BACKGROUND Intracranial epidermoid cyst(IEC)transformation to malignant squamous cell carcinoma(SCC)is extremely rare,and its etiology is yet unknown.Currently,SCC is treated by performing surgery,followed by a combin...BACKGROUND Intracranial epidermoid cyst(IEC)transformation to malignant squamous cell carcinoma(SCC)is extremely rare,and its etiology is yet unknown.Currently,SCC is treated by performing surgery,followed by a combination of radiotherapy and chemotherapy.It is crucial to identify efficient and trustworthy therapeutic targets for SCC to improve its diagnosis,prognosis,and treatment.CASE SUMMARY In this study,we report the case of a 47-year-old female patient with SCC,which progressed from IEC in the left internal capsule region.The patient was sought treatment at our hospital for severe diplopic vision,accompanied with speech disorder and memory loss.Based on the clinical and postoperative pathology,this patient was finally diagnosed with SCC.To identify disease-causing variants,whole exome sequencing(WES)was performed on the proband.WES revealed two pathogenic missense mutations on Gap junction protein beta 2(GJB2)(c.257C>T)and Toll-like receptor 2(TLR2)(c.1039A>G),respectively.CONCLUSION This study provided the first clinical evidence for demonstrating the role of GJB2 and TLR2 in IEC development and treatment.We further confirmed WES as a robust and reliable technique for underlying rare and complex disease-related genetic factor identification.展开更多
Mitochondrial disorders are phenotypically varied, with serious clinical repercussions. Among them, there is the deficiency of combined oxidative phosphorylation of type 20, which occurs due to a defect in the VARS2 g...Mitochondrial disorders are phenotypically varied, with serious clinical repercussions. Among them, there is the deficiency of combined oxidative phosphorylation of type 20, which occurs due to a defect in the VARS2 gene. This article presents a case of a 2-year-old female with progressive myoclonic epilepsy and psychomotor regression, with refractoriness to multiple anticonvulsants. The diagnosis was only made after the examination was carried out. Therefore, this article highlights the aspects of this rare disease and the importance of the exome for the diagnosis of rare conditions.展开更多
BACKGROUND Most cases of Apert syndrome(AS)are found after birth.Cases of AS diagnosed by ultrasound combined with magnetic resonance imaging(MRI)and whole exome sequencing(WES)during pregnancy are rare.CASE SUMMARY W...BACKGROUND Most cases of Apert syndrome(AS)are found after birth.Cases of AS diagnosed by ultrasound combined with magnetic resonance imaging(MRI)and whole exome sequencing(WES)during pregnancy are rare.CASE SUMMARY We present the case of a 34-year old female patient(gravida 2,para 1)whose fetus was diagnosed with AS during pregnancy.Fetal ultrasound performed at 30,2/7 wk of pregnancy showed abnormalities.MRI and three-dimensional ultrasound performed at 31,1/7 wk of pregnancy showed the possibility of AS.Chromosome examination and core family WES were conducted at 31,5/7 wk of pregnancy.The results showed that FGFR2 in the fetus had a c.755C>G missense mutation in its nucleotide,and AS was confirmed.CONCLUSION This case highlights the importance of imaging examinations.Prenatal ultrasound combined with MRI can identify fetal morphological abnormalities accurately,which can be confirmed by WES.展开更多
AIM: To identify the potentially pathogenic gene variants that contributes to the etiology of strabismus. METHODS: A Chinese pedigree with strabismus was collected and the exomes of two affected individuals were se...AIM: To identify the potentially pathogenic gene variants that contributes to the etiology of strabismus. METHODS: A Chinese pedigree with strabismus was collected and the exomes of two affected individuals were sequenced using the next-generation sequencing technology. The resulting variants from exome sequencing were filtered by subsequent bioinformatics methods and the candidate mutation was verified as heterozygous in the affected proposita and her mother by sanger sequencing. RESULTS: Whole exome sequencing and filtering identified a nonsynonymous mutation Co434G-T transition in paired box 3 (PAX3) in the two affected individuals, which were predicted to be deleterious by more than 4 bioinformatics programs. This altered amino acid residue was located in the conserved PAX domain of PAX3. This gene encodes a member of the PAX family of transcription factors, which play critical roles during fetal development. Mutations in PAX3 were associated with Waardenburg syndrome with strabismus. CONCLUSION: Our results report that the c.434G-T mutation (p.R145L) in PAX3 may contribute to strabismus, expanding our understanding of the causally relevant genes for this disorder.展开更多
Tooth development is a complex process that involves precise and time-dependent orchestration of multiple genetic, molecular,and cellular interactions. Ameloblastin(AMBN, also named "amelin" or "sheathl...Tooth development is a complex process that involves precise and time-dependent orchestration of multiple genetic, molecular,and cellular interactions. Ameloblastin(AMBN, also named "amelin" or "sheathlin") is the second most abundant enamel matrix protein known to have a key role in amelogenesis. Amelogenesis imperfecta(AI [MIM: 104500]) refers to a genetically and phenotypically heterogeneous group of conditions characterized by inherited developmental enamel defects. The hereditary dentin disorders comprise a variety of autosomal-dominant genetic symptoms characterized by abnormal dentin structure affecting either the primary or both the primary and secondary teeth. The vital role of Ambn in amelogenesis has been confirmed experimentally using mouse models. Only two cases have been reported of mutations of AMBN associated with non-syndromic human AI. However, no AMBN missense mutations have been reported to be associated with both human AI and dentin disorders.We recruited one kindred with autosomal-dominant amelogenesis imperfecta(ADAI) and dentinogenesis imperfecta/dysplasia characterized by generalized severe enamel and dentin defects. Whole exome sequencing of the proband identified a novel heterozygous C-T point mutation at nucleotide position 1069 of the AMBN gene, causing a Pro to Ser mutation at the conserved amino acid position 357 of the protein. Exfoliated third molar teeth from the affected family members were found to have enamel and dentin of lower mineral density than control teeth, with thinner and easily fractured enamel, short and thick roots, and pulp obliteration. This study demonstrates, for the first time, that an AMBN missense mutation causes non-syndromic human AI and dentin disorders.展开更多
BACKGROUND Cronkhite-Canada syndrome(CCS)is a rare,non-genetic disorder characterized by multiple gastrointestinal polyps,and ectodermal lesions such as alopecia,fingernail atrophy,and skin mucosal pigmentation.Unfort...BACKGROUND Cronkhite-Canada syndrome(CCS)is a rare,non-genetic disorder characterized by multiple gastrointestinal polyps,and ectodermal lesions such as alopecia,fingernail atrophy,and skin mucosal pigmentation.Unfortunately,the pathogenesis of CCS is currently unknown.CASE SUMMARY Here,we describe the case of an elderly female with diarrhea,fatigue,and hair loss,who experienced abdominal pain for over half a year and was found to have multiple gastrointestinal polyps.She was diagnosed with CCS and was treated with albumin supplementation and prednisone,and her electrolyte imbalance was corrected.Following treatment,her symptoms significantly improved.To elucidate the role of potential genetic events in the pathogenesis of CCS,we performed exome sequencing using an extract of her colorectal adenoma.CONCLUSION Our data revealed multiple somatic mutations and copy number variations.Our findings provide a novel insight into the potential mechanisms of CCS etiology.展开更多
Background: Androgen insensitivity syndrome(AIS), a disorder of sexual development in 46, XY individuals, is caused by loss-of-function mutations in the androgen receptor(AR) gene. A variety of tumors have been report...Background: Androgen insensitivity syndrome(AIS), a disorder of sexual development in 46, XY individuals, is caused by loss-of-function mutations in the androgen receptor(AR) gene. A variety of tumors have been reported in association with AIS, but no cases with colorectal cancer(CRC) have been described.Case presentation: Here, we present a male patient with AIS who developed multiple early-onset CRCs and his pedigree. His first cousin was diagnosed with AIS and harbored the same AR gene mutation, but with no signs of CRC. The difference in clinical management for the two patients was that testosterone treatment was given to the proband for a much longer time compared with the cousin. The CRC family history was negative, and no germline mutations in well-known CRC-related genes were identified. A single nucleotide polymorphism array revealed a microduplication on chromosome 22q11.22 that encompassed a micro RNA potentially related to CRC pathogenesis. In the proband, whole exome sequencing identified a polymorphism in an oncogene and 13 rare loss-of-function variants, of which two were in CRC-related genes and four were in genes associated with other human cancers.Conclusions: By pathway analysis, all inherited germline genetic events were connected in a unique network whose alteration in the proband, together with continuous testosterone stimulation, may have played a role in CRC pathogenesis.展开更多
Approaches to understanding the genetic contribution to inflammatory bowel disease(IBD)have continuously evolved from family-and population-based epidemiology,to linkage analysis,and most recently,to genome-wide assoc...Approaches to understanding the genetic contribution to inflammatory bowel disease(IBD)have continuously evolved from family-and population-based epidemiology,to linkage analysis,and most recently,to genome-wide association studies(GWAS).The next stage in this evolution seems to be the sequencing of the exome,that is,the regions of the human genome which encode proteins.The GWAS approach has been very fruitful in identifying at least 163 loci as being associated with IBD,and now,exome sequencing promises to take our genetic understanding to the next level.In this review we will discuss the possible contributions that can be made by an exome sequencing approach both at the individual patient level to aid with disease diagnosis and future therapies,as well as in advancing knowledge of the pathogenesis of IBD.展开更多
Purpose The present study aimed to evaluate the genetic diagnostic yield and accuracy of exome sequencing in Chinese patients with split hand–foot malformation(SHFM),a severe heterogeneous congenital anomaly characte...Purpose The present study aimed to evaluate the genetic diagnostic yield and accuracy of exome sequencing in Chinese patients with split hand–foot malformation(SHFM),a severe heterogeneous congenital anomaly characterized by hypodevelopment of the central ray of the hands and feet.Methods A cohort of seven families and five sporadic patients with SHFM was investigated.Genomic DNA was prepared from the peripheral blood of affected as well as unaffected individuals.Whole exome sequencing(WES)was performed to identify the pathogenic mutations.Array-based comparative genomic hybridization(aCGH),CytoScan,quantitative polymerase chain reaction(qPCR),and Sanger sequencing were performed to validate the findings of WES.WES data of an additional cohort of 24 patients with non-SHFM congenital hand anomalies were analyzed as the control.Results Pathogenic variants of TP63,c.G956A p.R319H,and c.T602A:p.L201H,were identified in two families by WES.In the remaining patients,copy number analysis of the WES data by XHMM software identified pathogenic 10q 24 duplication in five individuals from three families,which was further validated via CytoScan and qPCR;however,WES could not detect duplication in 10q24 in an additional cohort of 24 individuals with non-SHFM congenital hand anomaly.Importantly,qPCR analysis of the 10q24 region copy number revealed a definite consistency with WES data in all individuals.Genotype–phenotype analysis did not present any unique feature that could differentiate between the families with TP63 mutation and 10q24 duplication.Conclusions Our study demonstrated that WES is an accurate and sensitive method to detect the pathogenic 10q24 duplication.Collectively,with TP63 mutation,a single WES testing could yield a diagnosis rate of about 40%(5/12)for the SHFM patients,at least in our cohort.As the genotype–phenotype correlation remains unclear,WES could be used as a cost-effective method for the genetic diagnosis of SHFM.展开更多
Vogt–Koyanagi–Harada(VKH)disease is a leading cause of blindness in young and middle-aged people.However,the etiology of VKH disease remains unclear.Here,we performed the first trio-based whole-exome sequencing stud...Vogt–Koyanagi–Harada(VKH)disease is a leading cause of blindness in young and middle-aged people.However,the etiology of VKH disease remains unclear.Here,we performed the first trio-based whole-exome sequencing study,which enrolled 25 VKH patients and 50 controls,followed by a study of 2081 VKH patients from a Han Chinese population to uncover detrimental mutations.A total of 15 de novo mutations in VKH patients were identified,with one of the most important being the membrane palmitoylated protein 2(MPP2)p.K315N(MPP2-N315)mutation.The MPP2-N315 mutation was highly deleterious according to bioinformatic predictions.Additionally,this mutation appears rare,being absent from the 1000 Genome Project and Genome Aggregation Database,and it is highly conserved in 10 species,including humans and mice.Subsequent studies showed that pathological phenotypes and retinal vascular leakage were aggravated in MPP2-N315 mutation knock-in or MPP2-N315 adeno-associated virus-treated mice with experimental autoimmune uveitis(EAU).In vitro,we used clustered regularly interspaced short palindromic repeats(CRISPR‒Cas9)gene editing technology to delete intrinsic MPP2 before overexpressing wild-type MPP2 or MPP2-N315.Levels of cytokines,such as IL-1β,IL-17E,and vascular endothelial growth factor A,were increased,and barrier function was destroyed in the MPP2-N315 mutant ARPE19 cells.Mechanistically,the MPP2-N315 mutation had a stronger ability to directly bind to ANXA2 than MPP2-K315,as shown by LC‒MS/MS and Co-IP,and resulted in activation of the ERK3/IL-17E pathway.Overall,our results demonstrated that the MPP2-K315N mutation may increase susceptibility to VKH disease.展开更多
Objective: Positive peritoneal lavege cytology(CY1) gastric cancer is featured by dismal prognosis, with high risks of peritoneal metastasis. However, there is a lack of evidence on pathogenic mechanism and signature ...Objective: Positive peritoneal lavege cytology(CY1) gastric cancer is featured by dismal prognosis, with high risks of peritoneal metastasis. However, there is a lack of evidence on pathogenic mechanism and signature of CY1and there is a continuous debate on CY1 therapy. Therefore, exploring the mechanism of CY1 is crucial for treatment strategies and targets for CY1 gastric cancer.Methods: In order to figure out specific driver genes and marker genes of CY1 gastric cancer, and ultimately offer clues for potential marker and risk assessment of CY1, 17 cytology-positive gastric cancer patients and 31matched cytology-negative gastric cancer patients were enrolled in this study. The enrollment criteria were based on the results of diagnostic laparoscopy staging and cytology inspection of exfoliated cells. Whole exome sequencing was then performed on tumor samples to evaluate genomic characterization of cytology-positive gastric cancer.Results: Least absolute shrinkage and selection operator(LASSO) algorithm identified 43 cytology-positive marker genes, while Mut Sig CV identified 42 cytology-positive specific driver genes. CD3G and CDKL2 were both driver and marker genes of CY1. Regarding mutational signatures, driver gene mutation and tumor subclone architecture, no significant differences were observed between CY1 and negative peritoneal lavege cytology(CY0).Conclusions: There might not be distinct differences between CY1 and CY0, and CY1 might represent the progression of CY0 gastric cancer rather than constituting an independent subtype. This genomic analysis will thus provide key molecular insights into CY1, which may have a direct effect on treatment recommendations for CY1and CY0 patients, and provides opportunities for genome-guided clinical trials and drug development.展开更多
BACKGROUND Angelman syndrome(AS)is caused by maternal chromosomal deletions,imprinting defects,paternal uniparental disomy involving chromosome 15 and the ubiquitin-protein ligase UBE3A gene mutations.However the gene...BACKGROUND Angelman syndrome(AS)is caused by maternal chromosomal deletions,imprinting defects,paternal uniparental disomy involving chromosome 15 and the ubiquitin-protein ligase UBE3A gene mutations.However the genetic basis remains unclear for several patients.AIM To investigate the involvement of UBE3A gene in AS and identifying new potential genes using exome sequencing.METHODS We established a cohort study in 50 patients referred to Farhat Hached University Hospital between 2006 and 2021,with a strong suspicion of AS and absence of chromosomal aberrations.The UBE3A gene was screened for mutation detection.Two unrelated patients issued from consanguineous families were subjected to exome analysis.RESULTS We describe seven UBE3A variants among them 3 none previously described including intronic variants c.2220+14T>C(intron14),c.2507+43T>A(Exon15)and insertion in Exon7:c.30-47_30-46.The exome sequencing revealed 22 potential genes that could be involved in AS-like syndromes that should be investigated further.CONCLUSION Screening for UBE3A mutations in AS patients has been proven to be useful to confirm the diagnosis.Our exome findings could rise to new potential alternative target genes for genetic counseling.展开更多
BACKGROUND Thus far,genetic analysis of patients clinically diagnosed with glycogen storage diseases(GSDs)in Thailand has not been reported.AIM To evaluate the clinical and biochemical profiles,molecular analysis and ...BACKGROUND Thus far,genetic analysis of patients clinically diagnosed with glycogen storage diseases(GSDs)in Thailand has not been reported.AIM To evaluate the clinical and biochemical profiles,molecular analysis and long-term outcomes of Thai children diagnosed with hepatic GSD.METHODS Children aged<18 years diagnosed with hepatic GSD and followed up at King Chulalongkorn Memorial Hospital were recruited.Whole-exome sequencing(WES)was performed to identify the causative gene variants.Medical records were assessed.RESULTS All eight children with histopathologically confirmed diagnosis were classified by WES into subtypes Ia(n=1),III(n=3),VI(n=3),and IX(n=1).A total number of 10 variants were identified including G6PC(n=1),AGL(n=4),PYGL(n=5),and PHKA2(n=1).AGL had two novel variants.The clinical manifestations were hepatomegaly(n=8),doll-like facies(n=3),wasting(n=2),and stunting(n=5).All patients showed hypoglycemia,transaminitis,and dyslipidemia.The mainstay of treatment was cornstarch supplementation and high-protein and low-lactosefructose diet.After a median follow-up time of 9.59 years,height turned to normal for age in 3/5 patients and none had malnutrition.Liver enzymes,blood sugar,and lipid profiles improved in all.CONCLUSION Hepatomegaly,transaminitis,and hypoglycemia are the hallmarks of GSD confirmed by liver histopathology.Molecular analysis can confirm the diagnosis or classify the subtype that might benefit from personalized treatment,prognosis,and long-term care.展开更多
Introduction: Anxiety disorders have a lifetime prevalence of 34% with a similar level of heritability (31%) yet lack objective markers that could differentiate patients with underlying conditions. Up to 60%-70% of pa...Introduction: Anxiety disorders have a lifetime prevalence of 34% with a similar level of heritability (31%) yet lack objective markers that could differentiate patients with underlying conditions. Up to 60%-70% of patients with Ehlers-Danlos syndrome have anxiety that meets criteria of generalized anxiety disorder, their clinical-DNA findings worth examining as biomarkers for patients with generalized anxiety. Method: Of the 1899 patients diagnosed with Ehlers-Danlos syndrome, 1261 were systematically evaluated for 80 history and 40 physical findings and separated into 826 who reported anxiety and 435 who did not. The most consistently reported or management-directing 60 of these clinical findings were, along with variations in genes relevant to these disorders, examined for association with anxiety. Results: Among the 30 anxiety- associated findings judged most predictive of Ehlers-Danlos syndrome in patients with anxiety were expected ones of adrenergic stimulation (difficulty concentrating-87% frequency and 1.26 anxiety/no anxiety ratio;chronic fatigue-84%, 1.17;sleep issues 69%, 1.52 that are criteria for generalized anxiety disorder) or of cholinergic suppression (e.g., frequent nausea 64%, 1.26). Less associated but more discriminating for underlying disease were those reflective of neuromuscular impact (e.g., chronic daily headaches 76%, 1.12);hypermobility (e.g., awareness of flexibility 72%, 1.03), or skin changes (e.g., elasticity around jaw 71%, 1.06). Anxiety-associated DNA variants included 54 of 88 in collagen type I/V/VII/IX genes, 14 of 16 in sodium channel SCN9A/10A/ 11A genes, 59 of 85 in POLG/MT-DNA genes, and 21 of 28 in profilaggrin- FLG genes that respectively impacted tissue laxity, sensory neural, autonomic-mitochondrial, and autonomic-inflammatory functions. Conclusion: Analysis of pathogenetic mechanisms in Ehlers-Danlos syndrome selected some 50 clinical-DNA findings useful for its diagnosis in those with generalized anxiety disorders.展开更多
Inflammatory bowel diseases (IBD) are complex multifactorial disorders that include Crohn’s disease (CD) and ulcerative colitis (UC). Considering that IBD is a genetic and multifactorial disease, we screened for the ...Inflammatory bowel diseases (IBD) are complex multifactorial disorders that include Crohn’s disease (CD) and ulcerative colitis (UC). Considering that IBD is a genetic and multifactorial disease, we screened for the distribution dynamism of IBD pathogenic genetic variants (single nucleotide polymorphisms;SNPs) and risk factors in four (4) IBD pediatric patients, by integrating both clinical exome sequencing and computational statistical approaches, aiming to categorize IBD patients in CD and UC phenotype. To this end, we first aligned genomic read sequences of these IBD patients to hg19 human genome by using bowtie 2 package. Next, we performed genetic variant calling analysis in terms of single nucleotide polymorphism (SNP) for genes covered by at least 20 read genomic sequences. Finally, we checked for biological and genomic functions of genes exhibiting statistically significant genetic variant (SNPs) by introducing Fitcon genomic parameter. Findings showed Fitcon parameter as normalizing IBD patient’s population variability, as well as inducing a relative good clustering between IBD patients in terms of CD and UC phenotypes. Genomic analysis revealed a random distribution of risk factors and as well pathogenic SNPs genetic variants in the four IBD patient’s genome, claiming to be involved in: i) Metabolic disorders, ii) Autoimmune deficiencies;iii) Crohn’s disease pathways. Integration of genomic and computational statistical analysis supported a relative genetic variability regarding IBD patient population by processing IBD pathogenic SNP genetic variants as opposite to IBD risk factor variants. Interestingly, findings clearly allowed categorizing IBD patients in CD and UC phenotypes by applying Fitcon parameter in selecting IBD pathogenic genetic variants. Considering as a whole, the study suggested the efficiency of integrating clinical exome sequencing and computational statistical tools as a right approach in discriminating IBD phenotypes as well as improving inflammatory bowel disease (IBD) molecular diagnostic process.展开更多
The causes of recurrent spontaneous abortion (RSA) and fetal malformations are multifactorial and unclear in most cases. Environmental, maternal, and genetic factors have been shown to contribute to these defects. Who...The causes of recurrent spontaneous abortion (RSA) and fetal malformations are multifactorial and unclear in most cases. Environmental, maternal, and genetic factors have been shown to contribute to these defects. Whole-exome sequencing (WES) is widely used to detect genetic variations associated with human diseases and has recently been successfully applied to unveil genetic causes of unexplained recurrent spontaneous abortion (URSA) and fetal malformations. Here, we review the current discovery and diagnosis strategies to identify the underlying pathogenic mutations of URSA and fetal malformations using WES technology and propose to further develop WES, both to advance our understanding of these diseases and to eventually lead to targeted therapies for reproductive disorders.展开更多
Background:Cerebrospinal fluid(CSF)has been demonstrated as a better source of circulating tumor DNA(ctDNA)than plasma for brain tumors.However,it is unclear whether whole exome sequencing(WES)is qualified for detecti...Background:Cerebrospinal fluid(CSF)has been demonstrated as a better source of circulating tumor DNA(ctDNA)than plasma for brain tumors.However,it is unclear whether whole exome sequencing(WES)is qualified for detection of ctDNA in CSF.The aim of this study was to determine if assessment of ctDNA in CSF by WES is a feasible approach to detect genomic alterations of glioblastoma.Methods:CSFs of ten glioblastoma patients were collected pre-operatively at the Department of Neurosurgery,Sun Yat-sen University Cancer Center.ctDNA in CSF and genome DNA in the resected tumor were extracted and subjected to WES.The identified glioblastoma-associated mutations from ctDNA in CSF and genome DNA in the resected tumor were compared.Results:Due to the ctDNA in CSF was unqualified for exome sequencing for one patient,nine patients were included into the final analysis.More glioblastoma-associated mutations tended to be detected in CSF compared with the corresponding tumor tissue samples(3.56±0.75 vs.2.22±0.32,P=0.097),while the statistical significance was limited by the small sample size.The average mutation frequencies were similar in CSF and tumor tissue samples(74.1%±6.0%vs.73.8%±6.0%,P=0.924).The R132H mutation of isocitrate dehydrogenase 1 and the G34V mutation of H3 histone,family 3A(H3F3A)which had been reported in the pathological diagnoses were also detected from ctDNA in CSF by WES.Patients who received temozolomide chemotherapy previously or those whose tumor involved subventricular zone tended to harbor more mutations in their CSF.Conclusion:Assessment of ctDNA in CSF by WES is a feasible approach to detect genomic alterations of glioblastoma,which may provide useful information for the decision of treatment strategy.展开更多
Background Autosomal recessive polycystic kidney disease (ARPKD) is a rare inherited disease, which is a disorder with multiple organ involvement, mainly the kidney and liver. It is caused by mutations in the PKHD1 ...Background Autosomal recessive polycystic kidney disease (ARPKD) is a rare inherited disease, which is a disorder with multiple organ involvement, mainly the kidney and liver. It is caused by mutations in the PKHD1 gene. Here, we reported the clinical characteristics of a case with ARPKD and analyze the genetic features of this patient as well as of his father using targeted exome sequencing and Sanger sequencing. Methods Genomic DNA was extracted from peripheral blood leukocytes obtained from a patient with ARPKD. The mutations were identified using exome sequencing and confirmed by Sanger sequencing. Results The patient was diagnosed as ARPKD based on ultrasonography and abdominal computed tomography which showed polycystic changes, multiple calcinosis of both kidneys, and multiple dilated bile ducts of the liver. Compound heterozygous PKHD1 gene mutations A979G and G5935A, which lead to substitution of an asparagine for an aspartate at amino acid 327 (N327D) and a glycine for an arginine at amino acid 1979 (G1979R) respectively, were identified using targeted exome sequencing and confirmed by Sanger sequencing for the patient. In addition, the father of the patient was identified to be a carrier of heterozygous A979G mutation of this gene. Conclusions We identified that the compound heterozygous PKHD1 gene mutations are the molecular basis of the patient with ARPKD. Targeted exome sequencing is suitable for genetic diagnosis of single-gene inherited diseases like ARPKD in which the pathogenic gene is a large.展开更多
Short stature is among the most common endocrinological disease phenotypes of childhood and may occur as an isolated finding or in conjunction with other clinical manifestations.Although the diagnostic utility of clin...Short stature is among the most common endocrinological disease phenotypes of childhood and may occur as an isolated finding or in conjunction with other clinical manifestations.Although the diagnostic utility of clinical genetic testing in short stature has been implicated,the genetic architecture and the utility of genomic studies such as exome sequencing(ES)in a sizable cohort of patients with short stature have not been investigated systematically.In this study,we recruited 561 individuals with short stature from two centers in China during a 4-year period.We performed ES for all patients and available parents.All patients were retrospectively divided into two groups:an isolated short stature group(group I,n=257)and an apparently syndromic short stature group(group II,n=304).Causal variants were identified in 135 of 561(24.1%)patients.In group I,29 of 257(11.3%)of the patients were solved by variants in 24 genes.In group II,106 of 304(34.9%)patients were solved by variants in 57 genes.Genes involved in fundamental cellularprocess played an important role in the genetic architecture of syndromic short stature.Distinct genetic architectures and pathophysiological processes underlie isolated and syndromic short stature.展开更多
Here we present an adaptation of NimbleGen 2.1M-probe array sequence capture for whole exome sequencing using the Illumina Genome Analyzer (GA) platform.The protocol involves two-stage library construction.The specifi...Here we present an adaptation of NimbleGen 2.1M-probe array sequence capture for whole exome sequencing using the Illumina Genome Analyzer (GA) platform.The protocol involves two-stage library construction.The specificity of exome enrichment was approximately 80% with 95.6% even coverage of the 34 Mb target region at an average sequencing depth of 33-fold.Comparison of our results with whole genome shot-gun resequencing results showed that the exome SNP calls gave only 0.97% false positive and 6.27% false negative variants.Our protocol is also well suited for use with whole genome amplified DNA.The results presented here indicate that there is a promising future for large-scale population genomics and medical studies using a whole exome sequencing approach.展开更多
文摘BACKGROUND Intracranial epidermoid cyst(IEC)transformation to malignant squamous cell carcinoma(SCC)is extremely rare,and its etiology is yet unknown.Currently,SCC is treated by performing surgery,followed by a combination of radiotherapy and chemotherapy.It is crucial to identify efficient and trustworthy therapeutic targets for SCC to improve its diagnosis,prognosis,and treatment.CASE SUMMARY In this study,we report the case of a 47-year-old female patient with SCC,which progressed from IEC in the left internal capsule region.The patient was sought treatment at our hospital for severe diplopic vision,accompanied with speech disorder and memory loss.Based on the clinical and postoperative pathology,this patient was finally diagnosed with SCC.To identify disease-causing variants,whole exome sequencing(WES)was performed on the proband.WES revealed two pathogenic missense mutations on Gap junction protein beta 2(GJB2)(c.257C>T)and Toll-like receptor 2(TLR2)(c.1039A>G),respectively.CONCLUSION This study provided the first clinical evidence for demonstrating the role of GJB2 and TLR2 in IEC development and treatment.We further confirmed WES as a robust and reliable technique for underlying rare and complex disease-related genetic factor identification.
文摘Mitochondrial disorders are phenotypically varied, with serious clinical repercussions. Among them, there is the deficiency of combined oxidative phosphorylation of type 20, which occurs due to a defect in the VARS2 gene. This article presents a case of a 2-year-old female with progressive myoclonic epilepsy and psychomotor regression, with refractoriness to multiple anticonvulsants. The diagnosis was only made after the examination was carried out. Therefore, this article highlights the aspects of this rare disease and the importance of the exome for the diagnosis of rare conditions.
文摘BACKGROUND Most cases of Apert syndrome(AS)are found after birth.Cases of AS diagnosed by ultrasound combined with magnetic resonance imaging(MRI)and whole exome sequencing(WES)during pregnancy are rare.CASE SUMMARY We present the case of a 34-year old female patient(gravida 2,para 1)whose fetus was diagnosed with AS during pregnancy.Fetal ultrasound performed at 30,2/7 wk of pregnancy showed abnormalities.MRI and three-dimensional ultrasound performed at 31,1/7 wk of pregnancy showed the possibility of AS.Chromosome examination and core family WES were conducted at 31,5/7 wk of pregnancy.The results showed that FGFR2 in the fetus had a c.755C>G missense mutation in its nucleotide,and AS was confirmed.CONCLUSION This case highlights the importance of imaging examinations.Prenatal ultrasound combined with MRI can identify fetal morphological abnormalities accurately,which can be confirmed by WES.
文摘AIM: To identify the potentially pathogenic gene variants that contributes to the etiology of strabismus. METHODS: A Chinese pedigree with strabismus was collected and the exomes of two affected individuals were sequenced using the next-generation sequencing technology. The resulting variants from exome sequencing were filtered by subsequent bioinformatics methods and the candidate mutation was verified as heterozygous in the affected proposita and her mother by sanger sequencing. RESULTS: Whole exome sequencing and filtering identified a nonsynonymous mutation Co434G-T transition in paired box 3 (PAX3) in the two affected individuals, which were predicted to be deleterious by more than 4 bioinformatics programs. This altered amino acid residue was located in the conserved PAX domain of PAX3. This gene encodes a member of the PAX family of transcription factors, which play critical roles during fetal development. Mutations in PAX3 were associated with Waardenburg syndrome with strabismus. CONCLUSION: Our results report that the c.434G-T mutation (p.R145L) in PAX3 may contribute to strabismus, expanding our understanding of the causally relevant genes for this disorder.
基金partially supported by a grant from the National Natural Science Foundation of China 31371279 (to Fu Xiong)the National Natural Science Foundation of China 81371137 (to Bu-Ling Wu)the Science and Technology Program of Guangzhou 201707010301 (to Fu Xiong)
文摘Tooth development is a complex process that involves precise and time-dependent orchestration of multiple genetic, molecular,and cellular interactions. Ameloblastin(AMBN, also named "amelin" or "sheathlin") is the second most abundant enamel matrix protein known to have a key role in amelogenesis. Amelogenesis imperfecta(AI [MIM: 104500]) refers to a genetically and phenotypically heterogeneous group of conditions characterized by inherited developmental enamel defects. The hereditary dentin disorders comprise a variety of autosomal-dominant genetic symptoms characterized by abnormal dentin structure affecting either the primary or both the primary and secondary teeth. The vital role of Ambn in amelogenesis has been confirmed experimentally using mouse models. Only two cases have been reported of mutations of AMBN associated with non-syndromic human AI. However, no AMBN missense mutations have been reported to be associated with both human AI and dentin disorders.We recruited one kindred with autosomal-dominant amelogenesis imperfecta(ADAI) and dentinogenesis imperfecta/dysplasia characterized by generalized severe enamel and dentin defects. Whole exome sequencing of the proband identified a novel heterozygous C-T point mutation at nucleotide position 1069 of the AMBN gene, causing a Pro to Ser mutation at the conserved amino acid position 357 of the protein. Exfoliated third molar teeth from the affected family members were found to have enamel and dentin of lower mineral density than control teeth, with thinner and easily fractured enamel, short and thick roots, and pulp obliteration. This study demonstrates, for the first time, that an AMBN missense mutation causes non-syndromic human AI and dentin disorders.
文摘BACKGROUND Cronkhite-Canada syndrome(CCS)is a rare,non-genetic disorder characterized by multiple gastrointestinal polyps,and ectodermal lesions such as alopecia,fingernail atrophy,and skin mucosal pigmentation.Unfortunately,the pathogenesis of CCS is currently unknown.CASE SUMMARY Here,we describe the case of an elderly female with diarrhea,fatigue,and hair loss,who experienced abdominal pain for over half a year and was found to have multiple gastrointestinal polyps.She was diagnosed with CCS and was treated with albumin supplementation and prednisone,and her electrolyte imbalance was corrected.Following treatment,her symptoms significantly improved.To elucidate the role of potential genetic events in the pathogenesis of CCS,we performed exome sequencing using an extract of her colorectal adenoma.CONCLUSION Our data revealed multiple somatic mutations and copy number variations.Our findings provide a novel insight into the potential mechanisms of CCS etiology.
基金supported in part by funds obtained through an Italian law that allows taxpayers to allocate 0.5 percent share of their income tax contribution to a research institution of their choice
文摘Background: Androgen insensitivity syndrome(AIS), a disorder of sexual development in 46, XY individuals, is caused by loss-of-function mutations in the androgen receptor(AR) gene. A variety of tumors have been reported in association with AIS, but no cases with colorectal cancer(CRC) have been described.Case presentation: Here, we present a male patient with AIS who developed multiple early-onset CRCs and his pedigree. His first cousin was diagnosed with AIS and harbored the same AR gene mutation, but with no signs of CRC. The difference in clinical management for the two patients was that testosterone treatment was given to the proband for a much longer time compared with the cousin. The CRC family history was negative, and no germline mutations in well-known CRC-related genes were identified. A single nucleotide polymorphism array revealed a microduplication on chromosome 22q11.22 that encompassed a micro RNA potentially related to CRC pathogenesis. In the proband, whole exome sequencing identified a polymorphism in an oncogene and 13 rare loss-of-function variants, of which two were in CRC-related genes and four were in genes associated with other human cancers.Conclusions: By pathway analysis, all inherited germline genetic events were connected in a unique network whose alteration in the proband, together with continuous testosterone stimulation, may have played a role in CRC pathogenesis.
基金Supported by A Senior Research Award from the Crohn’s to Cardinale CJColitis Foundation of America to Hakonarson Ha special purpose fund from the Edmunds Family Foundation for Ulcerative Colitis Studies to Baldassano RN
文摘Approaches to understanding the genetic contribution to inflammatory bowel disease(IBD)have continuously evolved from family-and population-based epidemiology,to linkage analysis,and most recently,to genome-wide association studies(GWAS).The next stage in this evolution seems to be the sequencing of the exome,that is,the regions of the human genome which encode proteins.The GWAS approach has been very fruitful in identifying at least 163 loci as being associated with IBD,and now,exome sequencing promises to take our genetic understanding to the next level.In this review we will discuss the possible contributions that can be made by an exome sequencing approach both at the individual patient level to aid with disease diagnosis and future therapies,as well as in advancing knowledge of the pathogenesis of IBD.
基金We would like to thank the families for their participation in this study.We would also like to thank our funding sources:This study was supported by National Science Funding of China No.81772115 and 81571930 to BW.
文摘Purpose The present study aimed to evaluate the genetic diagnostic yield and accuracy of exome sequencing in Chinese patients with split hand–foot malformation(SHFM),a severe heterogeneous congenital anomaly characterized by hypodevelopment of the central ray of the hands and feet.Methods A cohort of seven families and five sporadic patients with SHFM was investigated.Genomic DNA was prepared from the peripheral blood of affected as well as unaffected individuals.Whole exome sequencing(WES)was performed to identify the pathogenic mutations.Array-based comparative genomic hybridization(aCGH),CytoScan,quantitative polymerase chain reaction(qPCR),and Sanger sequencing were performed to validate the findings of WES.WES data of an additional cohort of 24 patients with non-SHFM congenital hand anomalies were analyzed as the control.Results Pathogenic variants of TP63,c.G956A p.R319H,and c.T602A:p.L201H,were identified in two families by WES.In the remaining patients,copy number analysis of the WES data by XHMM software identified pathogenic 10q 24 duplication in five individuals from three families,which was further validated via CytoScan and qPCR;however,WES could not detect duplication in 10q24 in an additional cohort of 24 individuals with non-SHFM congenital hand anomaly.Importantly,qPCR analysis of the 10q24 region copy number revealed a definite consistency with WES data in all individuals.Genotype–phenotype analysis did not present any unique feature that could differentiate between the families with TP63 mutation and 10q24 duplication.Conclusions Our study demonstrated that WES is an accurate and sensitive method to detect the pathogenic 10q24 duplication.Collectively,with TP63 mutation,a single WES testing could yield a diagnosis rate of about 40%(5/12)for the SHFM patients,at least in our cohort.As the genotype–phenotype correlation remains unclear,WES could be used as a cost-effective method for the genetic diagnosis of SHFM.
基金We thank the families for participation in this study,and we thank Novogene Technology Co.,Ltd.,for the WES sequencing and analysis.This work was supported by the National Natural Science Foundation Project of China(82070951,82271078)the National Natural Science Foundation Key Program(81930023)+3 种基金The Innovative Research Group Project of Chongqing Education Commission(CXQT19015)the Innovation Supporting Plan of Overseas Study of Chongqing(cx2018010)the National Key Clinical Specialties Construction Program of China,the Chongqing Branch of the National Clinical Research Center for Ocular Diseases,the Chongqing Key Laboratory of Ophthalmology(CSTC,2008CA5003)the Program for Youth Innovation in Future Medicine,Chongqing Medical University(w0047).
文摘Vogt–Koyanagi–Harada(VKH)disease is a leading cause of blindness in young and middle-aged people.However,the etiology of VKH disease remains unclear.Here,we performed the first trio-based whole-exome sequencing study,which enrolled 25 VKH patients and 50 controls,followed by a study of 2081 VKH patients from a Han Chinese population to uncover detrimental mutations.A total of 15 de novo mutations in VKH patients were identified,with one of the most important being the membrane palmitoylated protein 2(MPP2)p.K315N(MPP2-N315)mutation.The MPP2-N315 mutation was highly deleterious according to bioinformatic predictions.Additionally,this mutation appears rare,being absent from the 1000 Genome Project and Genome Aggregation Database,and it is highly conserved in 10 species,including humans and mice.Subsequent studies showed that pathological phenotypes and retinal vascular leakage were aggravated in MPP2-N315 mutation knock-in or MPP2-N315 adeno-associated virus-treated mice with experimental autoimmune uveitis(EAU).In vitro,we used clustered regularly interspaced short palindromic repeats(CRISPR‒Cas9)gene editing technology to delete intrinsic MPP2 before overexpressing wild-type MPP2 or MPP2-N315.Levels of cytokines,such as IL-1β,IL-17E,and vascular endothelial growth factor A,were increased,and barrier function was destroyed in the MPP2-N315 mutant ARPE19 cells.Mechanistically,the MPP2-N315 mutation had a stronger ability to directly bind to ANXA2 than MPP2-K315,as shown by LC‒MS/MS and Co-IP,and resulted in activation of the ERK3/IL-17E pathway.Overall,our results demonstrated that the MPP2-K315N mutation may increase susceptibility to VKH disease.
基金supported by the National Natural Science Foundation of China (No. U20A20371)the National Key Technology Research and Development Program of the Ministry of Science and Technology of China (No. D171100006517004)+2 种基金Beijing Municipal Administration of Hospitals’ Youth Program (QML20191103)Clinical Medicine Plus X-Young Scholars Project, Peking Universitythe Fundamental Research Funds for the Central Universities and the Science Foundation of Peking University Cancer Hospital。
文摘Objective: Positive peritoneal lavege cytology(CY1) gastric cancer is featured by dismal prognosis, with high risks of peritoneal metastasis. However, there is a lack of evidence on pathogenic mechanism and signature of CY1and there is a continuous debate on CY1 therapy. Therefore, exploring the mechanism of CY1 is crucial for treatment strategies and targets for CY1 gastric cancer.Methods: In order to figure out specific driver genes and marker genes of CY1 gastric cancer, and ultimately offer clues for potential marker and risk assessment of CY1, 17 cytology-positive gastric cancer patients and 31matched cytology-negative gastric cancer patients were enrolled in this study. The enrollment criteria were based on the results of diagnostic laparoscopy staging and cytology inspection of exfoliated cells. Whole exome sequencing was then performed on tumor samples to evaluate genomic characterization of cytology-positive gastric cancer.Results: Least absolute shrinkage and selection operator(LASSO) algorithm identified 43 cytology-positive marker genes, while Mut Sig CV identified 42 cytology-positive specific driver genes. CD3G and CDKL2 were both driver and marker genes of CY1. Regarding mutational signatures, driver gene mutation and tumor subclone architecture, no significant differences were observed between CY1 and negative peritoneal lavege cytology(CY0).Conclusions: There might not be distinct differences between CY1 and CY0, and CY1 might represent the progression of CY0 gastric cancer rather than constituting an independent subtype. This genomic analysis will thus provide key molecular insights into CY1, which may have a direct effect on treatment recommendations for CY1and CY0 patients, and provides opportunities for genome-guided clinical trials and drug development.
文摘BACKGROUND Angelman syndrome(AS)is caused by maternal chromosomal deletions,imprinting defects,paternal uniparental disomy involving chromosome 15 and the ubiquitin-protein ligase UBE3A gene mutations.However the genetic basis remains unclear for several patients.AIM To investigate the involvement of UBE3A gene in AS and identifying new potential genes using exome sequencing.METHODS We established a cohort study in 50 patients referred to Farhat Hached University Hospital between 2006 and 2021,with a strong suspicion of AS and absence of chromosomal aberrations.The UBE3A gene was screened for mutation detection.Two unrelated patients issued from consanguineous families were subjected to exome analysis.RESULTS We describe seven UBE3A variants among them 3 none previously described including intronic variants c.2220+14T>C(intron14),c.2507+43T>A(Exon15)and insertion in Exon7:c.30-47_30-46.The exome sequencing revealed 22 potential genes that could be involved in AS-like syndromes that should be investigated further.CONCLUSION Screening for UBE3A mutations in AS patients has been proven to be useful to confirm the diagnosis.Our exome findings could rise to new potential alternative target genes for genetic counseling.
基金Supported by Ratchadaphiseksomphot Fund,Graduate Affairs,Faculty of Medicine,Chulalongkorn University,No.GA66/020Ratchadaphiseksomphot Fund,Chulalongkorn University,No.RCU_H_64_007_30.
文摘BACKGROUND Thus far,genetic analysis of patients clinically diagnosed with glycogen storage diseases(GSDs)in Thailand has not been reported.AIM To evaluate the clinical and biochemical profiles,molecular analysis and long-term outcomes of Thai children diagnosed with hepatic GSD.METHODS Children aged<18 years diagnosed with hepatic GSD and followed up at King Chulalongkorn Memorial Hospital were recruited.Whole-exome sequencing(WES)was performed to identify the causative gene variants.Medical records were assessed.RESULTS All eight children with histopathologically confirmed diagnosis were classified by WES into subtypes Ia(n=1),III(n=3),VI(n=3),and IX(n=1).A total number of 10 variants were identified including G6PC(n=1),AGL(n=4),PYGL(n=5),and PHKA2(n=1).AGL had two novel variants.The clinical manifestations were hepatomegaly(n=8),doll-like facies(n=3),wasting(n=2),and stunting(n=5).All patients showed hypoglycemia,transaminitis,and dyslipidemia.The mainstay of treatment was cornstarch supplementation and high-protein and low-lactosefructose diet.After a median follow-up time of 9.59 years,height turned to normal for age in 3/5 patients and none had malnutrition.Liver enzymes,blood sugar,and lipid profiles improved in all.CONCLUSION Hepatomegaly,transaminitis,and hypoglycemia are the hallmarks of GSD confirmed by liver histopathology.Molecular analysis can confirm the diagnosis or classify the subtype that might benefit from personalized treatment,prognosis,and long-term care.
文摘Introduction: Anxiety disorders have a lifetime prevalence of 34% with a similar level of heritability (31%) yet lack objective markers that could differentiate patients with underlying conditions. Up to 60%-70% of patients with Ehlers-Danlos syndrome have anxiety that meets criteria of generalized anxiety disorder, their clinical-DNA findings worth examining as biomarkers for patients with generalized anxiety. Method: Of the 1899 patients diagnosed with Ehlers-Danlos syndrome, 1261 were systematically evaluated for 80 history and 40 physical findings and separated into 826 who reported anxiety and 435 who did not. The most consistently reported or management-directing 60 of these clinical findings were, along with variations in genes relevant to these disorders, examined for association with anxiety. Results: Among the 30 anxiety- associated findings judged most predictive of Ehlers-Danlos syndrome in patients with anxiety were expected ones of adrenergic stimulation (difficulty concentrating-87% frequency and 1.26 anxiety/no anxiety ratio;chronic fatigue-84%, 1.17;sleep issues 69%, 1.52 that are criteria for generalized anxiety disorder) or of cholinergic suppression (e.g., frequent nausea 64%, 1.26). Less associated but more discriminating for underlying disease were those reflective of neuromuscular impact (e.g., chronic daily headaches 76%, 1.12);hypermobility (e.g., awareness of flexibility 72%, 1.03), or skin changes (e.g., elasticity around jaw 71%, 1.06). Anxiety-associated DNA variants included 54 of 88 in collagen type I/V/VII/IX genes, 14 of 16 in sodium channel SCN9A/10A/ 11A genes, 59 of 85 in POLG/MT-DNA genes, and 21 of 28 in profilaggrin- FLG genes that respectively impacted tissue laxity, sensory neural, autonomic-mitochondrial, and autonomic-inflammatory functions. Conclusion: Analysis of pathogenetic mechanisms in Ehlers-Danlos syndrome selected some 50 clinical-DNA findings useful for its diagnosis in those with generalized anxiety disorders.
文摘Inflammatory bowel diseases (IBD) are complex multifactorial disorders that include Crohn’s disease (CD) and ulcerative colitis (UC). Considering that IBD is a genetic and multifactorial disease, we screened for the distribution dynamism of IBD pathogenic genetic variants (single nucleotide polymorphisms;SNPs) and risk factors in four (4) IBD pediatric patients, by integrating both clinical exome sequencing and computational statistical approaches, aiming to categorize IBD patients in CD and UC phenotype. To this end, we first aligned genomic read sequences of these IBD patients to hg19 human genome by using bowtie 2 package. Next, we performed genetic variant calling analysis in terms of single nucleotide polymorphism (SNP) for genes covered by at least 20 read genomic sequences. Finally, we checked for biological and genomic functions of genes exhibiting statistically significant genetic variant (SNPs) by introducing Fitcon genomic parameter. Findings showed Fitcon parameter as normalizing IBD patient’s population variability, as well as inducing a relative good clustering between IBD patients in terms of CD and UC phenotypes. Genomic analysis revealed a random distribution of risk factors and as well pathogenic SNPs genetic variants in the four IBD patient’s genome, claiming to be involved in: i) Metabolic disorders, ii) Autoimmune deficiencies;iii) Crohn’s disease pathways. Integration of genomic and computational statistical analysis supported a relative genetic variability regarding IBD patient population by processing IBD pathogenic SNP genetic variants as opposite to IBD risk factor variants. Interestingly, findings clearly allowed categorizing IBD patients in CD and UC phenotypes by applying Fitcon parameter in selecting IBD pathogenic genetic variants. Considering as a whole, the study suggested the efficiency of integrating clinical exome sequencing and computational statistical tools as a right approach in discriminating IBD phenotypes as well as improving inflammatory bowel disease (IBD) molecular diagnostic process.
基金supported by the National Natural Science Foundation of China (Nos. 31522034 and 81730038)the National High Technology Research and Development Program Grant (2015AA020407)
文摘The causes of recurrent spontaneous abortion (RSA) and fetal malformations are multifactorial and unclear in most cases. Environmental, maternal, and genetic factors have been shown to contribute to these defects. Whole-exome sequencing (WES) is widely used to detect genetic variations associated with human diseases and has recently been successfully applied to unveil genetic causes of unexplained recurrent spontaneous abortion (URSA) and fetal malformations. Here, we review the current discovery and diagnosis strategies to identify the underlying pathogenic mutations of URSA and fetal malformations using WES technology and propose to further develop WES, both to advance our understanding of these diseases and to eventually lead to targeted therapies for reproductive disorders.
基金This work was supported by the National Natural Science Foundation of China(No.81872324)Science and Technology Planning Project of Guangdong Province,China(No.2018A030313754)+1 种基金Science and Technology Program of Guangzhou,China(Nos.201704020133,201707010169)Science and Technology Planning Project of Jiangmen,China(No.2018630100110019805).
文摘Background:Cerebrospinal fluid(CSF)has been demonstrated as a better source of circulating tumor DNA(ctDNA)than plasma for brain tumors.However,it is unclear whether whole exome sequencing(WES)is qualified for detection of ctDNA in CSF.The aim of this study was to determine if assessment of ctDNA in CSF by WES is a feasible approach to detect genomic alterations of glioblastoma.Methods:CSFs of ten glioblastoma patients were collected pre-operatively at the Department of Neurosurgery,Sun Yat-sen University Cancer Center.ctDNA in CSF and genome DNA in the resected tumor were extracted and subjected to WES.The identified glioblastoma-associated mutations from ctDNA in CSF and genome DNA in the resected tumor were compared.Results:Due to the ctDNA in CSF was unqualified for exome sequencing for one patient,nine patients were included into the final analysis.More glioblastoma-associated mutations tended to be detected in CSF compared with the corresponding tumor tissue samples(3.56±0.75 vs.2.22±0.32,P=0.097),while the statistical significance was limited by the small sample size.The average mutation frequencies were similar in CSF and tumor tissue samples(74.1%±6.0%vs.73.8%±6.0%,P=0.924).The R132H mutation of isocitrate dehydrogenase 1 and the G34V mutation of H3 histone,family 3A(H3F3A)which had been reported in the pathological diagnoses were also detected from ctDNA in CSF by WES.Patients who received temozolomide chemotherapy previously or those whose tumor involved subventricular zone tended to harbor more mutations in their CSF.Conclusion:Assessment of ctDNA in CSF by WES is a feasible approach to detect genomic alterations of glioblastoma,which may provide useful information for the decision of treatment strategy.
文摘Background Autosomal recessive polycystic kidney disease (ARPKD) is a rare inherited disease, which is a disorder with multiple organ involvement, mainly the kidney and liver. It is caused by mutations in the PKHD1 gene. Here, we reported the clinical characteristics of a case with ARPKD and analyze the genetic features of this patient as well as of his father using targeted exome sequencing and Sanger sequencing. Methods Genomic DNA was extracted from peripheral blood leukocytes obtained from a patient with ARPKD. The mutations were identified using exome sequencing and confirmed by Sanger sequencing. Results The patient was diagnosed as ARPKD based on ultrasonography and abdominal computed tomography which showed polycystic changes, multiple calcinosis of both kidneys, and multiple dilated bile ducts of the liver. Compound heterozygous PKHD1 gene mutations A979G and G5935A, which lead to substitution of an asparagine for an aspartate at amino acid 327 (N327D) and a glycine for an arginine at amino acid 1979 (G1979R) respectively, were identified using targeted exome sequencing and confirmed by Sanger sequencing for the patient. In addition, the father of the patient was identified to be a carrier of heterozygous A979G mutation of this gene. Conclusions We identified that the compound heterozygous PKHD1 gene mutations are the molecular basis of the patient with ARPKD. Targeted exome sequencing is suitable for genetic diagnosis of single-gene inherited diseases like ARPKD in which the pathogenic gene is a large.
基金funded in part by the Beijing Natural Science Foundation(JQ20032 to N.W.and to 7191007 to Z.W.)National Natural Science Foundation of China(81822030 and 82072391 to N.W.,81772299and 81930068 to Z.W.,81772301 and 81972132 to G.Q.,81672123and 81972037 to J.Z.)+7 种基金Capital's Funds for Health Improvement and Research(2020-4-40114 to N.W.)Tsinghua University-Peking Union Medical College Hospital Initiative Scientific Research ProgramNational Key Research and Development Program of China(2018YFC0910500 to N.W.and Z.W.,2016YFC0901501 to S.Z.)the PUMC Youth Fund and the Fundamental Research Funds for the Central Universities(3332019052 to Y.M.)the CAMS Initiative Fund for Medical Sciences(2016-I2M-3-003 to G.Q.and N.W.,2016-I2M-2-006 and 2017-I2M-2-001 to Z.W.)the Non-profit Central Research Institute Fund of Chinese Academy of Medical Sciences(2019PT320025 to N.W.)sponsored by GeneScience Pharmaceuticals Co.,Ltd.(Changchun,China)funded by the United States National Institutes of Health(UM1HG006542 and K08 HG008986)。
文摘Short stature is among the most common endocrinological disease phenotypes of childhood and may occur as an isolated finding or in conjunction with other clinical manifestations.Although the diagnostic utility of clinical genetic testing in short stature has been implicated,the genetic architecture and the utility of genomic studies such as exome sequencing(ES)in a sizable cohort of patients with short stature have not been investigated systematically.In this study,we recruited 561 individuals with short stature from two centers in China during a 4-year period.We performed ES for all patients and available parents.All patients were retrospectively divided into two groups:an isolated short stature group(group I,n=257)and an apparently syndromic short stature group(group II,n=304).Causal variants were identified in 135 of 561(24.1%)patients.In group I,29 of 257(11.3%)of the patients were solved by variants in 24 genes.In group II,106 of 304(34.9%)patients were solved by variants in 57 genes.Genes involved in fundamental cellularprocess played an important role in the genetic architecture of syndromic short stature.Distinct genetic architectures and pathophysiological processes underlie isolated and syndromic short stature.
基金supported by the Chinese Academy of Sciences (Grant Nos.GJHZ0701-6 and KSCX-YWN-023)the National Natural Science Foundation of China (Grant Nos.30725008,90403130,90608010,30221004,90612019 and 30392130)the National Basic Research Program of China (Grant Nos.2007CB815701,2007CB815703 and 2007CB815705)
文摘Here we present an adaptation of NimbleGen 2.1M-probe array sequence capture for whole exome sequencing using the Illumina Genome Analyzer (GA) platform.The protocol involves two-stage library construction.The specificity of exome enrichment was approximately 80% with 95.6% even coverage of the 34 Mb target region at an average sequencing depth of 33-fold.Comparison of our results with whole genome shot-gun resequencing results showed that the exome SNP calls gave only 0.97% false positive and 6.27% false negative variants.Our protocol is also well suited for use with whole genome amplified DNA.The results presented here indicate that there is a promising future for large-scale population genomics and medical studies using a whole exome sequencing approach.
