The use of targeted exome sequencing in genetic diagnosis of young patients with severe hypercholesterolemia

Abstract Background Large-scale genomic analyses have provided insight into the genetic complexity of short stature (SS); however, only a portion of genetic causes have been identified. In this study, we identified disease-causing mutations in a cohort of Korean patients with suspected syndromic SS by targeted exome sequencing (TES). Methods Thirty-four patients in South Korea with suspected syndromic disorders based on abnormal growth and dysmorphic facial features, developmental delay, or accompanying anomalies were enrolled in 2018–2020 and evaluated by TES. Results For 17 of 34 patients with suspected syndromic SS, a genetic diagnosis was obtained by TES. The mean SDS values for height, IGF-1, and IGFBP-3 for these 17 patients were − 3.27 ± 1.25, − 0.42 ± 1.15, and 0.36 ± 1.31, respectively. Most patients displayed distinct facial features (16/17) and developmental delay or intellectual disability (12/17). In 17 patients, 19 genetic variants were identified, including 13 novel heterozygous variants, associated with 15 different genetic diseases, including many inherited rare skeletal disorders and connective tissue diseases (e.g., cleidocranial dysplasia, Hajdu–Cheney syndrome, Sheldon–Hall, acromesomelic dysplasia Maroteaux type, and microcephalic osteodysplastic primordial dwarfism type II). After re-classification by clinical reassessment, including family member testing and segregation studies, 42.1% of variants were pathogenic, 42.1% were likely pathogenic variant, and 15.7% were variants of uncertain significance. Ultra-rare diseases accounted for 12 out of 15 genetic diseases (80%). Conclusions A high positive result from genetic testing suggests that TES may be an effective diagnostic approach for patients with syndromic SS, with implications for genetic counseling. These results expand the mutation spectrum for rare genetic diseases related to SS in Korea.

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Somatic mutations in young-onset colorectal cancer unrelated to hereditary syndromes: A comparative study using high-depth targeted exome sequencing.

Journal of Clinical Oncology ◽

10.1200/jco.2015.33.3_suppl.623 ◽

2015 ◽

Vol 33 (3_suppl) ◽

pp. 623-623

Author(s):

Y. Nancy You ◽

Kyle Chang ◽

Ken Chen ◽

Amir Mehdizadeh ◽

Amanda Cuddy ◽

...

Keyword(s):

Colorectal Cancer ◽

Exome Sequencing ◽

Young Patients ◽

Cancer Therapeutics ◽

Metastatic Tumor ◽

Cancer Center ◽

Young Onset ◽

Targeted Exome Sequencing ◽

Hereditary Syndromes ◽

Depth Analysis

623 Background: Colorectal cancer (CRC) is being increasingly diagnosed among young adults, but known hereditary syndromes do not account for the majority of these cases. Young patients often present with metastatic disease and exhibit aggressive clinical courses. We aimed to elucidate the potentially unique biology of young-onset CRC. Methods: Patients diagnosed with metastatic CRC prior to age 40 without a known predisposing syndrome (young-onset) were compared to similar patients diagnosed after age 60 (later-onset). Primary and/or metastatic tumor tissues from 19 young- and 51 later-onset patients underwent targeted exome sequencing on a panel of 200 genes using Illumina HiSeq2000 performed by the Institute of Personalized Cancer Therapeutics of MD Anderson Cancer Center. Sequencing was to an average depth of 800x; single nucleotide variations (SNVs) were called according to in-house algorithms. Results: The median age of patients with young-onset CRCs was 34 years (interquartile range: 31-37), while that of later-onset CRCs was 66 years (IQR: 62- 72). The primary CRC was in the rectum in 30% of the young- vs. 16% of the later-onset cases. The overall mutational rate as measured by the number of SNVs per patient (median: 7 vs. 9) did not differ significantly between the groups. However, the median allelic frequency of SNVs was higher in the young-onset group (0.34 vs. 0.17%), suggesting differing patterns of tumor heterogeneity. Genes known to be associated with CRC carcinogenesis were mutated at different proportions (Table); SMAD4, mismatch repair genes (MSH6, MLH1, MSH2), ARID1A, IGF1R and KITappear to be more frequently mutated among the young. Conclusions: This exploratory study suggests that the somatic mutation profiles are distinct between young- vs. later-onset CRCs. More in-depth analysis of the genomic landscape of young-onset CRCs may reveal distinct and novel therapeutic avenues. [Table: see text]

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Targeted exome sequencing resolves allelic and the genetic heterogeneity in the genetic diagnosis of nephronophthisis-related ciliopathy

Experimental & Molecular Medicine ◽

10.1038/emm.2016.63 ◽

2016 ◽

Vol 48 (8) ◽

pp. e251-e251 ◽

Cited By ~ 9

Author(s):

Hee Gyung Kang ◽

Hyun Kyung Lee ◽

Yo Han Ahn ◽

Je-Gun Joung ◽

Jaeyong Nam ◽

...

Keyword(s):

Exome Sequencing ◽

Genetic Heterogeneity ◽

Genetic Diagnosis ◽

Targeted Exome Sequencing

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P.109 Diagnostic Yield of Targeted Exome Sequencing in West Syndrome

Canadian Journal of Neurological Sciences / Journal Canadien des Sciences Neurologiques ◽

10.1017/cjn.2021.385 ◽

2021 ◽

Vol 48 (s3) ◽

pp. S50-S50

Author(s):

M Parfyonov ◽

I Guella ◽

DM Evans ◽

S Adam ◽

C DeGuzman ◽

...

Keyword(s):

Exome Sequencing ◽

Genetic Heterogeneity ◽

High Throughput Sequencing ◽

De Novo ◽

Diagnostic Yield ◽

Genetic Diagnosis ◽

West Syndrome ◽

Global Developmental Delay ◽

Targeted Exome Sequencing ◽

Ion Proton

Background: West syndrome (WS) is characterized by the onset of epileptic spasms usually within the first year of life. Global developmental delay with/without regression is common. Advances in high-throughput sequencing have supported the genetic heterogeneity of this condition. To better understand the genetic causes of this disorder, we investigated the results of targeted exome sequencing in 29 patients with WS. Methods: Whole exome sequencing (WES) was performed on an Ion ProtonTM and variant reporting was restricted to sequences of 620 known epilepsy genes. Diagnostic yield and treatment impact are described for 29 patients with WS. Results: A definitely/likely diagnosis was made in 10 patients (34%), which included 10 different genes (ALG13, PAFAH1B1, SLC35A2, DYNC1H1, ADSL, DEPDC5, ARX, CDKL5, SCN8A, STXBP1) known to be associated with epilepsy or WS. Most variants were de novo dominant (X-linked/autosomal) except for ARX (X-linked recessive) and ADSL (autosomal recessive). 4 out of 10 (40%) had a genetic diagnosis with potential treatment implications. Conclusions: These results emphasize the genetic heterogeneity of WS. The high diagnostic yield, along with the significant genetic variability, and the potential for treatment impact, supports the early use of this testing in patients with unexplained WS.

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GW26-e2506 Genetic diagnosis of familial hypercholesterolemia by targeted exome sequencing

Journal of the American College of Cardiology ◽

10.1016/j.jacc.2015.06.311 ◽

2015 ◽

Vol 66 (16) ◽

pp. C78

Author(s):

Wenfeng Wu ◽

Lvya Wang

Keyword(s):

Exome Sequencing ◽

Familial Hypercholesterolemia ◽

Genetic Diagnosis ◽

Targeted Exome Sequencing

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Targeted Exome Sequencing Provided Comprehensive Genetic Diagnosis of Congenital Anomalies of the Kidney and Urinary Tract

Journal of Clinical Medicine ◽

10.3390/jcm9030751 ◽

2020 ◽

Vol 9 (3) ◽

pp. 751 ◽

Cited By ~ 1

Author(s):

Yo Han Ahn ◽

Chung Lee ◽

Nayoung K. D. Kim ◽

Eujin Park ◽

Hee Gyung Kang ◽

...

Keyword(s):

Urinary Tract ◽

Exome Sequencing ◽

Congenital Anomalies ◽

Genetic Diagnosis ◽

Copy Number Variations ◽

Single Nucleotide Variants ◽

Korean Children ◽

Targeted Exome Sequencing ◽

Genetic Causes ◽

Pathogenic Variants

Congenital anomalies of the kidney and urinary tract (CAKUT) are the most common cause of chronic kidney disease in children. The search for genetic causes of CAKUT has led to genetic diagnosis in approximately 5–20 % of CAKUT patients from Western countries. In this study, genetic causes of CAKUT in Korean children were sought using targeted exome sequencing (TES) of 60 genes reported to cause CAKUT in human or murine models. We identified genetic causes in 13.8% of the 94 recruited patients. Pathogenic single nucleotide variants of five known disease-causing genes, HNF1B, PAX2, EYA1, UPK3A, and FRAS1 were found in 7 cases. Pathogenic copy number variations of 6 patients were found in HNF1B, EYA1, and CHD1L. Genetic abnormality types did not significantly differ according to CAKUT phenotypes. Patients with pathogenic variants of targeted genes had syndromic features more frequently than those without (p < 0.001). This is the first genetic analysis study of Korean patients with CAKUT. Only one-seventh of patients were found to have pathogenic mutations in known CAKUT-related genes, indicating that there are more CAKUT-causing genes or environmental factors to discover.

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GW27-e0586 Identification by targeted exome sequencing of gene defect responsible for young patients with severe hypercholesterolemia

Journal of the American College of Cardiology ◽

10.1016/j.jacc.2016.07.700 ◽

2016 ◽

Vol 68 (16) ◽

pp. C186

Author(s):

Jiang Long ◽

Long Jiang ◽

Minhua Wen ◽

Renqiang Yang ◽

Kui Hong ◽

...

Keyword(s):

Exome Sequencing ◽

Young Patients ◽

Gene Defect ◽

Targeted Exome Sequencing

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Genetics Evaluation of Targeted Exome Sequencing in 223 Chinese Probands With Genetic Skeletal Dysplasias

Frontiers in Cell and Developmental Biology ◽

10.3389/fcell.2021.715042 ◽

2021 ◽

Vol 9 ◽

Author(s):

Shanshan Lv ◽

Jiao Zhao ◽

Lei Xi ◽

Xiaoyun Lin ◽

Chun Wang ◽

...

Keyword(s):

Genetic Counseling ◽

Exome Sequencing ◽

Bone Growth ◽

Genetic Diagnosis ◽

Molecular Diagnostic ◽

Skeletal Dysplasias ◽

Targeted Exome Sequencing ◽

Pathogenic Variants ◽

Prenatal Genetic Diagnosis ◽

Growth Abnormalities

Genetic skeletal dysplasias (GSDs) are a type of disease with complex phenotype and high heterogeneity, characterized by cartilage and bone growth abnormalities. The variable phenotypes of GSD make clinical diagnosis difficult. To explore the clinical utility of targeted exome sequencing (TES) in the diagnosis of GSD, 223 probands with suspected GSD were enrolled for TES with a panel of 322 known disease-causing genes. After bioinformatics analysis, all candidate variants were prioritized by pathogenicity. Sanger sequencing was used to verify candidate variants in the probands and parents and to trace the source of variants in family members. We identified the molecular diagnoses for 110/223 probands from 24 skeletal disorder groups and confirmed 129 pathogenic/likely pathogenic variants in 48 genes. The overall diagnostic rate was 49%. The molecular diagnostic results modified the diagnosis in 25% of the probands, among which mucopolysaccharidosis and spondylo-epi-metaphyseal dysplasias were more likely to be misdiagnosed. The clinical management of 33% of the probands also improved; 21 families received genetic counseling; 4 families accepted prenatal genetic diagnosis, 1 of which was detected to carry pathogenic variants. The results showed that TES achieved a high diagnostic rate for GSD, helping clinicians confirm patients’ molecular diagnoses, formulate treatment directions, and carry out genetic counseling. TES could be an economical diagnostic method for patients with GSD.

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