Your search keyword '"whole-exome sequencing"' showing total 676 results

1. Whole-exome profiles of inflammatory breast cancer and pathological response to neoadjuvant chemotherapy

Author

François Bertucci, Arnaud Guille, Florence Lerebours, Michele Ceccarelli, Najeeb Syed, José Adélaïde, Pascal Finetti, Naoto T. Ueno, Steven Van Laere, Patrice Viens, Alexandre De Nonneville, Anthony Goncalves, Daniel Birnbaum, Céline Callens, Davide Bedognetti, and Emilie Mamessier

Subjects

Inflammatory breast cancer, Copy number alteration, Mutation, Whole-exome sequencing, Medicine

Abstract

Abstract Background Neoadjuvant chemotherapy (NACT) became a standard treatment strategy for patients with inflammatory breast cancer (IBC) because of high disease aggressiveness. However, given the heterogeneity of IBC, no molecular feature reliably predicts the response to chemotherapy. Whole-exome sequencing (WES) of clinical tumor samples provides an opportunity to identify genomic alterations associated with chemosensitivity. Methods We retrospectively applied WES to 44 untreated IBC primary tumor samples and matched normal DNA. The pathological response to NACT, assessed on operative specimen, distinguished the patients with versus without pathological complete response (pCR versus no-pCR respectively). We compared the mutational profiles, spectra and signatures, pathway mutations, copy number alterations (CNAs), HRD, and heterogeneity scores between pCR versus no-pCR patients. Results The TMB, HRD, and mutational spectra were not different between the complete (N = 13) versus non-complete (N = 31) responders. The two most frequently mutated genes were TP53 and PIK3CA. They were more frequently mutated in the complete responders, but the difference was not significant. Only two genes, NLRP3 and SLC9B1, were significantly more frequently mutated in the complete responders (23% vs. 0%). By contrast, several biological pathways involved in protein translation, PI3K pathway, and signal transduction showed significantly higher mutation frequency in the patients with pCR. We observed a higher abundance of COSMIC signature 7 (due to ultraviolet light exposure) in tumors from complete responders. The comparison of CNAs of the 3808 genes included in the GISTIC regions between both patients’ groups identified 234 genes as differentially altered. The CIN signatures were not differentially represented between the complete versus non-complete responders. Based on the H-index, the patients with heterogeneous tumors displayed a lower pCR rate (11%) than those with less heterogeneous tumors (35%). Conclusions This is the first study aiming at identifying correlations between the WES data of IBC samples and the achievement of pCR to NACT. Our results, obtained in this 44-sample series, suggest a few subtle genomic alterations associated with pathological response. Additional investigations are required in larger series.

Published

2024

2. Uncovering Deletion/Insertion Mutations in Veno-Occlusive Disease with Immunodeficiency Syndrome in An Iranian Family: A Case Report

Author

Parastoo Mohammadi, Mehrdad Noruzinia, Mostafa Ebadi, and Pegah Ghoraeian

Subjects

bioinformatics, mutation, sp110 protein, whole-exome sequencing, veno-occlusive disease with immunodeficiency syndrome, Medicine, Science

Abstract

Veno-occlusive disease with immunodeficiency (VODI) syndrome is a rare genetic disorder characterized by immunesystem irregularities and a significant mortality rate, despite its infrequency. SP110, situated on chromosome 2q37.1,plays a pivotal role in VODI syndrome, and its association with tuberculosis has been extensively studied. Theidentification of SP110 mutations holds promise for accelerating the diagnosis and treatment of VODI syndrome, byproviding a comprehensive panel for diagnosis and potentially leading to targeted therapies. In this case study, weexamined a three-year-old girl born to a consanguineous union who was suspected of having an immunodeficiencydisorder. Whole-exome sequencing (WES) and clinical assessments were conducted to screen for and confirmpotentially pathogenic mutations. The detected mutation was further analyzed using bioinformatics tools to forecastits impact on protein structure. WES analysis revealed a novel deletion-insertion mutation, c.1181-1182delAGinsT,within SP110. Protein analysis indicated substantial structural modifications in the SP110 protein. This study identifieda novel deletion-insertion mutation as a potential contributor to VODI syndrome by affecting the functionality of theSP110 protein. By including various mutations associated with the SP110 gene, this study aimed to expedite diagnosisby creating a comprehensive panel for VODI syndrome.

Published

2024

3. Mitochondrial DNA Depletion Syndrome Caused by RRM2B Gene Mutation: Clinical Characteristics and Genetic Analysis of Two Cases with Different Types (8A and 8B)

Author

DENG Lin, LU Jun

Subjects

rrm2b gene, mitochondrial dna depletion syndrome 8a, mitochondrial dna depletion syndrome 8b, genetic testing, whole-exome sequencing, Medicine

Abstract

RRM2B gene mutation-related diseases can be divided into four types according to genetic pattern and clinical phenotype of mitochondrial DNA depletion syndrome 8A (MTDPS8A), mitochondrial DNA depletion syndrome 8B (MTDPS8B), rod-cone dystrophy, sensorineural deafness, and fanconi-type renal dysfunction (RCDFRD), progressive external ophthalmoplegia with mitochondrial and deletions, autosomal dominant 5 (PEOA5). Among them, MTDPS8A and MTDPS8B are both mitochondrial DNA depletion syndromes with the same genetic pattern, and the clinical phenotypes are complex and heterogeneous in the early stage, making it difficult to identify them. This paper systematically reviewed and analyzed the clinical characteristics, genetic test results, diagnosis and treatment process and other case data of two children diagnosed with MTDPS8A and MTDPS8B, and reviewed relevant literature to summarize the genetic characteristics of these two types, so as to provide diagnostic ideas for future suspected cases and further improve the clinical diagnosis rate of RRM2B mutation-related mitochondrial encephalomyopathy, which also helps to assess the prognosis.

Published

2024

4. Somatic mutational landscape across Indian breast cancer cases by whole exome sequencing

Author

Rahul Kumar, Supriya Awasthi, Dibyabhaba Pradhan, Rakesh Kumar, Harsh Goel, Jay Singh, Imran Haider, S. V. S. Deo, Chitresh Kumar, Anurag Srivastava, Amar Bhatnagar, S. Lakshmi, Paul Augustine, Amar Ranjan, Anita Chopra, Ajay Gogia, Atul Batra, Sandeep Mathur, Goura Kishor Rath, Tanvir Kaur, R. S. Dhaliwal, Aleyamma Mathew, Usha Agrawal, Showket Hussain, and Pranay Tanwar

Subjects

Breast cancer, Whole-exome sequencing, Driver gene, Oncogenic pathway, SBS signature, Medicine, Science

Abstract

Abstract Breast cancer (BC) has emerged as the most common malignancy among females. The genomic profile of BC is diverse in nature and complex due to heterogeneity among various geographically different ethnic groups. The primary objective of this study was to carry out a comprehensive mutational analysis of Indian BC cases by performing whole exome sequencing. The cohort included patients with a median age of 48 years. TTN, TP53, MUC16, SYNE1, and OBSCN were the frequently altered genes found in our cohort. The PIK3CA and KLC3 genes are driver genes implicated in various cellular functions and cargo transportation through microtubules, respectively. Except for CCDC168 and PIK3CA, several gene pairings were found to be significantly linked with co-occurrence. Irrespective of their hormonal receptor status, RTK/RAS was observed with frequently altered signaling pathways. Further analysis of the mutational signature revealed that SBS13, SBS6, and SBS29 were mainly observed in our cohort. This study supplements the discovery of diagnostic biomarkers and provides new therapeutic options for the improved management of BC.

Published

2024

5. Clinical characteristics and genetic analysis of a case of a patient with familial hereditary breast cancer: a case report

Author

Yuan Liu, Jinglin Mao, Longquan Xiang, Xiangyu Zhang, and Zhen Qu

Subjects

Hereditary triple negative breast cancer, Whole-exome sequencing, MT1E, Medicine

Abstract

Abstract Background Breast cancer has emerged as the foremost cause of female mortality worldwide, with triple negative breast cancer accounting for approximately 10–15% of all breast cancer cases. The triple negative breast cancer family has obvious familial heritability, but no potential pathogenic variation was found in BRCA1/2. Case presentation The patient was a 56-year-old woman of Han ethnicity. The clinical characteristics of this patient with breast cancer were summarized, peripheral blood of one normal female and two patients with breast cancer in this family was collected, DNA was extracted, and the potential pathogenic variation was analyzed by whole exome sequencing. The normal female and two patients with breast cancer in this family shared a maternal grandmother. The proband’s right breast mass was punctured, and the biopsy showed invasive carcinoma of the right breast, grade II–III, with necrosis. No mutation was found in BRCA1/2 gene test; immunohistochemical of surgical specimens showed triple negative breast cancer. Three mutation types and 17 gene mutation sites were detected through bioinformatics prediction analysis on the basis of co-segregation of genotype and phenotype within the family and whole exome sequencing results. Combined with the Cancer Genome Atlas database comprehensive analysis, the MT1E c.G107A (p.C36Y) mutation may be a potential pathogenic site. Conclusions Through whole exome sequencing, we identified a total of 17 potential pathogenic mutation loci, none of which have been reported thus far. Therefore, our work expanded the gene mutation spectrum of familial hereditary triple negative breast cancer, which can provide more basis for family genetic counseling.

Published

2024

6. Optimal prenatal genetic diagnostic approach for posterior fossa malformation: karyotyping, copy number variant testing, or whole-exome sequencing?

Author

Zhang Juan, Guo Cuixia, Cui Yuanjie, Liu Yan, Yao Ling, Zhang Tiejuan, Wang Li, Han Jijing, Zhang Guohui, Yan Yousheng, Wu Qingqing, and Sun Lijuan

Subjects

Posterior fossa malformation, Karyotyping, Copy number variant, Whole-exome sequencing, Medicine

Abstract

Abstract Background Posterior fossa malformation (PFM) is a relatively uncommon prenatal brain malformation. Genetic diagnostic approaches, including chromosome karyotyping, copy number variant (CNV) testing, and whole-exome sequencing (WES), have been applied in several cases of fetal structural malformations. However, the clinical value of appropriate genetic diagnostic approaches for different types of PFMs has not been confirmed. Therefore, in this study, we aimed to analyze the value of different combined genetic diagnostic approaches for various types of fetal PFMs. Methods This retrospective study was conducted at Beijing Obstetrics and Gynecology Hospital, Capital Medical University, Beijing Maternal and Child Health Care Hospital. Fifty-one pregnant women diagnosed with fetal PFMs who underwent genetic testing in our hospital from January 1, 2017 to December 31, 2022 were enrolled; women with an isolated enlarged cisterna magna were excluded. All participants were categorized into two groups according to the presence of other abnormalities: isolated and non-isolated PFMs groups. Different combined approaches, including karyotype analysis, CNV testing, and trio-based WES, were used for genetic analysis. The detection rates of karyotype analysis, CNV testing, and WES were measured in the isolated and non-isolated groups. Results In isolated PFMs, pathogenic/likely pathogenic (P/LP) CNVs were detected in four cases (36.36%, 4/11), whereas G-banding karyotyping and WES showed negative results. In non-isolated PFMs, a sequential genetic approach showed a detection rate of 47.5% (19/40); karyotyping revealed aneuploidies in five cases (16.67%, 5/30), CNV testing showed P/LP CNVs in five cases (16.13%, 5/31), and WES identified P/LP variants (in genes CEP20, TMEM67, OFD1, PTPN11, ARID1A, and SMARCA4) in nine cases (40.91%, 9/22). WES showed a detection rate of 83.33% (5/6) in fetuses with Joubert syndrome. Only six patients (five with Blake’s pouch cyst and one with unilateral cerebellar hemisphere dysplasia) survived. Conclusions We recommend CNV testing for fetuses with isolated PFMs. A sequential genetic approach (karyotyping, CNV testing, and WES) may be beneficial in fetuses with non-isolated PFMs. Particularly, we recommend WES as the first-line genetic diagnostic tool for Joubert syndrome.

Published

2024

7. Genetic causes of isolated congenital heart disease

Author

PAN Honggui, XIE Ruibin, LONG Qihai, and ZHU Xingmei

Subjects

congenital heart disease, isolated, genetics, single gene, copy number variation, mosaicism, chromosomal microarray analysis, whole-exome sequencing, Medicine

Abstract

The genetic mechanism of congenital heart disease (CHD) is complex and currently lacks a clear understanding. Literature studies on CHD often report the presence of concurrent extracardiac anomalies, but since the majority of CHD cases are isolated, presenting only a single cardiac malformation, the etiological mechanisms remain uncertain, especially regarding the genetic aspects. Furthermore, there is a scarcity of case studies focusing on isolated CHD, resulting in a lack of comprehensive research data. Therefore, elucidating the genetic causes of isolated CHD and providing guidance for its clinical treatment holds significant research value in the field of CHD. This article reviews the known genetic causes and potential genetic mechanisms of isolated CHD, as well as provides recommendations for genetic testing in patients with isolated CHD.

Published

2024

8. Loss‐of‐function variants in RNA binding motif protein X‐linked induce neuronal defects contributing to amyotrophic lateral sclerosis pathogenesis

Author

Di He, Xinyi He, Dongchao Shen, Liyang Liu, Xunzhe Yang, Meng Hao, Yi Wang, Yi Li, Qing Liu, Mingsheng Liu, Jiucun Wang, Xue Zhang, and Liying Cui

Subjects

ALS, m6A modification, RBMX, single‐cell sequencing, whole‐exome sequencing, Medicine

Abstract

Abstract Despite being one of the most prevalent RNA modifications, the role of N6‐methyladenosine (m6A) in amyotrophic lateral sclerosis (ALS) remains ambiguous. In this investigation, we explore the contribution of genetic defects of m6A‐related genes to ALS pathogenesis. We scrutinized the mutation landscape of m6A genes through a comprehensive analysis of whole‐exome sequencing cohorts, encompassing 508 ALS patients and 1660 population‐matched controls. Our findings reveal a noteworthy enrichment of RNA binding motif protein X‐linked (RBMX) variants among ALS patients, with a significant correlation between pathogenic m6A variants and adverse clinical outcomes. Furthermore, Rbmx knockdown in NSC‐34 cells overexpressing mutant TDP43Q331K results in cell death mediated by an augmented p53 response. Similarly, RBMX knockdown in ALS motor neurons derived from induced pluripotent stem cells (iPSCs) manifests morphological defects and activation of the p53 pathway. Transcriptional analysis using publicly available single‐cell sequencing data from the primary motor cortex indicates that RBMX‐regulated genes selectively influence excitatory neurons and exhibit enrichment in ALS‐implicated pathways. Through integrated analyses, our study underscores the emerging roles played by RBMX in ALS, suggesting a potential nexus between the disease and dysregulated m6A‐mediated mRNA metabolism.

Published

2024

9. Multi-omics analysis of a case of congenital microtia reveals aldob and oxidative stress associated with microtia etiology

Author

Wenbo Liu, Yi Wu, Rulan Ma, Xinxi Zhu, Rui Wang, Lin He, and Maoguo Shu

Subjects

Microtia, Whole-exome sequencing, Label-free proteomics, Rare variants, Oxidative stress, ALDOB, Medicine

Abstract

Abstract Background Microtia is reported to be one of the most common congenital craniofacial malformations. Due to the complex etiology and the ethical barrier of embryonic study, the precise mechanisms of microtia remain unclear. Here we report a rare case of microtia with costal chondrodysplasia based on bioinformatics analysis and further verifications on other sporadic microtia patients. Results One hundred fourteen deleterious insert and deletion (InDel) and 646 deleterious SNPs were screened out by WES, candidate genes were ranked in descending order according to their relative impact with microtia. Label-free proteomic analysis showed that proteins significantly different between the groups were related with oxidative stress and energy metabolism. By real-time PCR and immunohistochemistry, we further verified the candidate genes between other sporadic microtia and normal ear chondrocytes, which showed threonine aspartase, cadherin-13, aldolase B and adiponectin were significantly upregulated in mRNA levels but were significantly lower in protein levels. ROS detection and mitochondrial membrane potential (∆ Ψ m) detection proved that oxidative stress exists in microtia chondrocytes. Conclusions Our results not only spot new candidate genes by WES and label-free proteomics, but also speculate for the first time that metabolism and oxidative stress may disturb cartilage development and this might become therapeutic targets and potential biomarkers with clinical usefulness in the future.

Published

2024

10. Mutational landscape of inflammatory breast cancer

Author

François Bertucci, Florence Lerebours, Michele Ceccarelli, Arnaud Guille, Najeeb Syed, Pascal Finetti, José Adélaïde, Steven Van Laere, Anthony Goncalves, Patrice Viens, Daniel Birnbaum, Emilie Mamessier, Céline Callens, and Davide Bedognetti

Subjects

Inflammatory breast cancer, Copy number alteration, Mutation, Whole-exome sequencing, Medicine

Abstract

Abstract Background Inflammatory breast cancer (IBC) is the most pro-metastatic form of BC. Better understanding of its enigmatic pathophysiology is crucial. We report here the largest whole-exome sequencing (WES) study of clinical IBC samples. Methods We retrospectively applied WES to 54 untreated IBC primary tumor samples and matched normal DNA. The comparator samples were 102 stage-matched non-IBC samples from TCGA. We compared the somatic mutational profiles, spectra and signatures, copy number alterations (CNAs), HRD and heterogeneity scores, and frequencies of actionable genomic alterations (AGAs) between IBCs and non-IBCs. The comparisons were adjusted for the molecular subtypes. Results The number of somatic mutations, TMB, and mutational spectra were not different between IBCs and non-IBCs, and no gene was differentially mutated or showed differential frequency of CNAs. Among the COSMIC signatures, only the age-related signature was more frequent in non-IBCs than in IBCs. We also identified in IBCs two new mutational signatures not associated with any environmental exposure, one of them having been previously related to HIF pathway activation. Overall, the HRD score was not different between both groups, but was higher in TN IBCs than TN non-IBCs. IBCs were less frequently classified as heterogeneous according to heterogeneity H-index than non-IBCs (21% vs 33%), and clonal mutations were more frequent and subclonal mutations less frequent in IBCs. More than 50% of patients with IBC harbored at least one high-level of evidence (LOE) AGA (OncoKB LOE 1–2, ESCAT LOE I–II), similarly to patients with non-IBC. Conclusions We provide the largest mutational landscape of IBC. Only a few subtle differences were identified with non-IBCs. The most clinically relevant one was the higher HRD score in TN IBCs than in TN non-IBCs, whereas the most intriguing one was the smaller intratumor heterogeneity of IBCs.

Published

2024

11. Dual rare genetic diseases in five pediatric patients: insights from next-generation diagnostic methods

Author

Yupeng Liu, Xue Ma, Zhehui Chen, Ruxuan He, Yao Zhang, Hui Dong, Yanyan Ma, Tongfei Wu, Qiao Wang, Yuan Ding, Xiyuan Li, Dongxiao Li, Jinqing Song, Mengqiu Li, Ying Jin, Jiong Qin, and Yanling Yang

Subjects

Genetic disease, Dual molecular diagnoses, Whole-exome sequencing, Methylmalonic acid, Medicine

Abstract

Abstract Background Clinicians traditionally aim to identify a singular explanation for the clinical presentation of a patient; however, in some cases, the diagnosis may remain elusive or fail to comprehensively explain the clinical findings. In recent years, advancements in next-generation sequencing, including whole-exome sequencing, have led to the incidental identification of dual diagnoses in patients. Herein we present the cases of five pediatric patients diagnosed with dual rare genetic diseases. Their natural history and diagnostic process were explored, and lessons learned from utilizing next-generation diagnostic technologies have been reported. Results Five pediatric cases (3 boys, 2 girls) with dual diagnoses were reported. The age at diagnosis was from 3 months to 10 years. The main clinical presentations were psychomotor retardation and increased muscular tension, some accompanied with liver dysfunction, abnormal appearance, precocious puberty, dorsiflexion restriction and varus of both feet, etc. After whole-exome sequencing, nine diseases were confirmed in these patients: Angelman syndrome and Krabbe disease in case 1, Citrin deficiency and Kabuki syndrome in case 2, Homocysteinemia type 2 and Copy number variant in case 3, Isolated methylmalonic acidemia and Niemann-Pick disease type B in case 4, Isolated methylmalonic acidemia and 21-hydroxylase deficiency in case 5. Fifteen gene mutations and 2 CNVs were identified. Four novel mutations were observed, including c.15292de1A in KMT2D, c.159_164inv and c.1427G > A in SLC25A13, and c.591 C > G in MTHFR. Conclusions Our findings underscore the importance of clinicians being vigilant about the significance of historical and physical examination. Comprehensive clinical experience is crucial for identifying atypical clinical features, particularly in cases involving dual rare genetic diseases.

Published

2024

12. Genetic insights into the ‘sandwich fusion’ subtype of Klippel–Feil syndrome: novel FGFR2 mutations identified by 21 cases of whole-exome sequencing

Author

Nanfang Xu, Kan-Lin Hung, Xiaoli Gong, Dongwei Fan, Yinglun Tian, Ming Yan, Yuan Wei, and Shenglin Wang

Subjects

Klippel–Feil syndrome, Atlantoaxial dislocation, Whole-exome sequencing, FGFR2, Medicine

Abstract

Abstract Background Klippel–Feil syndrome (KFS) is a rare congenital disorder characterized by the fusion of two or more cervical vertebrae during early prenatal development. This fusion results from a failure of segmentation during the first trimester. Although six genes have previously been associated with KFS, they account for only a small proportion of cases. Among the distinct subtypes of KFS, “sandwich fusion” involving concurrent fusion of C0-1 and C2-3 vertebrae is particularly noteworthy due to its heightened risk for atlantoaxial dislocation. In this study, we aimed to investigate novel candidate mutations in patients with “sandwich fusion.” Methods We collected and analyzed clinical data from 21 patients diagnosed with “sandwich fusion.” Whole-exome sequencing (WES) was performed, followed by rigorous bioinformatics analyses. Our focus was on the six known KFS-related genes (GDF3, GDF6, MEOX1, PAX1, RIPPLY2, and MYO18). Suspicious mutations were subsequently validated through in vitro experiments. Results Our investigation revealed two novel exonic mutations in the FGFR2 gene, which had not previously been associated with KFS. Notably, the c.1750A > G variant in Exon 13 of FGFR2 was situated within the tyrosine kinase domain of the protein, in close proximity to several established post-translational modification sites. In vitro experiments demonstrated that this certain mutation significantly impacted the function of FGFR2. Furthermore, we identified four heterozygous candidate variants in two genes (PAX1 and MYO18B) in two patients, with three of these variants predicted to have potential clinical significance directly linked to KFS. Conclusions This study encompassed the largest cohort of patients with the unique “sandwich fusion” subtype of KFS and employed WES to explore candidate mutations associated with this condition. Our findings unveiled novel variants in PAX1, MYO18B, and FGFR2 as potential risk mutations specific to this subtype of KFS.

Published

2024

13. Clinicopathological characteristics and genomic profiling in patients with transformed lymphoma: a monocentric retrospective study

Author

Xia Zhao, Haiyan Bian, Fengyun Hao, Shihong Shao, Chuanhong Wu, Qian Zhang, Mingxuan Wu, Zhiqiang Li, and Chengwen Gao

Subjects

Transformed lymphoma, histological transformation, marginal zone lymphoma, clinical features, whole-exome sequencing, Medicine

Abstract

Background Transformed lymphoma occurs when indolent lymphoma transforms into more aggressive lymphoma usually associated with poor prognosis.Methods In this study, we analysed the immunophenotypes, prognostic factors and outcomes of 35 patients with transformed lymphoma from among 306 marginal zone lymphoma (MZL), 544 follicular lymphoma (FL) and 871 chronic lymphocytic leukaemia/small lymphocytic lymphoma (CLL/SLL) cases. In addition, we performed whole-exome sequencing study of seven transformed MZL (tMZL) cases.Results Our results demonstrate that the median time from indolent lymphoma diagnosis to transformed DLBCL was 35 months (range, 14–53 months). The 5-year overall survival (OS) and progression-free survival (PFS) rates after histological transformation (HT) were 50% and 26%, respectively. Kaplan–Meier survival analysis revealed that asynchronous HT and transformed CLL/SLL (tCLL/SLL) were significant adverse prognostic factors for OS after DLBCL HT. We identified mutations involvement in chromatin remodelling (CREBBP and EP300) and regulators of NF-κB signalling (TNFAIP3, BCL10, MYD88, CD79B and CARD11) were affected in tMZL.Conclusion Whole-exome sequencing and copy-number analysis revealed that tMZL derives from the divergent evolution of an ancestral common progenitor clone (CPC). Collectively, this study provides clinicopathological characteristics of three common types of transformed lymphomas and the genetic profile of tMZL with diagnostic and therapeutic implications.

Published

2024

14. Whole‐exome sequencing and copy number alterations analysis in a case of expansive florid cemento‐osseous dysplasia

Author

Carolina Cavaliéri Gomes, Victor Coutinho Bastos, Ahmed El Mouatani, Filipe Fideles Duarte‐Andrade, Nada Jabado, Wagner Henriques deCastro, and Ricardo Santiago Gomez

Subjects

benign fibro‐osseous lesions, CNA, florid cemento‐osseus dysplasia, genetics, mutations, whole‐exome sequencing, Medicine, Medicine (General), R5-920

Abstract

Key Clinical Message Whole‐exome sequencing (WES) analysis of an expansive case florid cemento‐osseus dysplasia were reported for the first time. Also, the new potential candidate genes were reported to expand our knowledge about their molecular pathogenesis. Abstract We report a case of expansive florid cemento‐osseus dysplasia in a 32‐year‐old female patient who presented an expansive tumoral lesion in the anterior mandible. As florid cemento‐osseus dysplasia have only been molecularly investigated using targeted‐sequencing, fragments of the lesion were collected and subjected to molecular investigation using WES to assess somatic mutations as well as copy number alterations. No gains and losses of chromosomal arms or segments longer than 1 Mb were detected. Our findings revealed a pathogenic stopgain variant at the KIF5C gene, a stoploss variant at MAPK10, and missense SNV at COL6A2 at DCDC1, suggesting potential candidate genes associated with florid cemento‐osseus dysplasia.

Published

2024

15. FGFR1 variants contributed to families with tooth agenesis

Author

Siyue Yao, Xi Zhou, Min Gu, Chengcheng Zhang, Oliver Bartsch, Barbara Vona, Liwen Fan, Lan Ma, and Yongchu Pan

Subjects

Tooth agenesis, Whole-exome sequencing, FGFR1, Genetic research, Developmental biology, Medicine, Genetics, QH426-470

Abstract

Abstract Background Tooth agenesis is a common dental anomaly that can substantially affect both the ability to chew and the esthetic appearance of patients. This study aims to identify possible genetic factors that underlie various forms of tooth agenesis and to investigate the possible molecular mechanisms through which human dental pulp stem cells may play a role in this condition. Results Using whole-exome sequencing of a Han Chinese family with non-syndromic tooth agenesis, a rare mutation in FGFR1 (NM_001174063.2: c.103G > A, p.Gly35Arg) was identified as causative and confirmed by Sanger sequencing. Via GeneMatcher, another family with a known variant (NM_001174063.2: c.1859G > A, p.Arg620Gln) was identified and diagnosed with tooth agenesis and a rare genetic disorder with considerable intrafamilial variability. Fgfr1 is enriched in the ectoderm during early embryonic development of mice and showed sustained low expression during normal embryonic development of Xenopus laevis frogs. Functional studies of the highly conserved missense variant c.103G > A showed deleterious effects. FGFR1 (c.103G > A) was overexpressed compared to wildtype and promoted proliferation while inhibiting apoptosis in HEK293 and human dental pulp stem cells. Moreover, the c.103G > A variant was found to suppress the epithelial-mesenchymal transition. The variant could downregulate ID4 expression and deactivate the TGF-beta signaling pathway by promoting the expression of SMAD6 and SMAD7. Conclusion Our research broadens the mutation spectrum associated with tooth agenesis and enhances understanding of the underlying disease mechanisms of this condition.

Published

2023

16. Whole-exome sequencing reveals candidate high-risk susceptibility genes for endometriosis

Author

Susanna Nousiainen, Outi Kuismin, Siiri Reinikka, Roosa Manninen, Sara Khamaiseh, Mari Kuivalainen, Anna Terho, Sari Koivurova, Maarit Niinimäki, Kari Salokas, Markku Varjosalo, Anne Ahtikoski, Ralf Bützow, Outi Lindgren, Outi Uimari, and Pia Vahteristo

Subjects

Endometriosis, Familial predisposition, Whole-exome sequencing, High-grade serous carcinoma, Candidate genes, FGFR4, Medicine, Genetics, QH426-470

Abstract

Abstract Background Endometriosis is a common, chronic disease among fertile-aged women. Disease course may be highly invasive, requiring extensive surgery. The etiology of endometriosis remains elusive, though a high level of heritability is well established. Several low-penetrance predisposing loci have been identified, but high-risk susceptibility remains undetermined. Endometriosis is known to increase the risk of epithelial ovarian cancers, especially of endometrioid and clear cell types. Here, we have analyzed a Finnish family where four women have been diagnosed with surgically verified, severely symptomatic endometriosis and two of the patients also with high-grade serous carcinoma. Results Whole-exome sequencing revealed three rare candidate predisposing variants segregating with endometriosis. The variants were c.1238C>T, p.(Pro413Leu) in FGFR4, c.5065C>T, p.(Arg1689Trp) in NALCN, and c.2086G>A, p.(Val696Met) in NAV2. The only variant predicted deleterious by in silico tools was the one in FGFR4. Further screening of the variants in 92 Finnish endometriosis and in 19 endometriosis–ovarian cancer patients did not reveal additional carriers. Histopathology, positive p53 immunostaining, and genetic analysis supported the high-grade serous subtype of the two tumors in the family. Conclusions Here, we provide FGFR4, NALCN, and NAV2 as novel high-risk candidate genes for familial endometriosis. Our results also support the association of endometriosis with high-grade serous carcinoma. Further studies are required to validate the findings and to reveal the exact pathogenesis mechanisms of endometriosis. Elucidating the genetic background of endometriosis defines the etiology of the disease and provides opportunities for expedited diagnostics and personalized treatments.

Published

2023

17. Identification of two novel SALL1 mutations in chinese families with townes-brocks syndrome and literature review

Author

Zhendong Wang, Zhenfu Sun, Yujie Diao, Zhouyang Wang, Xiangdong Yang, Bei Jiang, Yumei Wu, and Guangyi Liu

Subjects

Townes-Brocks syndrome, Whole-exome sequencing, SALL1, Alphafold, Genotype, Renal phenotype, Medicine

Abstract

Abstract Background Townes-Brocks syndrome is a rare autosomal dominant genetic syndrome caused by mutations in SALL1. The clinical features of Townes-Brocks syndrome are highly heterogonous. Identification of new SALL1 mutations and study of the relation between SALL1 mutations and clinical features can facilitate diagnosis of Townes-Brocks syndrome. Methods We collected clinical data and blood samples of the two patients and their family members for whole-exome sequencing and Sanger sequencing. Prediction analysis of the SALL1variation protein structure was achieved using Alphafold. The clinical materials and gene sequencing results were analyzed. The clinical materials and gene sequencing results were analyzed. The related literature of Townes-Brocks syndrome were searched and the genotype-renal phenotype analysis was performed combined with this two cases. Results Based on the clinical features and gene sequencing results, the two patients were diagnosed as Townes-Brocks syndrome. Two novel SALL1 mutations (c.878-887del and c.1240G > T) were identified, both of which were pathogenic mutations. The correlation between genotypes and renal phenotypes in Townes-Brocks syndrome patients caused by SALL1 mutation were summarized. Conclusion This study identified two novel mutations and provided new insights into the correlation of genotypes and renal phenotypes of Townes-Brocks syndrome.

Published

2023

18. A novel mutation in the WNT6 gene of congenital tooth agenesis

Author

DAI Zhuo, LI Lili, ZHANG Xiaoxin, MOU Yongbin, and CHEN Bin

Subjects

tooth agenesis, non-syndrome, splicing mutation, whole-exome sequencing, wnt6 gene, pax9 gene, msx1 gene, single nucleotide polymorphisms, Medicine

Abstract

Objective This article explores the relationship between congenital tooth agenesis and related gene mutations, providing a reference for early diagnosis of the disease. Methods Clinical and radiographic examinations of a rare case of congenital tooth agenesis were conducted to evaluate the abnormal morphology and quantity of the teeth, as well as the overall health of the patient. Bidirectional sequencing of the PAX9 and MSX1 genes and whole-exome sequencing were conducted to identify potential genetic abnormalities. Sanger sequencing of the newly discovered mutation site was performed on the proband's son. Subsequently, the impacts of the mutations were evaluated through computational tools and a cell-based gene transfection assay. Results This is a rare case of tooth agenesis characterized by a congenitally missing first molar, a second molar with one single root and a supernumerary second premolar in the right mandibular dentition. The c.717 C>C/T in PAX9 is synonymous. The c.119C>G in MSX1 is a missense mutation predicted to be “benign” by Polyphen. Through whole-exome sequencing, we found a novel mutation, c.637-7 C>A in intron 3 of the WNT6 gene, which is predicted by MAXENT to influence the splicing of mRNA. Both the proband and his son carry this mutation. A cell-based gene transfection assay demonstrated that it did not alter the mRNA splicing of WNT6. Conclusion The interaction between single nucleotide polymorphisms may contribute to congenital tooth agenesis.

Published

2023

19. Genomic alterations related to HPV infection status in a cohort of Chinese prostate cancer patients

Author

Bin Lang, Chen Cao, Xiaoxiao Zhao, Yi Wang, Ying Cao, Xueying Zhou, Tong Zhao, Yuyan Wang, Ting Liu, Wenjia Liang, Zheng Hu, Xun Tian, Jingjing Zhang, and Yongji Yan

Subjects

Capture sequencing, Human papillomavirus, Prostate cancer, Whole-exome sequencing, Medicine

Abstract

Abstract Background Human papillomavirus (HPV) has been proposed as a potential pathogenetic organism involved in prostate cancer (PCa), but the association between HPV infection and relevant genomic changes in PCa is poorly understood. Methods To evaluate the relationship between HPV genotypes and genomic alterations in PCa, HPV capture sequencing of DNA isolated from 59 Han Chinese PCa patients was performed using an Illumina HiSeq2500. Additionally, whole-exome sequencing of DNA from these 59 PCa tissue samples and matched normal tissues was carried out using the BGI DNBSEQ platform. HPV infection status and genotyping were determined, and the genetic disparities between HPV-positive and HPV-negative PCa were evaluated. Results The presence of the high-risk HPV genome was identified in 16.9% of our cohort, and HPV16 was the most frequent genotype detected. The overall mutational burden in HPV-positive and HPV-negative PCa was similar, with an average of 2.68/Mb versus 2.58/Mb, respectively, in the targeted whole-exome region. HPV-negative tumors showed a mutational spectrum concordant with published PCa analyses with enrichment for mutations in SPOP, FOXA1, and MED12. HPV-positive tumors showed more mutations in KMT2C, KMT2D and ERCC2. Copy number alterations per sample were comparable between the two groups. However, the significantly amplified or deleted regions of the two groups only partially overlapped. We identified amplifications in oncogenes, including FCGR2B and CCND1, and deletions of tumor suppressors, such as CCNC and RB1, only in HPV-negative tumors. HPV-positive tumors showed unique deletions of tumor suppressors such as NTRK1 and JAK1. Conclusions The genomic mutational landscape of PCa differs based on HPV infection status. This work adds evidence for the direct involvement of HPV in PCa etiology. Different genomic features render HPV-positive PCa a unique subpopulation that might benefit from virus-targeted therapy.

Published

2023

20. Landscape of germline pathogenic variants in patients with dual primary breast and lung cancer

Author

Ning-Yuan Lee, Melissa Hum, Sabna Zihara, Lanying Wang, Matthew K. Myint, Darren Wan-Teck Lim, Chee-Keong Toh, Anders Skanderup, Jens Samol, Min-Han Tan, Peter Ang, Soo-Chin Lee, Eng-Huat Tan, Gillianne G. Y. Lai, Daniel S. W. Tan, Yoon-Sim Yap, and Ann S. G. Lee

Subjects

Multiple primary cancers, Breast cancer, Lung cancer, Whole-exome sequencing, Germline variants, Medicine, Genetics, QH426-470

Abstract

Abstract Background Cancer predisposition is most often studied in the context of single cancers. However, inherited cancer predispositions can also give rise to multiple primary cancers. Yet, there is a paucity of studies on genetic predisposition in multiple primary cancers, especially those outside of well-defined cancer predisposition syndromes. This study aimed to identify germline variants associated with dual primary cancers of the breast and lung. Methods Exome sequencing was performed on germline DNA from 55 Singapore patients (52 [95%] never-smokers) with dual primaries in the breast and lung, confirmed by histopathology. Using two large control cohorts: the local SG10K_Health (n = 9770) and gnomAD non-cancer East Asians (n = 9626); and two additional local case cohorts of early-onset or familial breast cancer (n = 290), and lung cancer (n = 209), variants were assessed for pathogenicity in accordance with ACMG/AMP guidelines. In particular, comparisons were made with known pathogenic or likely pathogenic variants in the ClinVar database, pathogenicity predictions were obtained from in silico prediction software, and case–control association analyses were performed. Results Altogether, we identified 19 pathogenic or likely pathogenic variants from 16 genes, detected in 17 of 55 (31%) patients. Six of the 19 variants were identified using ClinVar, while 13 variants were classified pathogenic or likely pathogenic using ACMG/AMP guidelines. The 16 genes include well-known cancer predisposition genes such as BRCA2, TP53, and RAD51D; but also lesser known cancer genes EXT2, WWOX, GATA2, and GPC3. Most of these genes are involved in DNA damage repair, reaffirming the role of impaired DNA repair mechanisms in the development of multiple malignancies. These variants warrant further investigations in additional populations. Conclusions We have identified both known and novel variants significantly enriched in patients with primary breast and lung malignancies, expanding the body of known cancer predisposition variants for both breast and lung cancer. These variants are mostly from genes involved in DNA repair, affirming the role of impaired DNA repair in the predisposition and development of multiple cancers.

Published

2023

21. Genetic characterization of dilated cardiomyopathy patients undergoing heart transplantation in the Chinese population by whole-exome sequencing

Author

Hong Lian, Shen Song, Wenzheng Chen, Anteng Shi, Haobin Jiang, and Shengshou Hu

Subjects

Dilated cardiomyopathy, Heart transplantation, Whole-exome sequencing, Medicine

Abstract

Abstract Background Dilated cardiomyopathy (DCM) is one of the most frequent causes of heart failure and heart transplantation (HTx). The genetic basis of DCM among patients undergoing HTx remains to be further studied. This study aimed to characterize the genetic basis of DCM HTx in the Chinese population. Methods In total, 208 unrelated DCM patients who underwent HTx at Fuwai Hospital between June 2004 and June 2017 were included in this study. Whole-exome sequencing (WES) was performed for all patients. Gene burden analysis, variant classification, and genotype–phenotype correlation analysis were subsequently performed. Results After completing the bioinformatics analysis, gene burden analysis suggested that titin (TTN), filamin C (FLNC) and lamin A/C (LMNA) were significantly enriched with rare protein-altering variants. The frequencies of TTN and FLNC truncating variants in our cohort were 18.8% and 8.7%, respectively. Among the 165 rare variants in high evidence DCM-related genes, 27 (16.4%) and 59 (35.8%) were interpreted as pathogenic (P) and likely pathogenic (LP), respectively. In addition, 41 (47.7%) and 16 (18.6%) of these 86 P/LP variants are located in TTN and FLNC, respectively. The FLNC group contained more patients with NYHA class IV than the P/LP-negative group (FLNC, 16/18 vs. P/LP-negative, 81/123, P = 0.049). Conclusions Based on WES, we provided a primary genetic spectrum of DCM patients undergoing HTx in the Chinese population. TTN and FLNC harbour the most P/LP variants. FLNC truncation may lead to severe clinical symptoms in DCM patients.

Published

2023

22. Comprehensive genetic screening of early-onset dementia patients in an Austrian cohort-suggesting new disease-contributing genes

Author

Sara Silvaieh, Theresa König, Raphael Wurm, Tandis Parvizi, Evelyn Berger-Sieczkowski, Stella Goeschl, Christoph Hotzy, Matias Wagner, Riccardo Berutti, Esther Sammler, Elisabeth Stögmann, and Alexander Zimprich

Subjects

Early-onset dementia, Whole-exome sequencing, Genetic variants, Medicine, Genetics, QH426-470

Abstract

Abstract Early-onset dementia (EOD), with symptom onset before age 65, has a strong genetic burden. Due to genetic and clinical overlaps between different types of dementia, whole-exome sequencing (WES) has emerged as an appropriate screening method for diagnostic testing and novel gene-finding approaches. We performed WES and C9orf72 repeat testing in 60 well-defined Austrian EOD patients. Seven patients (12%) carried likely disease-causing variants in monogenic genes, PSEN1, MAPT, APP, and GRN. Five patients (8%) were APOE4 homozygote carriers. Definite and possible risk variants were detected in the genes TREM2, SORL1, ABCA7 and TBK1. In an explorative approach, we cross-checked rare gene variants in our cohort with a curated neurodegeneration candidate gene list and identified DCTN1, MAPK8IP3, LRRK2, VPS13C and BACE1 as promising candidate genes. Conclusively, 12 cases (20%) carried variants relevant to patient counseling, comparable to previously reported studies, and can thus be considered genetically resolved. Reduced penetrance, oligogenic inheritance and not yet identified high-risk genes might explain the high number of unresolved cases. To address this issue, we provide complete genetic and phenotypic information (uploaded to the European Genome-phenome Archive), enabling other researchers to cross-check variants. Thereby, we hope to increase the chance of independently finding the same gene/variant-hit in other well-defined EOD patient cohorts, thus confirming new genetic risk variants or variant combinations.

Published

2023

23. Drug development advances in human genetics‐based targets

Author

Xiaoxia Zhang, Wenjun Yu, Yan Li, Aiping Wang, Haiqiang Cao, and Yuanlei Fu

Subjects

drug development, drug target, genetic variation, genome‐wide association studies, whole‐exome sequencing, whole‐genome sequencing, Medicine

Abstract

Abstract Drug development is a long and costly process, with a high degree of uncertainty from the identification of a drug target to its market launch. Targeted drugs supported by human genetic evidence are expected to enter phase II/III clinical trials or be approved for marketing more quickly, speeding up the drug development process. Currently, genetic data and technologies such as genome‐wide association studies (GWAS), whole‐exome sequencing (WES), and whole‐genome sequencing (WGS) have identified and validated many potential molecular targets associated with diseases. This review describes the structure, molecular biology, and drug development of human genetics‐based validated beneficial loss‐of‐function (LOF) mutation targets (target mutations that reduce disease incidence) over the past decade. The feasibility of eight beneficial LOF mutation targets (PCSK9, ANGPTL3, ASGR1, HSD17B13, KHK, CIDEB, GPR75, and INHBE) as targets for drug discovery is mainly emphasized, and their research prospects and challenges are discussed. In conclusion, we expect that this review will inspire more researchers to use human genetics and genomics to support the discovery of novel therapeutic drugs and the direction of clinical development, which will contribute to the development of new drug discovery and drug repurposing.

Published

2024

24. Genomic and transcriptomic features between primary and paired metastatic fumarate hydratase–deficient renal cell carcinoma

Author

Jiayu Liang, Guangxi Sun, Xiuyi Pan, Mengni Zhang, Pengfei Shen, Sha Zhu, Jinge Zhao, Linmao Zheng, Junjie Zhao, Yuntian Chen, Xiaoxue Yin, Junru Chen, Xu Hu, Yuhao Zeng, Jianhui Chen, Yongquan Wang, Zhihong Liu, Jin Yao, Minggang Su, Rui Huang, Banghua Liao, Qiang Wei, Xiang Li, Qiao Zhou, Jiyan Liu, Yali Shen, Zhenhua Liu, Ni Chen, Hao Zeng, and Xingming Zhang

Subjects

Fumarate hydratase–deficient renal cell carcinoma, Whole-exome sequencing, DNA methylation, RNA-seq, Tumor evolution, Metastatic lesions, Medicine, Genetics, QH426-470

Abstract

Abstract Background Fumarate hydratase–deficient renal cell carcinoma (FH-RCC) is a rare highly aggressive subtype of kidney cancer for which the distinct genomic, transcriptomic, and evolutionary relationships between metastatic and primary lesions are still unclear. Methods In this study, whole-exome, RNA-seq, and DNA methylation sequencing were performed on primary-metastatic paired specimens from 19 FH-RCC cases, including 23 primary and 35 matched metastatic lesions. Phylogenetic and clonal evolutionary analyses were used to investigate the evolutionary characteristics of FH-RCC. Transcriptomic analyses, immunohistochemistry, and multiple immunofluorescence experiments were performed to identify the tumor microenvironmental features of metastatic lesions. Results Paired primary and metastatic lesions generally showed similar characteristics of tumor mutation burden, tumor neoantigen burden, microsatellite instability score, CNV burden, and genome instability index. Notably, we identified an FH-mutated founding MRCA (the most recent common ancestor) clone that dominated the early evolutionary trajectories in FH-RCC. Although both primary and metastatic lesions manifested high immunogenicity, metastatic lesions exhibited higher enrichment of T effector cells and immune-related chemokines, together with upregulation of PD-L1, TIGIT, and BTLA. In addition, we found that concurrent NF2 mutation may be associated with bone metastasis and upregulation of cell cycle signature in metastatic lesions. Furthermore, although in FH-RCC metastatic lesions in general shared similar CpG island methylator phenotype with primary lesions, we found metastatic lesions displaying hypomethylated chemokine and immune checkpoints related genomic loci. Conclusions Overall, our study demonstrated the genomic, epigenomic, and transcriptomic features of metastatic lesions in FH-RCC and revealed their early evolutionary trajectory. These results provided multi-omics evidence portraying the progression of FH-RCC.

Published

2023

25. Expression assay of the COLQ in a family with congenital myasthenic syndrome and symptomatic carriers

Author

Mohammad Farid Mohammadi, Sahand Tehrani Fateh, Hadi Aghajani, Afshin Bahramy, Seyed Mohammad Salar Zaheryani, Javad Behroozi, Seyyed Mohammad Kahani, Pouria Mohammadi, and Masoud Garshasbi

Subjects

COLQ, congenital myasthenic syndrome, qRT‐PCR, symptomatic carriers, whole‐exome sequencing, Medicine, Medicine (General), R5-920

Abstract

Key Clinical Message Congenital myasthenic syndromes‐5 (CMS5) is a rare autosomal recessive heterogeneous disorder, caused by pathogenic variants in the COLQ that lead to skeletal muscle weakness and abnormal fatigability. The onset is usually from birth to childhood. Disease‐causing variants in the collagen‐like tail subunit are the most explained etiology in synaptic CMS, causing defected acetylcholinesterase. In this study whole‐exome sequencing (WES) was performed in an affected boy with muscle weakness, ophthalmoplegia, and bilateral ptosis and gene expression assay by qRT‐PCR was performed in entire family. A homozygous nonsense variant in the COLQ [NM_005677.4:c.679C>T], (p.Arg227Ter) was identified in the proband. Segregation analysis by Sanger sequencing confirmed the homozygous state in the proband and heterozygous state in his parents and four of the siblings. The mRNA expression level in the proband was 0.02 of a healthy person, and in the carriers were 0.42 of a healthy person. This study presents an Iranian family with two affected children and eight symptomatic carriers with attenuated mRNA expression. This study provides evidence that carriers of the COLQ disease‐causing variants could become symptomatic with some yet unknown pathogenesis mechanism and underscore the importance of further investigations to elucidate this mechanism.

Published

2023

26. The genomic landscape of rare disorders in the Middle East

Author

Maha El Naofal, Sathishkumar Ramaswamy, Ali Alsarhan, Ahmed Nugud, Fatima Sarfraz, Hiba Janbaz, Alan Taylor, Ruchi Jain, Nour Halabi, Sawsan Yaslam, Roudha Alfalasi, Shruti Shenbagam, Fatma Rabea, Martin Bitzan, Lemis Yavuz, Deena Wafadari, Hamda Abulhoul, Shiva Shankar, Munira Al Maazmi, Ruba Rizk, Zeinab Alloub, Haitham Elbashir, Mohamed O. E. Babiker, Nidheesh Chencheri, Ammar AlBanna, Meshal Sultan, Mohamed El Bitar, Safeena Kherani, Nandu Thalange, Sattar Alshryda, Roberto Di Donato, Christos Tzivinikos, Ibrar Majid, Alexandra F. Freeman, Corina Gonzalez, Arif O. Khan, Hisham Hamdan, Walid Abuhammour, Mohamed AlAwadhi, Abdulla AlKhayat, Alawi Alsheikh-Ali, and Ahmad N. Abou Tayoun

Subjects

Genomics, Rare diseases, Whole-exome sequencing, Middle East, Diagnostic yield, Clinical utility, Medicine, Genetics, QH426-470

Abstract

Abstract Background Rare diseases collectively impose a significant burden on healthcare systems, especially in underserved regions, like the Middle East, which lack access to genomic diagnostic services and the associated personalized management plans. Methods We established a clinical genomics and genetic counseling facility, within a multidisciplinary tertiary pediatric center, in the United Arab Emirates to locally diagnose and manage patients with rare diseases. Clinical genomic investigations included exome-based sequencing, chromosomal microarrays, and/or targeted testing. We assessed the diagnostic yield and implications for clinical management among this population. Variables were compared using the Fisher exact test. Tests were 2-tailed, and P

Published

2023

27. A novel stop-gain pathogenic variant in the KCNQ1 gene causing long QT syndrome 1

Author

Samira Kalayinia, Mohammad Dalili, Maryam Pourirahim, Majid Maleki, and Nejat Mahdieh

Subjects

Long QT syndrome 1, Genetic, KCNQ1, Whole-exome sequencing, Variant, Medicine

Abstract

Abstract Background Inherited primary arrhythmias, such as long QT (LQT) syndromes, are electrical abnormalities of the heart mainly due to variants in 3 genes. We herein describe a novel stop-gain pathogenic variant in the KCNQ1 gene in an Iranian child with LQT syndrome 1. Methods The patient and his family underwent clinical evaluation, electrocardiographic Holter monitoring, and whole-exome sequencing. Sanger sequencing and segregation analysis were used to confirm the variant in the patient and his family, respectively. The pathogenicity of the variant was checked via an in silico analysis. Results The proband suffered from bradycardia and had experienced syncope without stress. The corrected QT interval was 470 ms (the Schwartz score ≥ 3.5), and the Holter monitoring showed sinus rhythm, infrequent premature atrial contractions, and a prolonged QT interval in some leads. Whole-exome and Sanger sequencing showed c.968G > A in 3 affected family members. According to the American College of Medical Genetics and Genomics criteria, c.968G > A was classified as a pathogenic variant. Conclusions The KCNQ1 gene is the main cause of LQT syndromes in our population. The common genes of LQT syndromes should be studied in our country’s different ethnicities to determine the exact role of these genes in these subpopulations.

Published

2023

28. MARS1 mutations linked to familial trigeminal neuralgia via the integrated stress response

Author

Anni Wang, Zimu Song, Xu Zhang, LiFei Xiao, Yan Feng, Chong Qi, Guohuan Zhang, Jinbo Bai, Yang Liu, Tao Sun, Fangang Meng, and Feng Wang

Subjects

Familial trigeminal neuralgia, RNA sequencing, Whole-exome sequencing, MARS1, Tyrosyl-tRNA synthetase, Integrated stress response, Medicine

Abstract

Abstract Background While new genetic analysis methods are widely used in the clinic, few researchers have focused on trigeminal neuralgia (TN) with familial clustering (≥ 2 TN patients in one kindred family). Previous literature suggests that familial trigeminal neuralgia (FTN) may be associated with inherited genetic factors. To date, few next-generation sequencing studies have been reported for FTN. This study investigated the pathogenic mechanism of FTN by using whole-exome sequencing (WES) technology, which may enhance our understanding of human TN pathophysiology. Method We performed WES for 7 probands from families of FTN. Sanger sequencing was performed for two control groups (FTN family members group and nonfamilial TN subject group) to potentially identify new FTN-related gene mutations. In families where FTN probands carried potentially pathogenic gene mutations, the ribonucleic acid (RNA) of FTN probands and related family members, as well as nonfamilial TN patients were analysed by RNA sequencing (RNA-seq) to confirm differential gene expression. Results Seven probands were derived from 3 Chinese families. WES and Sanger sequencing identified MARS1 mutation c.2398C > A p.(Pro800Thr) in Family 1. MARS1 mutation was confirmed in 14/26 [53.8%] members of Family 1 in FTN family member group, while none of nonfamilial TN subjects had this MARS1 mutation. RNA-seq showed that 3 probands in Family 1 had higher expression of Fosl1 (Fos-like antigen 1) and NFE2 (Nuclear factor, erythroid 2) than 3 subjects in the nonfamilial TN subject group. Fosl1 and NFE2 are genes related to integrated stress response (ISR). Conclusion MARS1 mutations may cause chronic activation of ISR, contribute to ISR pathophysiological changes in FTN, and cause/accelerate peripheral nerve degeneration. The findings of this study can enrich our knowledge of the role of molecular genetics in TN in humans.

Published

2023

29. Mutational analysis of epidermolysis bullosa in Taiwan by whole-exome sequencing complemented by RNA sequencing: a series of 77 patients

Author

Wei-Ting Tu, Ping-Chen Hou, Peng-Chieh Chen, Wan-Rung Chen, Hsin-Yu Huang, Jing-Yu Wang, Yi-Ting Huang, Yi-Huei Wu, Chun-Lin Su, Yen-An Tang, Hiroaki Iwata, Ken Natsuga, Sheau-Chiou Chao, H. Sunny Sun, Ming-Jer Tang, Julia Yu-Yun Lee, John A. McGrath, and Chao-Kai Hsu

Subjects

Epidermolysis bullosa, Whole-exome sequencing, RNA sequencing, Medicine

Abstract

Abstract Background Epidermolysis bullosa (EB) is a heterogeneous group of hereditary skin diseases characterized by skin fragility. Primary data on Taiwanese population remain scarce. Methods We gathered clinical information from EB patients at National Cheng Kung University Hospital from January, 2012, to June, 2021. Diagnostic tests including transmission electron microscopy, immunofluorescence studies, and whole-exome sequencing (WES) were performed. The pathogenicity of novel splice-site mutations was determined through reverse transcriptase-PCR of skin mRNA followed by Sanger and/or RNA sequencing. Results Seventy-seven EB patients from 45 families were included: 19 EB simplex, six junctional EB, and 52 dystrophic EB. Pathogenic variants were identified in 37 of 38 families (97.4%), in which WES was used as a first-line tool for mutational analysis; RNA sequencing determined pathogenic variants in the remaining one family. A total of 60 mutations in EB-related genes were identified, including 22 novel mutations. The mutations involved KRT5, KRT14, PLEC, COL17A1, LAMB3, LAMA3, ITGB4, and COL7A1. Over one-quarter of DEB patients had EB pruriginosa. Conclusions The distinct clinical presentation and molecular pathology of EB in Taiwan expand our understanding of this disorder. WES was an effective first-line diagnostic tool for identifying EB-associated variants. RNA sequencing complemented WES when multiple potentially pathogenic splice-site mutations were found.

Published

2022

30. A novel stop-gain pathogenic variant in FLT4 and a nonsynonymous pathogenic variant in PTPN11 associated with congenital heart defects

Author

Avisa Tabib, Taravat Talebi, Serwa Ghasemi, Maryam Pourirahim, Niloofar Naderi, Majid Maleki, and Samira Kalayinia

Subjects

Congenital heart defect, CHDs, Whole-exome sequencing, FLT4, PTPN11, VEGFR3, Medicine

Abstract

Abstract Background Congenital heart defects (CHDs) are the most common congenital malformations, including structural malformations in the heart and great vessels. CHD complications such as low birth weight, prematurity, pregnancy termination, mortality, and morbidity depend on the type of defect. Methods In the present research, genetic analyses via whole-exome sequencing (WES) was performed on 3 unrelated pedigrees with CHDs. The candidate variants were confirmed, segregated by PCR-based Sanger sequencing, and evaluated by bioinformatics analysis. Results A novel stop-gain c.C244T:p.R82X variant in the FLT4 gene, as well as a nonsynonymous c.C1403T:p.T468M variant in the PTPN11 gene, was reported by WES. FLT4 encodes a receptor tyrosine kinase involved in lymphatic development and is known as vascular endothelial growth factor 3. Conclusions We are the first to report a novel c.C244T variant in the FLT4 gene associated with CHDs. Using WES, we also identified a nonsynonymous variant affecting protein-tyrosine phosphatase, the non-receptor type 11 (PTPN11) gene. The clinical implementation of WES can determine gene variants in diseases with high genetic and phenotypic heterogeneity like CHDs.

Published

2022

31. Whole-exome sequencing of BRCA-negative breast cancer patients and case–control analyses identify variants associated with breast cancer susceptibility

Author

Ning Yuan Lee, Melissa Hum, Aseervatham Anusha Amali, Wei Kiat Lim, Matthew Wong, Matthew Khine Myint, Ru Jin Tay, Pei-Yi Ong, Jens Samol, Chia Wei Lim, Peter Ang, Min-Han Tan, Soo-Chin Lee, and Ann S. G. Lee

Subjects

Breast cancer, BRCA1/2 negative, Whole-exome sequencing, Germline variants, Case–control analysis, Medicine, Genetics, QH426-470

Abstract

Abstract Background For the majority of individuals with early-onset or familial breast cancer referred for genetic testing, the genetic basis of their familial breast cancer remains unexplained. To identify novel germline variants associated with breast cancer predisposition, whole-exome sequencing (WES) was performed. Methods WES on 290 BRCA1/BRCA2-negative Singaporeans with early-onset breast cancer and/or a family history of breast cancer was done. Case–control analysis against the East-Asian subpopulation (EAS) from the Genome Aggregation Database (gnomAD) identified variants enriched in cases, which were further selected by occurrence in cancer gene databases. Variants were further evaluated in repeated case–control analyses using a second case cohort from the database of Genotypes and Phenotypes (dbGaP) comprising 466 early-onset breast cancer patients from the United States, and a Singapore SG10K_Health control cohort. Results Forty-nine breast cancer-associated germline pathogenic variants in 37 genes were identified in Singapore cases versus gnomAD (EAS). Compared against SG10K_Health controls, 13 of 49 variants remain significantly enriched (False Discovery Rate (FDR)-adjusted p

Published

2022

32. Whole-exome sequencing identifies novel protein-altering variants associated with serum apolipoprotein and lipid concentrations

Author

Niina Sandholm, Ronja Hotakainen, Jani K. Haukka, Fanny Jansson Sigfrids, Emma H. Dahlström, Anni A. Antikainen, Erkka Valo, Anna Syreeni, Elina Kilpeläinen, Anastasia Kytölä, Aarno Palotie, Valma Harjutsalo, Carol Forsblom, Per-Henrik Groop, and on behalf of the FinnDiane Study Group

Subjects

Apolipoprotein A1, Apolipoprotein C-III, Whole-exome sequencing, Lipidomics, LIPC, APOB, Medicine, Genetics, QH426-470

Abstract

Abstract Background Dyslipidemia is a major risk factor for cardiovascular disease, and diabetes impacts the lipid metabolism through multiple pathways. In addition to the standard lipid measurements, apolipoprotein concentrations provide added awareness of the burden of circulating lipoproteins. While common genetic variants modestly affect the serum lipid concentrations, rare genetic mutations can cause monogenic forms of hypercholesterolemia and other genetic disorders of lipid metabolism. We aimed to identify low-frequency protein-altering variants (PAVs) affecting lipoprotein and lipid traits. Methods We analyzed whole-exome (WES) and whole-genome sequencing (WGS) data of 481 and 474 individuals with type 1 diabetes, respectively. The phenotypic data consisted of 79 serum lipid and apolipoprotein phenotypes obtained with clinical laboratory measurements and nuclear magnetic resonance spectroscopy. Results The single-variant analysis identified an association between the LIPC p.Thr405Met (rs113298164) and serum apolipoprotein A1 concentrations (p=7.8×10−8). The burden of PAVs was significantly associated with lipid phenotypes in LIPC, RBM47, TRMT5, GTF3C5, MARCHF10, and RYR3 (p170,000 individuals from multiple ancestries (p=0.0013). Two PAVs in GTF3C5 were highly enriched in the Finnish population and associated with cardiovascular phenotypes in the general population. In the previously known APOB gene, we identified novel associations at two protein-truncating variants resulting in lower serum non-HDL cholesterol (p=4.8×10−4), apolipoprotein B (p=5.6×10−4), and LDL cholesterol (p=9.5×10−4) concentrations. Conclusions We identified lipid and apolipoprotein-associated variants in the previously known LIPC and APOB genes, as well as PAVs in GTF3C5 associated with LDLC, and in RBM47 associated with apolipoprotein C-III concentrations, implicated as an independent CVD risk factor. Identification of rare loss-of-function variants has previously revealed genes that can be targeted to prevent CVD, such as the LDL cholesterol-lowering loss-of-function variants in the PCSK9 gene. Thus, this study suggests novel putative therapeutic targets for the prevention of CVD.

Published

2022

33. Mutation in XPO5 causes adult-onset autosomal dominant familial focal segmental glomerulosclerosis

Author

Hafiz Muhammad Jafar Hussain, Yikai Cai, Qinjie Weng, Jun Tong, Ayesha Aftab, Yuanmeng Jin, Jian Liu, Shuwen Yu, Zhengying Fang, Wen Du, Xiaoxia Pan, Hong Ren, and Jingyuan Xie

Subjects

FSGS, Whole-exome sequencing, XPO5 gene, Adult-onset, Autosomal, Dominant, Medicine, Genetics, QH426-470

Abstract

Abstract Background Focal and segmental glomerulosclerosis (FSGS) is a histological pathology that characterizes a wide spectrum of diseases. Many genes associated with FSGS have been studied previously, but there are still some FSGS families reported in the literature without the identification of known gene mutations. The aim of this study was to investigate the new genetic cause of adult-onset FSGS. Methods This study included 40 FSGS families, 77 sporadic FSGS cases, 157 non-FSGS chronic kidney disease (CKD) families and 195 healthy controls for analyses. Whole-exome sequencing (WES) and Sanger sequencing were performed on probands and family members of all recruited families and sporadic FSGS cases. Results Using WES, we have identified a novel heterozygous missense variant (c.T1655C:p.V552A) in exportin 5 gene (XPO5) in two families (FS-133 and CKD-05) affected with FSGS and CKD. Sanger sequencing has confirmed the co-segregation of this identified variant in an autosomal dominant pattern within two families, while this variant was absent in healthy controls. Furthermore, the identified mutation was absent in 195 ethnically matched healthy controls by Sanger sequencing. Subsequently, in silico analysis demonstrated that the identified variant was highly conservative in evolution and likely to be pathogenic. Conclusions Our study reports an adult-onset autosomal dominant inheritance of the XPO5 variant in familial FSGS for the first time. Our study expanded the understanding of the genotypic, phenotypic and ethnical spectrum of mutation in this gene.

Published

2022

34. De novo mutations within metabolism networks of amino acid/protein/energy in Chinese autistic children with intellectual disability

Author

Wen-Xiong Chen, Bin Liu, Lijie Zhou, Xiaoli Xiong, Jie Fu, Zhi-Fang Huang, Ting Tan, Mingxi Tang, Jun Wang, and Ya-Ping Tang

Subjects

Autism spectrum disorder, Whole-exome sequencing, De novo mutations, Pathways, Intellectual disability, Intelligence quotient, Medicine, Genetics, QH426-470

Abstract

Abstract Background Autism spectrum disorder (ASD) is often accompanied by intellectual disability (ID). Despite extensive studies, however, the genetic basis for this comorbidity is still not clear. In this study, we tried to develop an analyzing pipeline for de novo mutations and possible pathways related to ID phenotype in ASD. Whole-exome sequencing (WES) was performed to screen de novo mutations and candidate genes in 79 ASD children together with their parents (trios). The de novo altering genes and relative pathways which were associated with ID phenotype were analyzed. The connection nodes (genes) of above pathways were selected, and the diagnostic value of these selected genes for ID phenotype in the study population was also evaluated. Results We identified 89 de novo mutant genes, of which 34 genes were previously reported to be associated with ASD, including double hits in the EGF repeats of NOTCH1 gene (p.V999M and p.S1027L). Interestingly, of these 34 genes, 22 may directly affect intelligence quotient (IQ). Further analyses revealed that these IQ-related genes were enriched in protein synthesis, energy metabolism, and amino acid metabolism, and at least 9 genes (CACNA1A, ALG9, PALM2, MGAT4A, PCK2, PLEKHA1, PSME3, ADI1, and TLE3) were involved in all these three pathways. Seven patients who harbored these gene mutations showed a high prevalence of a low IQ score (

Published

2022

35. Assessment of genetic susceptibility to multiple primary cancers through whole-exome sequencing in two large multi-ancestry studies

Author

Taylor B. Cavazos, Linda Kachuri, Rebecca E. Graff, Jovia L. Nierenberg, Khanh K. Thai, Stacey Alexeeff, Stephen Van Den Eeden, Douglas A. Corley, Lawrence H. Kushi, Regeneron Genetics Center, Thomas J. Hoffmann, Elad Ziv, Laurel A. Habel, Eric Jorgenson, Lori C. Sakoda, and John S. Witte

Subjects

Multiple primary cancers, Pleiotropy, Whole-exome sequencing, Germline genetics, Medicine

Abstract

Abstract Background Up to one of every six individuals diagnosed with one cancer will be diagnosed with a second primary cancer in their lifetime. Genetic factors contributing to the development of multiple primary cancers, beyond known cancer syndromes, have been underexplored. Methods To characterize genetic susceptibility to multiple cancers, we conducted a pan-cancer, whole-exome sequencing study of individuals drawn from two large multi-ancestry populations (6429 cases, 165,853 controls). We created two groupings of individuals diagnosed with multiple primary cancers: (1) an overall combined set with at least two cancers across any of 36 organ sites and (2) cancer-specific sets defined by an index cancer at one of 16 organ sites with at least 50 cases from each study population. We then investigated whether variants identified from exome sequencing were associated with these sets of multiple cancer cases in comparison to individuals with one and, separately, no cancers. Results We identified 22 variant-phenotype associations, 10 of which have not been previously discovered and were significantly overrepresented among individuals with multiple cancers, compared to those with a single cancer. Conclusions Overall, we describe variants and genes that may play a fundamental role in the development of multiple primary cancers and improve our understanding of shared mechanisms underlying carcinogenesis.

Published

2022

36. Feasibility and outcome of reproducible clinical interpretation of high-dimensional molecular data: a comparison of two molecular tumor boards

Author

Damian T. Rieke, Till de Bortoli, Peter Horak, Mario Lamping, Manuela Benary, Ivan Jelas, Gina Rüter, Johannes Berger, Marit Zettwitz, Niklas Kagelmann, Andreas Kind, Falk Fabian, Dieter Beule, Hanno Glimm, Benedikt Brors, Albrecht Stenzinger, Stefan Fröhling, and Ulrich Keilholz

Subjects

Precision oncology, Whole-exome sequencing, RNA-sequencing, Clinical interpretation, Targeted therapy, Molecular tumor board, Medicine

Abstract

Abstract Background Structured and harmonized implementation of molecular tumor boards (MTB) for the clinical interpretation of molecular data presents a current challenge for precision oncology. Heterogeneity in the interpretation of molecular data was shown for patients even with a limited number of molecular alterations. Integration of high-dimensional molecular data, including RNA- (RNA-Seq) and whole-exome sequencing (WES), is expected to further complicate clinical application. To analyze challenges for MTB harmonization based on complex molecular datasets, we retrospectively compared clinical interpretation of WES and RNA-Seq data by two independent molecular tumor boards. Methods High-dimensional molecular cancer profiling including WES and RNA-Seq was performed for patients with advanced solid tumors, no available standard therapy, ECOG performance status of 0–1, and available fresh-frozen tissue within the DKTK-MASTER Program from 2016 to 2018. Identical molecular profiling data of 40 patients were independently discussed by two molecular tumor boards (MTB) after prior annotation by specialized physicians, following independent, but similar workflows. Identified biomarkers and resulting treatment options were compared between the MTBs and patients were followed up clinically. Results A median of 309 molecular aberrations from WES and RNA-Seq (n = 38) and 82 molecular aberrations from WES only (n = 3) were considered for clinical interpretation for 40 patients (one patient sequenced twice). A median of 3 and 2 targeted treatment options were identified per patient, respectively. Most treatment options were identified for receptor tyrosine kinase, PARP, and mTOR inhibitors, as well as immunotherapy. The mean overlap coefficient between both MTB was 66%. Highest agreement rates were observed with the interpretation of single nucleotide variants, clinical evidence levels 1 and 2, and monotherapy whereas the interpretation of gene expression changes, preclinical evidence levels 3 and 4, and combination therapy yielded lower agreement rates. Patients receiving treatment following concordant MTB recommendations had significantly longer overall survival than patients receiving treatment following discrepant recommendations or physician’s choice. Conclusions Reproducible clinical interpretation of high-dimensional molecular data is feasible and agreement rates are encouraging, when compared to previous reports. The interpretation of molecular aberrations beyond single nucleotide variants and preclinically validated biomarkers as well as combination therapies were identified as additional difficulties for ongoing harmonization efforts.

Published

2022

37. DUSP5 and PHLDA1 mutations in mature cystic teratomas of the ovary identified on whole-exome sequencing may explain teratoma characteristics

Author

Wen-Chung Wang and Yen-Chein Lai

Subjects

Mature cystic teratomas, Dermoid cysts, Whole-exome sequencing, Medicine, Genetics, QH426-470

Abstract

Abstract Background Mature cystic teratomas of the ovary are the most common type of germ cell tumor, comprising 33% of ovarian tumors. Studying these tumors may result in a better understanding of their stepwise developmental processes and molecular bases and provide useful information for the development of tissue-engineering technologies. Methods In the present study, 9 mature cystic teratomas of the ovary were analyzed by whole-exome sequencing and the results were compared with the Catalogue of Somatic Mutations in Cancer and dbSNP databases. Results Mutations were validated in 15 genes with alterations in all 9 (100%) samples and changes in protein coding. The top 10 mutated genes were FLG, MUC17, MUC5B, RP1L1, NBPF1, GOLGA6L2, SLC29A3, SGK223, PTGFRN, and FAM186A. Moreover, 7 variants in exons with changes in protein coding are likely of importance in the development of mature cystic teratomas of the ovary, namely PTGFRN, DUSP5, MPP2, PHLDA1, PRR21, GOLGA6L2, and KRTAP4-2. Conclusions These genetic alterations may play an important etiological role in teratoma formation. Moreover, novel mutations in DUSP5 and PHLDA1 genes found on whole-exome sequencing may help to explain the characteristics of teratomas.

Published

2022

38. Identification of recurrent variants implicated in disease in bicuspid aortic valve patients through whole-exome sequencing

Author

Shasha Chen, Qinchun Jin, Shiqiang Hou, Mingfei Li, Yuan Zhang, Lihua Guan, Wenzhi Pan, Junbo Ge, and Daxin Zhou

Subjects

Bicuspid aortic valve, Whole-exome sequencing, Aortic stenosis, Medicine, Genetics, QH426-470

Abstract

Abstract Bicuspid aortic valve (BAV) is the most common congenital heart defect in human beings, with an estimated prevalence in the general population of between 0.5 and 2%. Moreover, BAV is the most common cause of aortic stenosis in the pediatric population. Patients with BAV may have no symptoms for life, and some of them may progress to aortic stenosis. Genetic factors increase the susceptibility and development of BAV. However, the pathogenesis and BAV are still unclear, and more genetic variants are still needed for elucidating the molecular mechanism and stratification of patients. The present study carried out screening of variants implicated in disease in BAV patients. The whole-exome sequencing (WES) was performed in 20 BAV patients and identified 40 different heterozygous missense mutations in 36 genes (MIB2, FAAH, S100A1, RGS16, MAP3K19, NEB, TTN, TNS1, CAND2, CCK, KALRN, ATP10D, SLIT3, ROS1, FABP7, NUP205, IL11RA, NPR2, COL5A1, CUBN, JMJD1C, ANXA7, TRIM8, LGR4, TPCN2, APOA5, GPR84, LRP1, NCOR2, AKAP11, ESRRB, NGB, AKAP13, WWOX, KCNJ12, ARHGEF1). The mutations in these genes were identified as recurrent variants implicated in disease by in silico prediction tool analysis. Nine genes (MIB2, S100A1, TTN, CCK, NUP205, LGR4, NCOR2, ESRRB, and WWOX) among the 36 genes were identified as variants implicated in disease via unanimous agreement of in silico prediction tool analysis and sequenced in an independent cohort of 137 BAV patients to validate the results of WES. BAV patients carrying these variants demonstrated reduced left ventricular ejection fractions (LVEF) (63.8 ± 7.5% vs. 58.4 ± 5.2%, P

Published

2022

39. Identification of a novel de novo pathogenic variant in GFAP in an Iranian family with Alexander disease by whole-exome sequencing

Author

Katayoun Heshmatzad, Niloofar Naderi, Tannaz Masoumi, Hamidreza Pouraliakbar, and Samira Kalayinia

Subjects

Infantile Alexander disease, GFAP, Leukodystrophy, Whole-exome sequencing, Genetics, In silico analysis, Medicine

Abstract

Abstract Background Alexander disease (AxD) is a rare leukodystrophy with an autosomal dominant inheritance mode. Variants in GFAP lead to this disorder and it is classified into three distinguishable subgroups: infantile, juvenile, and adult-onset types. Objective The aim of this study is to report a novel variant causing AxD and collect all the associated variants with juvenile and adult-onset as well. Methods We report a 2-year-old female with infantile AxD. All relevant clinical and genetic data were evaluated. Search strategy for all AxD types was performed on PubMed. The extracted data include total recruited patients, number of patients carrying a GFAP variant, nucleotide and protein change, zygosity and all the clinical symptoms. Results A novel de novo variant c.217A > G: p. Met73Val was found in our case by whole-exome sequencing. In silico analysis categorized this variant as pathogenic. Totally 377 patients clinically diagnosed with juvenile or adult-onset forms were recruited in these articles, among them 212 patients were affected with juvenile or adult-onset form carrier of an alteration in GFAP. A total of 98 variants were collected. Among these variants c.262C > T 11/212 (5.18%), c.1246C > T 9/212 (4.24%), c.827G > T 8/212 (3.77%), c.232G > A 6/212 (2.83%) account for the majority of reported variants. Conclusion This study highlighted the role of genetic in AxD diagnosing. It also helps to provide more information in order to expand the genetic spectrum of Iranian patients with AxD. Our literature review is beneficial in defining a better genotype–phenotype correlation of AxD disorder.

Published

2022

40. A SPART missense mutation causes Troyer syndrome in two siblings

Author

Maha A Alotaibi, Hamaed A Almutairi, and Ali A Alsharkawy

Subjects

hereditary spastic paraplegias, intellectual disabilities, short stature, spg20, troyer syndrome, whole-exome sequencing, Medicine

Abstract

Troyer syndrome, a rare autosomal-recessive disorder, manifests with complex spastic paraplegia. In Ohio, Amish families were the first to be reported with this syndrome. The neurological and musculoskeletal symptoms include short stature, dysarthria, distal amyotrophy, and spastic paralysis. A mutation in the SPGP20 gene, located on chromosome 13q13, results in the loss of the Spartin proteins, the source of pathogenicity. Spartin is a multifunctional protein thought to be crucial for neuron viability. Here, we report the clinical and molecular diagnostic findings of Troyer syndrome in two siblings from a consanguineous family in Saudi Arabia. The clinical phenotypes of the patients showed short stature and intellectual disability. The molecular genetic test, including whole-exome sequencing, was performed to identify and confirm the causative variant. A homozygous missense mutation in the SPART variant c.988A>G p.(Met330Val) was identified through molecular analysis. According to HGMD Professional 2021.1, this variant has previously been described as a disease-causing intellectual disability and Troyer syndrome.

Published

2023

41. Whole-Exome Sequencing Reveals Pediatric Rare Syndromic Hearing Loss

Author

QU Chunyan, ZHOU Yi, CHEN Min, HAO Jinsheng, NI Xin, and LIU Haihong

Subjects

whole-exome sequencing, syndromic hearing loss, hars2, ush2a, gata3, mitf, myo15a, Medicine

Abstract

Objective To discuss the significance of genetic diagnosis of children with syndromic hearing loss by using whole-exome sequencing. Methods The clinical data of 34 children with sensorineural hearing loss were collected and the whole exons of genome of the children and their parents were sequenced and analyzed. Results Genetic causative gene and mutations have been identified in 19 children, including 4 genes (HARS2, USH2A, GATA3, MITF) related to rare syndromic hearing loss. Fifteen children were diagnosed with non-syndromic hearing loss related gene, including 8 cases with GJB2 mutation, 5 cases with SLC26A4 mutation and 2 cases with MYO15A mutation. Mutations of c.435_437del(p.K147del) and c.1403G > C (p.G468A) in gene HARS2, c.11389+1del in gene USH2A, c.1327delA(p.M443Wfs*33) in gene GATA3, c.627C > A(p.C209X) in gene MITF and c.8033_8057delinsG(p.N2678_D2686delinsS) in gene MYO15A were first reported. Conclusions Whole-exome sequencing helps the accurate diagnosis of causes of hearing loss, especially for the rare syndromic hearing loss with atypical clinical manifestations. Information from genetic testing may highlight further recommended exams of structure and functions of related organs.

Published

2022

42. Recurrent squamous cell carcinoma and a novel mutation in a patient with xeroderma pigmentosum: a case report

Author

Ezgi Aysu Şahin, Ekim Zihni Taşkıran, Pelin Özlem Şimşek Kiper, Burça Aydın, and Eda Utine

Subjects

Xeroderma pigmentosum, Squamous cell carcinoma, Whole-exome sequencing, Immune checkpoint inhibitors, Nucleotide excision repair, Case report, Medicine

Abstract

Abstract Background Xeroderma pigmentosum is an extremely serious genetic disorder defined by sensitivity to sunlight, resulting in sunburn and pigment changes. If patients are not completely protected from ultraviolet radiation, xeroderma pigmentosum is characterized by a greatly increased risk of sunlight-induced cutaneous neoplasms. There is no standard therapy for skin cancer of xeroderma pigmentosum. However, immune checkpoint inhibitors were reported to increase response rates and improve outcomes and life expectancy in patients with various cancers, including squamous cell carcinoma in xeroderma pigmentosum. In this paper, we report on a patient with xeroderma pigmentosum from a consanguineous family with recurrent facial chemotherapy-resistant squamous cell carcinoma lesions treated successfully with an anti-programmed cell death protein 1 monoclonal antibody in both relapses. Case presentation A 7-year-old Turkish male was referred to our oncology department for recurring squamous cell carcinoma after local excision of the tumor over his nose. The lesion was a rapidly growing lesion, measuring 8 × 4 cm in size. Physical examination revealed that he also had hemorrhagic crusted plaques and nodules over both eyelids and upper lip, with multiple hypo- and hyperpigmented punctate lesions all over his body. After two more cycles of chemotherapy, progressive disease was noted, and a new lesion on the right eyelid caused blurred vision. Anti-programmed cell death protein 1 antibody treatment was planned with concomitant radiotherapy. He received nivolumab every 3 weeks for 4 months, improving his vision. No new lesions or active complaints have been observed in the current situation, and complete remission has been achieved. On the last admission, the patient was clinically diagnosed with xeroderma pigmentosum. Owing to the condition’s genetic heterogeneity, whole-exome sequencing was performed with Ion Proton next-generation sequencing platform, and the c.2250 + 1G>A splice site mutation of the XPC gene was detected in the homozygous state. Conclusions The clinical report emphasizes the importance of clinical awareness and crucial early diagnosis of xeroderma pigmentosum and presents a novel causative homozygous c.2250 + 1G>A splice site mutation. Our case proves that next-generation sequencing is an effective method for the rapid diagnosis and determination of xeroderma pigmentosum genetic etiology.

Published

2022

43. Cytotoxic CD161−CD8+ TEMRA cells contribute to the pathogenesis of systemic lupus erythematosusResearch in context

Author

Hui Xiong, Mintian Cui, Ni Kong, Jiongjie Jing, Ying Xu, Xiuting Liu, Fan Yang, Zhen Xu, Yu Yan, Dongyang Zhao, Ziqi Zou, Meng Xia, Junjie Cen, Guozhen Tan, Cong Huai, Qiong Fu, Qing Guo, and Kun Chen

Subjects

Systemic lupus erythematosus, scRNA-seq, Whole-exome sequencing, CD8+ T cell subset, Genetic variant, DTHD1, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Systemic lupus erythematosus (SLE) is a prototypical autoimmune disease affecting multiple organs and tissues with high cellular heterogeneity. CD8+ T cell activity is involved in the SLE pathogenesis. However, the cellular heterogeneity and the underlying mechanisms of CD8+ T cells in SLE remain to be identified. Methods: Single-cell RNA sequencing (scRNA-seq) of PBMCs from a SLE family pedigree (including 3 HCs and 2 SLE patients) was performed to identify the SLE-associated CD8+ T cell subsets. Flow cytometry analysis of a SLE cohort (including 23 HCs and 33 SLE patients), qPCR analysis of another SLE cohort (including 30 HCs and 25 SLE patients) and public scRNA-seq datasets of autoimmune diseases were employed to validate the finding. Whole-exome sequencing (WES) of this SLE family pedigree was used to investigate the genetic basis in dysregulation of CD8+ T cell subsets identified in this study. Co-culture experiments were performed to analyze the activity of CD8+ T cells. Findings: We elucidated the cellular heterogeneity of SLE and identified a new highly cytotoxic CD8+ T cell subset, CD161−CD8+ TEMRA cell subpopulation, which was remarkably increased in SLE patients. Meanwhile, we discovered a close correlation between mutation of DTHD1 and the abnormal accumulation of CD161−CD8+ TEMRA cells in SLE. DTHD1 interacted with MYD88 to suppress its activity in T cells and DTHD1 mutation promoted MYD88-dependent pathway and subsequently increased the proliferation and cytotoxicity of CD161−CD8+ TEMRA cells. Furthermore, the differentially expressed genes in CD161−CD8+ TEMRA cells displayed a strong out-of-sample prediction for case–control status of SLE. Interpretation: This study identified DTHD1-associated expansion of CD161−CD8+ TEMRA cell subpopulation is critical for SLE. Our study highlights genetic association and cellular heterogeneity of SLE pathogenesis and provides a mechanistical insight into the diagnosis and treatment of SLE. Fundings: Stated in the Acknowledgements section of the manuscript.

Published

2023

44. Whole-exome sequencing in a subject with fluctuating neuropsychiatric symptoms, immunoglobulin G1 deficiency, and subsequent development of Crohn’s disease: a case report

Author

Harumi Jyonouchi and Lee Geng

Subjects

Whole-exome sequencing, Crohn’s disease, NLRP12, IRF2BP2, Interleukin-1β, Tumor necrosis factor-α, Medicine

Abstract

Abstract Background Mutations or polymorphisms of genes that are associated with inflammasome functions are known to predispose individuals to Crohn’s disease and likely affect clinical presentations and responses to therapeutic agents in patients with Crohn’s disease. The presence of additional gene mutations/polymorphisms that can modify immune responses may further affect clinical features, making diagnosis and management of Crohn’s disease even more challenging. Whole-exome sequencing is expected to be instrumental in understanding atypical presentations of Crohn’s disease and the selection of therapeutic measures, especially when multiple gene mutations/polymorphisms affect patients with Crohn’s disease. Case summary We report the case of a non-Hispanic Caucasian female patient with Crohn’s disease who was initially diagnosed with pediatric acute-onset neuropsychiatric syndrome with fluctuating anxiety symptoms at 9 years of age. This patient was initially managed with pulse oral corticosteroid treatment and then intravenous immunoglobulin due to her immunoglobulin G1 deficiency. At 15 years of age, she was diagnosed with Crohn’s disease, following onset of acute abdomen. Treatment with oral corticosteroid and then tumor necrosis factor-α blockers (adalimumab and infliximab) led to remission of Crohn’s disease. However, she continued to suffer from chronic abdominal pain, persistent headache, general fatigue, and joint ache involving multiple joints. Extensive gastrointestinal workup was unrevealing, but whole-exome sequencing identified two autosomal dominant gene variants: NLRP12 (loss of function) and IRF2BP2 (gain of function). Based on whole-exome sequencing findings, infliximab was discontinued and anakinra, an interleukin-1β blocker, was started, rendering marked improvement of her clinical symptoms. However, Crohn’s disease lesions recurred following Yersinia enterocolitis. The patient was successfully treated with a blocker of interleukin-12p40 (ustekinumab), and anakinra was discontinued following remission of her Crohn’s disease lesions. Conclusion Loss-of-function mutation of NRLRP12 gene augments production of interleukin-1β and tumor necrosis factor-α, while gain-of-function mutation of IRF2BP2 impairs cytokine production and B cell differentiation. We propose that the presence of these two autosomal dominant variants caused an atypical clinical presentation of Crohn’s disease.

Published

2022

45. Variants in genes related to development of the urinary system are associated with Mayer–Rokitansky–Küster–Hauser syndrome

Author

Chunfang Chu, Lin Li, Shenghui Li, Qi Zhou, Ping Zheng, Yu-Di Zhang, Ai-hong Duan, Dan Lu, and Yu-Mei Wu

Subjects

Mayer–Rokitansky–Küster–Hauser syndrome, Whole-exome sequencing, Variant, TBC1D1, Medicine, Genetics, QH426-470

Abstract

Abstract Mayer–Rokitansky–Küster–Hauser (MRKH) syndrome, also known as Müllerian agenesis, is characterized by uterovaginal aplasia in an otherwise phenotypically normal female with a normal 46,XX karyotype. Previous studies have associated sequence variants of PAX8, TBX6, GEN1, WNT4, WNT9B, BMP4, BMP7, HOXA10, EMX2, LHX1, GREB1L, LAMC1, and other genes with MRKH syndrome. The purpose of this study was to identify the novel genetic causes of MRKH syndrome. Ten patients with MRKH syndrome were recruited at Beijing Obstetrics and Gynecology Hospital, Capital Medical University, Beijing, China. Whole-exome sequencing was performed for each patient. Sanger sequencing confirmed the potential causative genetic variants in each patient. In silico analysis and American College of Medical Genetics and Genomics (ACMG) guidelines helped to classify the pathogenicity of each variant. The Robetta online protein structure prediction tool determined whether the variants affected protein structures. Eleven variants were identified in 90% (9/10) of the patients and were considered a molecular genetic diagnosis of MRKH syndrome. These 11 variants were related to nine genes: TBC1D1, KMT2D, HOXD3, DLG5, GLI3, HIRA, GATA3, LIFR, and CLIP1. Sequence variants of TBC1D1 were found in two unrelated patients. All variants were heterozygous. These changes included one frameshift variant, one stop-codon variant, and nine missense variants. All identified variants were absent or rare in gnomAD East Asian populations. Two of the 11 variants (18.2%) were classified as pathogenic according to the ACMG guidelines, and the remaining nine (81.8%) were classified as variants of uncertain significance. Robetta online protein structure prediction analysis suggested that missense variants in TBC1D1 (p.E357Q), HOXD3 (p.P192R), and GLI3 (p.L299V) proteins caused significant structural changes compared to those in wild-type proteins, which in turn may lead to changes in protein function. This study identified many novel genes, especially TBC1D1, related to the pathogenesis of MRKH syndrome. The identification of these variants provides new insights into the etiology of MRKH syndrome and a new molecular genetic reference for the development of the reproductive tract.

Published

2022

46. Clinical efficiency of simultaneous CNV-seq and whole-exome sequencing for testing fetal structural anomalies

Author

Xinlin Chen, Yulin Jiang, Ruiguo Chen, Qingwei Qi, Xiujuan Zhang, Sheng Zhao, Chaoshi Liu, Weiyun Wang, Yuezhen Li, Guoqiang Sun, Jieping Song, Hui Huang, Chen Cheng, Jianguang Zhang, Longxian Cheng, and Juntao Liu

Subjects

Whole-exome sequencing, Prenatal diagnosis, CNV-seq, Structural anomaly, Medicine

Abstract

Abstract Background Birth defects are responsible for approximately 7% of neonatal deaths worldwide by World Health Organization in 2004. Many methods have been utilized for examining the congenital anomalies in fetuses. This study aims to investigate the efficiency of simultaneous CNV-seq and whole-exome sequencing (WES) in the diagnosis of fetal anomaly based on a large Chinese cohort. Methods In this cohort study, 1800 pregnant women with singleton fetus in Hubei Province were recruited from 2018 to 2020 for prenatal ultrasonic screening. Those with fetal structural anomalies were transferred to the Maternal and Child Health Hospital of Hubei Province through a referral network in Hubei, China. After multidisciplinary consultation and decision on fetal outcome, products of conception (POC) samples were obtained. Simultaneous CNV-seq and WES was conducted to identify the fetal anomalies that can compress initial DNA and turnaround time of reports. Results In total, 959 couples were finally eligible for the enrollment. A total of 227 trios were identified with a causative alteration (CNV or variant), among which 191 (84.14%) were de novo. Double diagnosis of pathogenic CNVs and variants have been identified in 10 fetuses. The diagnostic yield of multisystem anomalies was significantly higher than single system anomalies (32.28% vs. 22.36%, P = 0.0183). The diagnostic rate of fetuses with consistent intra- and extra-uterine phenotypes (172/684) was significantly higher than the rate of these with inconsistent phenotypes (17/116, P = 0.0130). Conclusions Simultaneous CNV-seq and WES analysis contributed to fetal anomaly diagnosis and played a vital role in elucidating complex anomalies with compound causes.

Published

2022

47. Expanding the phenotypic spectrum of mutations in LRP2: a novel candidate gene of non-syndromic familial comitant strabismus

Author

Yue Wang, Xuejuan Chen, Tao Jiang, Yayun Gu, Xiaohan Zhang, Wenwen Yuan, Andi Zhao, Rui Li, Zijin Wang, Zhibin Hu, and Hu Liu

Subjects

Comitant strabismus, Mutation, Phenotype, Whole-exome sequencing, Linkage analysis, Medicine

Abstract

Abstract Background Comitant strabismus (CS) is a heterogeneous disorder that is a major contributing factor to unilateral childhood-onset visual impairment. Studies have confirmed that genetic factors play an important role in the development of CS. The aim of this study was to identify the genetic cause of non-syndromic familial CS. Methods Fourteen unrelated CS families were recruited for the study. Twelve affected and 2 unaffected individuals from a large four-generation family (CS08) were selected to perform whole genome-wide linkage analysis. Parallel whole-exome sequencing (WES) was conducted in the same family (9 patients and 1 unaffected member) and 31 additional CS cases from 13 other unrelated families. Sanger sequencing was used to determine whether any of the remaining variants co-segregated with the disease phenotype in the corresponding family. Results Based on linkage analysis, CS in family CS08 mapped to a novel region of 34.17 centimorgan (cM) on chromosome 2q22.3-2q32.1 between markers D2S151 and D2S364, with a maximum log odds (LOD) score of 3.54 (theta = 0) at D2S142. Parallel WES identified a heterozygous variant, LRP2 c.335 A > G (p.Q112R), located in such a linkage interval that completely co-segregated with the disease in the family. Furthermore, another novel heterozygous variant (c.7274A > G, p.D2425G) in LRP2 that co-segregated was detected in 2 additional affected individuals from another unrelated family by WES. Both variants are predicted to be damaging by PolyPhen-2, SIFT and MutationTaster, and were absent in 100 ethnically matched normal controls. Conclusion LRP2 is a novel candidate genetic cause of non-syndromic familial CS.

Published

2021

48. Clinics and genetic background of hereditary gingival fibromatosis

Author

Karolina Strzelec, Agata Dziedzic, Katarzyna Łazarz-Bartyzel, Aleksander M. Grabiec, Ewa Gutmajster, Tomasz Kaczmarzyk, Paweł Plakwicz, and Katarzyna Gawron

Subjects

Chromosome, Gene, Hereditary gingival fibromatosis, Linkage analysis, Pathogenic variant, Whole-exome sequencing, Medicine

Abstract

Abstract Background Hereditary gingival fibromatosis (HGF) is a rare condition characterized by slowly progressive overgrowth of the gingiva. The severity of overgrowth may differ from mild causing phonetic and masticatory issues, to severe resulting in diastemas or malposition of teeth. Both, autosomal-dominant and autosomal-recessive forms of HGF are described. The aim of this review is a clinical overview, as well as a summary and discussion of the involvement of candidate chromosomal regions, pathogenic variants of genes, and candidate genes in the pathogenesis of HGF. The loci related to non-syndromic HGF have been identified on chromosome 2 (GINGF, GINGF3), chromosome 5 (GINGF2), chromosome 11 (GINGF4), and 4 (GINGF5). Of these loci, pathogenic variants of the SOS-1 and REST genes inducing HGF have been identified in the GINGF and the GINGF5, respectively. Furthermore, among the top 10 clusters of genes ranked by enrichment score, ATP binding, and fibronectin encoding genes were proposed as related to HGF. Conclusion The analysis of clinical reports as well as translational genetic studies published since the late’90s indicate the clinical and genetic heterogeneity of non-syndromic HGF and point out the importance of genetic studies and bioinformatics of more numerous unrelated families to identify novel pathogenic variants potentially inducing HGF. This strategy will help to unravel the molecular mechanisms as well as uncover specific targets for novel and less invasive therapies of this rare, orphan condition.

Published

2021

49. Monogenic mutations in four cases of neonatal-onset watery diarrhea and a mutation review in East Asia

Author

Weihui Yan, Yongtao Xiao, Yunyi Zhang, Yijing Tao, Yi Cao, Kunhui Liu, Wei Cai, and Ying Wang

Subjects

Microvillus inclusion disease, Congenital chloride diarrhea, Congenital tufting enteropathy, Neonatal-onset diarrhea, Whole-exome sequencing, Monogenetic mutation, Medicine

Abstract

Abstract Background Infants with neonatal-onset diarrhea present with intractable diarrhea in the first few weeks of life. A monogenic mutation is one of the disease etiologies and the use of next-generation sequencing (NGS) has made it possible to screen patients for their mutations. Main body We retrospectively reviewed the clinical data of four children from unrelated families, who presented with neonatal-onset, chronic, watery, non-bloody diarrhea. After genetic whole-exome sequencing, novel mutations were identified in the EPCAM gene of two children. Congenital chloride diarrhea was diagnosed in one case, which was associated with an SLC 26A 3 mutation, in which the patient presented with watery diarrhea, malnutrition, and hypochloremic alkalosis. Patient 4 was diagnosed with microvillus inclusion disease and possessed novel compound heterozygous mutations in the MYO5B gene. A review of the genetic variants of SLC 26A 3 reported in East Asia revealed that c.269_270 dupAA (p.G91Kfs*3) is the most frequent SLC 26A 3 mutation in China, compared with c.2063-1 G > T in Japan and Korea. EPCAM and MYO5B genetic variants were only sporadically reported in East Asia. Conclusion This study expands our knowledge of the clinical manifestations and molecular genetics of neonatal-onset watery diarrhea. Early diagnosis could be achieved by genomic analysis in those infants whose histology features are not typical. The discovery of four novel mutations in the EPCAM gene and two novel mutations in the MYO5B gene provides further etiological evidence for the association of genetic mutations with neonatal-onset diarrhea. To date, c.269_270 dupAA is the most frequent SLC 26A 3 mutation in China.

Published

2021

50. Rare POLN mutations confer risk for familial nasopharyngeal carcinoma through weakened Epstein-Barr virus lytic replication

Author

Ruo-Wen Xiao, Fang Wang, Tong-Min Wang, Jiang-Bo Zhang, Zi-Yi Wu, Chang-Mi Deng, Ying Liao, Ting Zhou, Da-Wei Yang, Si-Qi Dong, Wen-Qiong Xue, Yong-Qiao He, Xiao-Hui Zheng, Xi-Zhao Li, Pei-Fen Zhang, Shao-Dan Zhang, Ye-Zhu Hu, Yu-Ying Liu, Yun-Fei Xia, Song Gao, Jian-Bing Mu, Lin Feng, and Wei-Hua Jia

Subjects

Familial nasopharyngeal carcinoma, Whole-exome sequencing, POLN gene, Rare germline mutations, Epstein-Barr virus, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Nasopharyngeal carcinoma (NPC) exhibits significant familial aggregation; however, its susceptibility genes are largely unknown. Thus, this study aimed to identify germline mutations that might contribute to the risk of familial NPC, and explore their biological functions. Methods: Whole-exome sequencing was performed in 13 NPC pedigrees with multiple cases. Mutations co-segregated with disease status were further validated in a cohort composed of 563 probands from independent families, 2,953 sporadic cases, and 3,175 healthy controls. Experimental studies were used to explore the functions of susceptibility genes and their disease-related mutations. Findings: The three rare missense mutations in POLN (DNA polymerase nu) gene, P577L, R303Q, and F545C, were associated with familial NPC risk (5/576 [0·87%] in cases vs. 2/3374 [0·059%] in healthy controls with an adjusted OR of 44·84 [95% CI:3·91-514·34, p = 2·25 × 10−3]). POLN was involved in Epstein-Barr virus (EBV) lytic replication in NPC cells in vitro. POLN promoted viral DNA replication, immediate-early and late lytic gene expression, and progeny viral particle production, ultimately affecting the proliferation of host cells. The three mutations were located in two pivotal functional domains and were predicted to alter the protein stability of POLN in silico. Further assays demonstrated that POLN carrying any of the three mutations displayed reduced protein stability and decreased expression levels, thereby impairing its ability to promote complete EBV lytic replication and facilitate cell survival. Interpretation: We identified a susceptibility gene POLN for familial NPC and elucidated its function. Funding: This study was funded by the National Key Research and Development Program of China (2021YFC2500400); the National Key Research and Development Program of China (2020YFC1316902); the Basic and Applied Basic Research Foundation of Guangdong Province, China (2021B1515420007); the National Natural Science Foundation of China (81973131); the National Natural Science Foundation of China (82003520); the National Natural Science Foundation of China (81903395).

Published

2022