutations. For cSMART, single molecules were tagged with unique barcodes and circularized, and alleles were targeted and replicated by inverse PCR. The unique single allelic molecules were identified by sequencing and counted, and the percentage of mutant alleles in the original maternal plasma sample was used to determine fetal genotypes. RESULTS Four families with WD pedigrees consented to the study. Using Sanger and whole-exome sequencing, we mapped the pathogenic ATP7B mutations in each pedigree and confirmed the proband's original diagnosis of WD. After validation of cSMART with defined plasma models mimicking fetal inheritance of paternal, maternal, or both parental mutant alleles, we retrospectively showed in second pregnancies that the fetal genotypes assigned by invasive testing and NIPT were concordant. CONCLUSIONS We developed a reliable and accurate NIPT assay that correctly diagnosed the fetal genotypes in 4 pregnancies at risk for WD. This novel technology has potential as a universal strategy for NIPT of other monogenic disorders, since it requires only knowledge of the parental pathogenic mutations.

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Noninvasive Prenatal Testing of Methylmalonic Acidemia cblC Type Using the cSMART Assay for MMACHC Gene Mutations

Frontiers in Genetics ◽

10.3389/fgene.2021.750719 ◽

2022 ◽

Vol 12 ◽

Author(s):

Weigang Lv ◽

Lili Liang ◽

Xin Chen ◽

Zhuo Li ◽

Desheng Liang ◽

...

Keyword(s):

Prenatal Diagnosis ◽

Sensitivity And Specificity ◽

Single Molecule ◽

Gene Mutations ◽

Prenatal Testing ◽

Maternal Plasma ◽

Methylmalonic Acidemia ◽

Plasma Dna ◽

Noninvasive Prenatal Testing ◽

Monogenic Diseases

Noninvasive prenatal testing (NIPT) for monogenic disorders has been developed in recent years; however, there are still significant technical and analytical challenges for clinical use. The clinical feasibility of NIPT for methylmalonic acidemia cblC type (cblC type MMA) was investigated using our circulating single-molecule amplification and re-sequencing technology (cSMART). Trios molecular diagnosis was performed in 29 cblC type MMA-affected children and their parents by traditional Sanger sequencing. In the second pregnancy, invasive prenatal diagnosis (IPD) of the pathogenic MMACHC gene was used to determine fetal genotypes, and NIPT was performed using a novel MMACHC gene–specific cSMART assay. Maternal–fetal genotypes were deduced based on the mutation ratio in maternal plasma DNA. Concordance of fetal genotypes between IPD and NIPT, and the sensitivity and specificity of NIPT were determined. After removing two cases with a low P value or reads, the concordance ratio for NIPT and IPD was 100.00% (27/27), and the sensitivity and specificity were 100.00% (54.07–100.00%) and 100.00% (83.89–100.00%), respectively. This study demonstrates that NIPT using the cSMART assay for cblC type MMA was accurate in detecting fetal genotypes. cSMART has a potential clinical application as a prenatal diagnosis and screening tool for carrier and low-risk genotypes of cblC type MMA and other monogenic diseases.

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Utility of whole-exome sequencing in detecting novel compound heterozygous mutations in COL7A1 among families with severe recessive dystrophic epidermolysis bullosa in India—implications for diagnosis, prognosis, and prenatal testing

Journal of the American Academy of Dermatology ◽

10.1016/j.jaad.2018.05.1223 ◽

2018 ◽

Vol 79 (3) ◽

pp. AB310

Keyword(s):

Exome Sequencing ◽

Whole Exome Sequencing ◽

Epidermolysis Bullosa ◽

Prenatal Testing ◽

Compound Heterozygous ◽

Dystrophic Epidermolysis Bullosa ◽

Whole Exome ◽

Recessive Dystrophic Epidermolysis Bullosa ◽

Compound Heterozygous Mutations

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Clinical Application of Whole Exome Sequencing for Monogenic Disorders in PICU of China

Frontiers in Genetics ◽

10.3389/fgene.2021.677699 ◽

2021 ◽

Vol 12 ◽

Author(s):

Yingchao Liu ◽

Chanjuan Hao ◽

Kechun Li ◽

Xuyun Hu ◽

Hengmiao Gao ◽

...

Keyword(s):

Exome Sequencing ◽

Critically Ill ◽

Whole Exome Sequencing ◽

Critically Ill Children ◽

Human Phenotype ◽

Children's Hospital ◽

Monogenic Disorders ◽

Whole Exome ◽

Monogenic Diseases ◽

Children’S Hospital

ObjectivesWhole exome sequencing (WES) has been widely used to detect genetic disorders in critically ill children. Relevant data are lacking in pediatric intensive care units (PICUs) of China. This study aimed to investigate the spectrum of monogenic disorders, the diagnostic yield and clinical utility of WES from a PICU in a large children’s hospital of China.MethodsFrom July 2017 to February 2020, WES was performed in 169 critically ill children with suspected monogenic diseases in the PICU of Beijing Children’s Hospital. The clinical features, human phenotype ontology (HPO) terms, and assessment of clinical impact were analyzed.ResultsThe media age of the enrolled children was 10.5 months (range, 1 month to 14.8 years). After WES, a total of 43 patients (25%) were diagnosed with monogenic disorders. The most common categories of diseases were metabolic disease (33%), neuromuscular disease (19%), and multiple deformities (14%). The diagnosis yield of children with “metabolism/homeostasis disorder” and “growth delay” or “ocular anomalies” was higher than that of children without these features. In addition, the diagnosis rate increased when more features were observed in children. The results of WES had an impact on the treatment for 30 cases (70%): (1) change of treatment (n = 11), (2) disease monitoring initiation (n = 18), (3) other systemic evaluation (n = 3), (4) family intervention (n = 2), and (5) rehabilitation and redirection of care toward palliative care (n = 12).ConclusionWES can be used as an effective diagnostic tool in the PICU of China and has an important impact on the treatment of patients with suspected monogenic conditions.

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Whole exome sequencing in unclassified autoinflammatory diseases: more monogenic diseases in the pipeline?

Rheumatology ◽

10.1093/rheumatology/keaa165 ◽

2020 ◽

Author(s):

Can Kosukcu ◽

Ekim Z Taskiran ◽

Ezgi Deniz Batu ◽

Erdal Sag ◽

Yelda Bilginer ◽

...

Keyword(s):

Exome Sequencing ◽

Whole Exome Sequencing ◽

Disease Onset ◽

Cost Effective ◽

Bioinformatic Analysis ◽

Autoinflammatory Diseases ◽

Whole Exome ◽

Monogenic Diseases ◽

Strong Candidate ◽

Generation Sequencing

Abstract Objective Autoinflammatory diseases (AIDs) are characterized by recurrent sterile systemic inflammation attacks. More than half of the patients remain genetically undiagnosed with next-generation sequencing panels for common AIDs. In this study, we aimed to define phenotype-genotype correlations in a cohort of unclassified AID patients via whole exome sequencing (WES). Methods Patients with features of AIDs were included in this study followed in the Department of Pediatric Rheumatology at Hacettepe University. They were first screened for MEFV with Sanger sequencing and then WES performed for the patients with clinically insignificant results. Pre-analysis of WES data was done by considering the 13 most common AID-related genes. Further bioinformatic analysis was performed if the patient remained genetically undiagnosed. Results The median age at disease onset was 1.2 years (range 0.2–16) and at the time of study recruitment was 14 years (range 3.5–17). In our cohort, WES provided a definite or probable disease-causing variant in 4 of 11 patients (36%). Heterozygous mutations for two of these genes were previously associated with neurological defects (ADAM17, TBK1), also homozygous ADAM17 mutations were observed in one family with neonatal inflammatory skin and bowel disease. Besides, two genes (LIG4, RAG1) were associated with immunodeficiency although the patients had presented with inflammatory features. Finally, for one patient, we associated a strong candidate gene (NLRC3) with autoinflammatory features. Conclusion WES strategy is cost-effective and provides substantial results for a selected group of undefined AID patients. Our results will contribute to the spectrum of unclassified AIDs.

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Biliary atresia combined Wilson disease identified by whole exome sequencing in Vietnamese patient with severe liver failure

Medicine ◽

10.1097/md.0000000000028547 ◽

2022 ◽

Vol 101 (2) ◽

pp. e28547

Author(s):

Nguyen Pham Anh Hoa ◽

Nguyen Thi Kim Lien ◽

Nguyen Van Tung ◽

Nguyen Ngoc Lan ◽

Nguyen Thi Phuong Mai ◽

...

Keyword(s):

Liver Failure ◽

Biliary Atresia ◽

Exome Sequencing ◽

Whole Exome Sequencing ◽

Wilson Disease ◽

Severe Liver ◽

Whole Exome

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Prenatal Whole Exome Sequencing Reveals a Novel CDH1 Mutation Associated With Blepharo-Cheilo-Dontic Syndrome

10.21203/rs.3.rs-135776/v1 ◽

2020 ◽

Author(s):

Ying Peng ◽

Li Shu ◽

Hui Xi ◽

Yingchun Luo ◽

Xiaofeng Wang ◽

...

Keyword(s):

Exome Sequencing ◽

Whole Exome Sequencing ◽

Cleft Lip ◽

Single Nucleotide Polymorphism Array ◽

Family Members ◽

Genetic Diagnosis ◽

Prenatal Testing ◽

Chinese Family ◽

Whole Exome ◽

Ultrasound Testing

Abstract Background: The cleft lip with or without palate (CL/P) is the most prevalent congenital craniofacial abnormality. This study aims to provide molecular diagnosis for patients with CL/P in a Chinese family, and then offer suggestions for future pregnancy for this family.Methods: Karyotyping, single nucleotide polymorphism array analysis, whole-exome sequencing (WES), and Sanger sequencing were applied to identify the underlying genetic cause for the clinical phenotypes. The functional effect of the identified mutation was evaluated through immunofluorescent analysis of the expression of wild or mutant protein that was transiently expressed. Non-invasive prenatal testing (NIPT) and ultrasound testing were conducted for a new pregnancy of this family. Results: A novel missense mutation (c.1418T>A/p.(Val473Asp)) in CDH1 was identified in the family members affected with CL/P. Functional analysis showed that this mutation changed the subcellular localization of the protein. The NIPT and ultrasound testing respectively revealed the new pregnancy carried no CDH1 mutation and facial dysmorphic features, and a healthy baby was delivered.Conclusion: The affected family members were diagnosed with a syndromic CL/P called Blepharo-Cheilo-Dontic(BCD) Syndrome. This study identified a novel CDH1 mutation for CL/P, expanded the mutation spectrum, and contributed to the genetic diagnosis and counseling of this disorder. This study also provided an example of the application of NIPT for BCD Syndrome.

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Whole-Exome Sequencing in Critically Ill Neonates and Infants: Diagnostic Yield and Predictability of Monogenic Diagnosis

Neonatology ◽

10.1159/000516890 ◽

2021 ◽

pp. 1-8

Author(s):

Tasja Scholz ◽

Martin Ernst Blohm ◽

Fanny Kortüm ◽

Tatjana Bierhals ◽

Davor Lessel ◽

...

Keyword(s):

Exome Sequencing ◽

Critically Ill ◽

Whole Exome Sequencing ◽

Diagnostic Yield ◽

Human Phenotype ◽

Whole Exome ◽

Monogenic Diseases ◽

Critically Ill Neonates ◽

Neonates And Infants ◽

The Impact

Introduction: Monogenic diseases play an important role in critically ill neonates and infants treated in the intensive care unit. This study aimed to determine the diagnostic yield of whole-exome sequencing (WES) for monogenic diseases and identify phenotypes more likely associated with a genetic etiology. Methods: From March 2017 to 2020, a comprehensive diagnostic workup including WES in a single academic center was performed in 61 unrelated, critically ill neonates and infants with an unknown underlying disease within the first year of life. We conducted 59 trio-WES, 1 duo-WES, and 1 single-WES analyses. Symptoms were classified according to the Human Phenotype Ontology. Results: The overall molecular genetic diagnostic rate within our cohort was 46% (28/61) and 50% (15/30) in the subgroup of preterm neonates. Identifying the genetic cause of disease facilitates individualized management in the majority of patients. A positive or negative predictive power of specific clinical features for a genetic diagnosis could not be observed. Conclusion: WES is a powerful noninvasive diagnostic tool in critically ill neonates and infants with a high diagnostic rate. We recommend initiating WES as early as possible due to the impact on management and family counseling. Recommendations regarding the clinical utility of WES in critically ill neonates and infants should not be based on the phenotype alone. Here, we present a clinical workflow for the application of WES for critically ill neonates and infants in an interdisciplinary setting.

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