Identification of two novel heterozygous variants of SMC3 with Cornelia de Lange syndrome.

BACKGROUND: Cornelia de Lange syndrome (CdLS) is a multisystem genetic disorder, and cases caused by variants in the structural maintenance of chromosomes protein 3 (SMC3) gene are uncommon. Here, we report two cases of CdLS associated with novel pathogenic variants in SMC3 from two Chinese families. METHODS: Clinical presentations of two patients with CdLS were evaluated, and specimens from the patients and other family members were collected for Trio-based whole-exome sequencing. Pyrosequencing, chip-based digital PCR, minigene splicing assay, and in silico analysis were carried out to elucidate the impact of novel variants. RESULTS: Novel heterozygous variants in SMC3 were identified in each proband. One harbored a novel splicing and mosaic variant (c.2535+1G>A) in SMC3. The mutated allele G>A conversion was approximately 23.1% by digital PCR, which indicated that 46.2% of peripheral blood cells had this variant. Additionally, in vitro minigene splicing analysis validated that the c.2535+1G>A variant led to an exon skipping in messenger RNA splicing. The other carried a heterozygous variant (c.435C>A), which was predicted to be pathogenic as well as significantly altered in local electrical potential. The former showed multiple abnormalities and marked clinical severity, and the latter mainly exhibited a speech developmental disorder and slightly facial anomalies. CONCLUSION: Both patients were clinically diagnosed with Cornelia de Lange syndrome 3 (CdLS3). The newly identified SMC3 gene variants can expand the understanding of CdLS3 and provide reliable evidence for genetic counseling to the affected family.

Heterozygous CAPZA2 mutations cause global developmental delay, hypotonia with epilepsy: a case report and the literature review.

CAPZA2 encodes the α2 subunit of CAPZA, which is vital for actin polymerization and depolymerization in humans. However, understanding of diseases associated with CAPZA2 remains limited. To date, only three cases have been documented with neurodevelopmental abnormalities such as delayed motor development, speech delay, intellectual disability, hypotonia, and a history of seizures. In this study, we document a patient who exhibited seizures, mild intellectual disability, and impaired motor development yet did not demonstrate speech delay or hypotonia. The patient also suffered from recurrent instances of respiratory infections, gastrointestinal and allergic diseases. A novel de novo splicing variant c.219+1 G > A was detected in the CAPZA2 gene through whole-exome sequencing. This variant led to exon 4 skipping in mRNA splicing, confirmed by RT-PCR and Sanger sequencing. To our knowledge, this is the third study on human CAPZA2 defects, documenting the fourth unambiguously diagnosed case. Furthermore, this splicing mutation type is reported here for the first time. Our research offers additional support for the existence of a CAPZA2-related non-syndromic neurodevelopmental disorder. Our findings augment our understanding of the phenotypic range associated with CAPZA2 deficiency and enrich the knowledge of the mutational spectrum of the CAPZA2 gene.

[Genetic and clinical analysis of a child with Shwachman-Diamond syndrome due to compound heterozygous variants of SBDS gene].

OBJECTIVE: To analyze the clinical features and genetic characteristics of a patient with Shwachman-Diamond syndrome (SDS) due to compound heterozygous variants of SBDS gene. METHODS: A female child with SDS who was admitted to the Children's Hospital Affiliated to Zhengzhou University in February 2022 was selected as the study subject. Clinical data of the child was collected. Peripheral blood samples of the child and her elder sister and parents were collected and subjected to whole exome sequencing (WES). Candidate variant was verified by Sanger sequencing. RESULTS: The child, a 1-year-and-1-month-old girl, had mainly manifested with diarrhea, hematochezia, growth retardation and malnutrition, along with increased transaminases and decreased neutrophils and hemoglobin. Anteroposterior X-ray of her left wrist indicated significantly delayed bone age. Colonoscopy revealed that her colorectal mucosa was erosive with oily food residues attached to the intestinal lumen. Genetic testing revealed that she has harbored c.258+2T>C and c.100A>G compound heterozygous variants of the SBDS gene. The c.258+2T>C variant has derived from her father and known to be pathogenic, whilst the other has derived from her mother. Based on the guidelines from the American College of Medical Genetics and Genomics, the c.100A>G variant was classified as likely pathogenic (PM1+PM2_Supporting+PM3+PM5+PP3). CONCLUSION: The compound heterozygous variants of c.258+2T>C and c.100A>G probably underlay the SDS in this child. For children with refractory diarrhea, liver damage and growth retardation, SDS should be suspected, and genetic testing can facilitate the diagnosis and treatment.

Periostin/Bone Morphogenetic Protein 1 axis axis regulates proliferation and osteogenic differentiation of sutured mesenchymal stem cells and affects coronal suture closure in the TWIST1+/- mouse model of craniosynostosis.

BACKGROUND AND OBJECTIVE: The pathogenesis of coronal suture craniosynostosis is often attributed to the dysregulated cellular dynamics, particularly the excessive proliferation and abnormal osteogenic differentiation of suture cells. Despite its clinical significance, the molecular mechanims of this condition remain inadequately understood. This study is dedicated to exploring the influence of the Periostin/Bone Morphogenetic Protein 1 (BMP1) axis on the growth and osteogenic maturation of Suture Mesenchymal Stem Cells (SMSCs), which are pivotal in suture homeostasis. METHODS: Neonatal TWIST Basic Helix-Loop-Helix Transcription Factor 1 heterozygous (TWIST1+/-) mice, aged one day, were subjected to adenoviral vector-mediated Periostin upregulation. To modulate Periostin/BMP1 levels in SMSCs, we employed siRNA and pcDNA 3.1 vectors. Histological and molecular characterizations, including hematoxylin and eosin staining, Western blot, and immunohistochemistry were employed to study suture closure phenotypes and protein expression patterns. Cellular assays, encompassing colony formation, 5-ethynyl-2'deoxyuridine, and wound healing tests were conducted to analyze SMSC proliferation and migration. Osteogenic differentiation was quantified using Alkaline Phosphatase (ALP) and Alizarin Red S (ARS) staining, while protein markers of proliferation and differentiation were evaluated by Western blotting. The direct interaction between Periostin and BMP1 was validated through co-immunoprecipitation assays. RESULTS: In the TWIST1+/- model, an upregulation of Periostin coupled with a downregulation of BMP1 was observed. Augmenting Periostin expression mitigated craniosynostosis. In vitro, overexpression of Periostin or BMP1 knockdown suppressed SMSC proliferation, migration, and osteogenic differentiation. Periostin knockdown manifested an inverse biological impact. Notably, the suppressive influence of Periostin overexpression on SMSCs was effectively counteracted by upregulating BMP1. There was a direct interaction between Periostin and BMP1. CONCLUSION: These findings underscore the significance of the Periostin/BMP1 axis in regulating craniosynostosis and SMSC functions, providing new insights into the molecular mechanisms of craniosynostosis and potential targets for therapeutic intervention.

De novo variants in KCNJ3 are associated with early-onset epilepsy.

BACKGROUND: KCNJ3 encodes a subunit of G-protein-coupled inwardly rectifying potassium channels, which are important for cellular excitability and inhibitory neurotransmission. However, the genetic basis of KCNJ3 in epilepsy has not been determined. This study aimed to identify the pathogenic KCNJ3 variants in patients with epilepsy. METHODS: Trio exome sequencing was performed to determine potential variants of epilepsy. Individuals with KCNJ3 variants were recruited for this study. Detailed clinical information and genetic data were obtained and systematically reviewed. Whole-cell patch-clamp recordings were performed to evaluate the functional consequences of the identified variants. RESULTS: Two de novo missense variants (c.998T>C (p.Leu333Ser) and c.938G>A (p. Arg313Gln)) in KCNJ3 were identified in two unrelated families with epilepsy. The variants were absent from the gnomAD database and were assumed to be damaging or probably damaging using multiple bioinformatics tools. They were both located in the C-terminal domain. The amino acid residues were highly conserved among various species. Clinically, the seizures occurred at a young age and were under control after combined treatment. Electrophysiological analysis revealed that the KCNJ3 Leu333Ser and Arg313Gln variants significantly compromised the current activities and exhibited loss-of-function (LOF) effects. CONCLUSION: Our findings suggest that de novo LOF variants in KCNJ3 are associated with early-onset epilepsy. Genetic testing of KCNJ3 in patients with epilepsy may serve as a strategy for precision medicine.

Clinical and genetic analysis of two patients with primary ciliary dyskinesia caused by a novel variant of DNAAF2.

BACKGROUND: The study describes the clinical manifestations and variant screening of two Chinese siblings with primary ciliary dyskinesia (PCD). They carry the same DNAAF2 genotype, which is an extremely rare PCD genotype in the Chinese population. In addition, the study illustrated an overview of published variants on DNAAF2 to date. METHODS: A two-child family was recruited for the study. Clinical manifestations, laboratory tests, bronchoscopic and otoscopic images, and radiographic data were collected. Whole blood was collected from siblings and their parents for whole-exome sequencing (WES) and Sanger sequencing to screen variants. RESULTS: The two siblings exhibited typical clinical manifestations of PCD. Two compound heterozygous variants in DNAAF2 were detected in both by WES. Nonsense variant c.156 C>A and frameshift variant c.177_178insA, which was a novel variant. CONCLUSION: The study identified a novel variant of DNAAF2 in Chinese children with a typical phenotype of PCD, which may enrich our knowledge of the clinical, diagnostic and genetic information of DNAAF2-induced PCD in children.

Influence of COVID-19 pandemic on the epidemiology of Mycoplasma pneumoniae infections among hospitalized children in Henan, China.

Background: Increasing reports have indicated that non-pharmaceutical interventions to control the COVID-19 pandemic may also have an effect on the prevalence of other pathogens. Mycoplasma pneumoniae is an important atypical pathogen prevalent in children with high rates of macrolide resistance. The aim of this study was to investigate the epidemiological characteristics of M. pneumoniae infection in children before and during the COVID-19 pandemic. Methods: In this study, M. pneumoniae detection results were extracted from Henan Children's Hospital from 2018 to 2021. The epidemiological characteristics of pediatric M. pneumoniae infection were analyzed. Results: We found that the highest positive rate of M. pneumoniae infection was 11.00 % in 2018, 14.01 % in 2019, followed by 11.24 % in 2021 and 8.75 % in 2020 (p < 0.001). Most tested children had respiratory system manifestations, and pneumoniae was the most common diagnosis (53.23 %). An increase in the number of positive cases was observed with an increase in age, with a higher number of cases among children over 6 years old. No positive cases were identified among children aged 1-28 days. The decrease in the positive rate among children aged between1-6 years old in 2020 and 2021 was found to be statistically significant (p < 0.001). The pre-pandemic period demonstrated a higher incidence rate in the fall, whereas the summers and winters exhibited a significantly higher positive rate during the pandemic period (p < 0.001). Different regions in Henan also showed different epidemic patterns. Conclusions: In summary, strict pandemic measures influenced the spread of M. pneumoniae to some extent and changed demographic characteristics, including age, season and regional distribution. Continuous monitoring is required for the control and prevention of related diseases.

Molecular typing of Mycoplasma pneumoniae and its correlation with macrolide resistance in children in Henan of China.

BACKGROUND/PURPOSE: As a major causative pathogen of community-acquired pneumonia, Mycoplasma pneumoniae (M. pneumoniae) can cause both upper and lower respiratory tract inflammation as well as extrapulmonary syndromes, especially in infants and the elderly. The emergence of macrolide-resistance has significant effects on the treatment of relevant diseases in children. This study aimed to analyze the genotypes and the macrolide resistance-associated mutations in M. pneumoniae sampled from the pediatric patients in Henan, China. METHODS: A segment of gene on the 23S rRNA was amplified and sequenced to detect the mutations related to macrolide resistance. Molecular typing was performed by the method named multiple locus variable-number tandem repeat analysis (MLVA) for macrolide-susceptible and macrolide-resistant specimens. RESULTS: Among the M. pneumoniae-positive samples, 95.7% (111/116) had macrolide-resistant mutation, and all of them consisted of the A2063G mutation. There were only two MLVA types identified in this study, type 4-5-7-2 (51/92, 55.4%) and type 3-5-6-2 (41/92, 44.6%). CONCLUSION: There was no correlation between MLVA types and macrolide resistance (P â€‹> â€‹0.05).

[Clinical characteristics and genetic analysis of two children with Tuberous sclerosis complex].

OBJECTIVE: To explore the clinical characteristics and genetic variants in two children with Tuberous sclerosis complex (TSC). METHODS: Two children who had presented at the Children's Hospital Affiliated to Zhengzhou University respectively in June 2020 and July 2021 were selected as the study subjects. Clinical data of the children were collected, and potential pathogenic variants were screened by whole exome sequencing (WES). Candidate variants were verified by Sanger sequencing of their family members. RESULTS: Child 1 was a 7-month-and-29-day-old male, and child 2 was a 2-year-and-6-month-old male. Both children had shown symptoms of epileptic seizures and multiple hypomelanotic macules. Genetic testing revealed that both children had harbored de novo variants of the TSC2 gene, namely c.3239_3240insA and c.3330delC, which were unreported previously. Based on the guidelines from the American College of Medical Genetics and Genomics (ACMG), both variants were rated as pathogenic (PVS1+PS2+PM2_Supporting). CONCLUSION: This study has uncovered the genetic etiology for two children with TSC. Above findings have also enriched the phenotypic and mutational spectrum of TSC in the Chinese population.

[Analysis of CLCN4 gene variant in a child with Raynaud-Claes syndrome].

OBJECTIVE: To analyze the clinical phenotype and genetic variant in a child with Raynaud-Claes syndrome (RCS). METHODS: A child who was diagnosed with RCS at the Children's Hospital Affiliated to Zhengzhou University for delayed language and motor development in August 2022 was selected as the study subject. Clinical data of the child were collected, and potential genetic variant was detected by next-generation sequencing and Sanger sequencing. The pathogenicity of the candidate variant was analyzed. RESULTS: The child, a 4-year-and-4-month-old male, has manifested global developmental delay, speech disorders, special facial features and behavioral abnormalities. Genetic testing revealed that he has harbored a hemizygous c.1174C>T (p.Gln392Ter) variant of the CLCN4 gene, which was not detected in either of his parents. Based on the guidelines from the American College of Medical Genetics and Genomics (ACMG), the variant was rated as pathogenic (PVS1+PS2+PM2_Supporting). CONCLUSION: The c.1174C>T (p.Gln392Ter) variant of the CLCN4 gene probably underlay the PCS in this child. Above finding has expanded the mutational spectrum of the CLCN4 gene and enabled genetic counseling and prenatal diagnosis for his family.

[Analysis of clinical phenotypes and MMACHC gene variants in 65 children with Methylmalonic acidemia and homocysteinemia].

OBJECTIVE: To carry out Sanger sequencing for MMACHC gene variants among 65 Chinese pedigrees affected with combined methylmalonic aciduria and homocysteinemia, and summarize their genetic and clinical characteristics and prognosis. METHODS: Clinical characteristics of the 65 children identified with Methylmalonic acidemia and homocysteinemia at the Children's Hospital Affiliated to Zhengzhou University (Zhengzhou Children's Hospital) from April 2017 to April 2022 were selected as the study subjects. Potential variants of the MMACHC gene were detected by direct sequencing of the PCR products. RESULTS: The median age of the 65 children was 3 months (14 days to 17 years old). These included 28 cases (43.08%) from neonatal screening, 11 cases (16.92%) with a history of jaundice, and 9 cases (13.85%) with various degrees of anemia. The main clinical symptoms included development delay, slow growth, epilepsy, hydrocephalus, lethargy, feeding difficulty, regression or decline in motor ability, recurrent respiratory infections, anemia, jaundice, respiratory and heart failures, hydrocephalus, limb weakness, and hypertension. Blood and urine tandem mass spectrometry screening has revealed increase of methylmalonic acid, propionyl carnitine, propionyl carnitine/acetylcarnitine ratio, and propionyl carnitine/free carnitine ratio to various extents, and blood homocysteine was increased in all patients. The detection rate of genetic variants was 98.46% (128/130), and in total 22 types of MMACHC gene variants were detected. The most common ones have included c.609G>A (W203X) (58/128), c.658-660del (K220del) (19/128), and c.80A>G (Q27A) (16/128). Two novel variants have been identified, namely c.565C>T (p.R189C) and c.624_ 625delTG (p.A208Afs), which were respectively predicted as likely pathogenic (PM2_Supporting+PM3+PP2+PP3) and pathogenic (PVS1+PM2_Supporting+PM3+PP2) based on the guidelines from the American College of Medical Genetics and Genomics (ACMG). Exon 4 had the highest frequency for the detection. CONCLUSION: Identification of MMACHC gene variants has confirmed the diagnosis in the children, among which the c.609G>A variant has the highest frequency. Discovery of the new variants has enriched the mutational spectrum of the MMACHC gene.

Clinical analysis of Noonan syndrome caused by RRAS2 mutations and literature review.

Noonan syndrome is a common developmental disorder characterized by distinctive facial dysmorphism, short stature, congenital heart defects, pectus deformity, and developmental delay. It is related to the abnormal activation of genes involved in the RAS-MAPK signaling pathway, more than a dozen of which can be affected. However, mutations of the RRAS2 gene are rare, with only 6 different RRAS2 variants in 13 patients reported to date. In this case report, whole-exome sequencing revealed a novel heterozygous variant in the RRAS2 gene NM_012250: c.212G > A, p.(Gly71Glu). Phenotypically, our patient had typical Noonan syndrome-related clinical manifestations consistent with published reports, such as short stature, facial dysmorphism, short neck, patent foramen ovale, moderate global developmental delay, and hearing impairment. In addition, our patient also had a distal middle finger deformity and hair defect, which have not been reported in previous cases. We analyzed the clinical characteristics of all patients with Noonan syndrome caused by RRAS2 variants and reviewed the literature. This discovery expands the genetic and phenotypic spectrum of Noonan syndrome.

Expansion of the mutation spectrum and phenotype of USP7-related neurodevelopmental disorder.

Background: Hao-fountain syndrome (HAFOUS) is a neurodevelopmental syndrome characterized by global developmental and severe language delays, behavioral abnormalities (including autism), and mild dysmorphic impairment of intellectual development. It is a dominant genetic disease caused by USP7 gene (*602519) mutations on chromosome 16p13.2. So far, only 15 cases with 14 deleterious variants in the USP7 gene have been reported. Materials and methods: This study describes three unrelated patients with USP7 variants. Besides, we identified novel de novo heterozygous USP7 variants using trio-whole exome sequencing and verified by Sanger sequencing. Furthermore, clinical characteristics were evaluated by reviewing the medical records. Results: The three identified variants, i.e., one frameshift variant (c.247_250del, p.Glu83Argfs × 18) and two missense variants (c.992A > G, p.Tyr331Cys; c.835T > G, p.Leu279Val) are unreported. The predominant clinical manifestations of the three patients included: DD/ID; language impairment; abnormal behavior; abnormal brain magnetic resonance (dilation of lateral ventricles, dilation of Virchow-Robin spaces, dilated the third ventricle, abnormal cerebral white matter morphology in bilateral occipital lobes, hypodysplasia of the corpus callosum, arachnoid cyst, delayed myelination, and widened subarachnoid space); some also had facial abnormalities. Conclusion: In summary, DD/ID is the most prevalent clinical phenotype of HAFOUS, although some patients also exhibit language and behavioral abnormalities. For the first time in China, we identified three variants of the USP7 gene using whole-genome sequence data. This work expands the USP7 gene mutation spectrum and provides additional clinical data on the clinical phenotype of HAFOUS.

HPDL mutations identified by exome sequencing are associated with infant neurodevelopmental disorders.

BACKGROUND: Recent research found that biallelic HPDL variants can cause neurodevelopmental disorder with progressive spasticity and brain white matter abnormalities (NEDSWMA), with only a few reports. Clinical phenotypic information on individuals with damaging HPDL variants may also be incomplete. The phenotype of NEDSWMA is characterized by severe neurodevelopmental delay, brain atrophy, and spasticity in infancy. METHODS: Exome sequencing was used in the proband and his parents to identify the underlying genetic cause. Candidate mutations were validated by classic Sanger sequencing. The clinical presentation of the infant who carried HPDL variants was summarized. RESULTS: We identified a novel compound heterozygous variants in HPDL, c.995delC (p.T332Mfs) and c.1051C>T (p.Q351*) in the patient a 6-month-old boy presenting with global developmental delay, seizures, hypertonia, and limb spasticity. Brain magnetic resonance imaging (MRI) showed thin corpus callosum, ventriculomegaly, white matter volume reduction, bilateral frontotemporal subarachnoid widening, and sulcus deeping. CONCLUSION: Our results provided important information for the associations of variants in HPDL with the neurodevelopmental disorder in infants, and broaden the genetic spectrum of HPDL-related disease. This is the second report of the HPDL mutation causing infant neurodevelopmental disorders in a Chinese population.

Paternal uniparental disomy of chromosome 16 resulting in homozygosity of a GPT2 mutation causes intellectual and developmental disability.

Recessive mutations in glutamate pyruvate transaminase 2 (GPT2) have recently been found to be associated with intellectual and developmental disability (IDD). In this study, we discovered a homozygous missense variant, NM_133443: [c.1172C > T, p. Pro391Leu], of GPT2 on chromosome 16 in a proband diagnosed with IDD through trio whole-exome sequencing (WES). The pathogenicity of the variant was further verified by bioinformatics analysis and functional studies in vitro. This autosomal recessive disease was caused by paternal uniparental disomy (UPD) which was further proven by single nucleotide polymorphism array (SNP array). In past literature, recessive diseases in chromosome 16 were usually due to maternal UPD where Mendel's law of inheritance was not applicable. However, in our case we found that paternal UPD can cause recessive diseases related to the GPT2 gene on chromosome 16. Our study provides an important line of evidence for the diagnosis of GPT2-related intellectual developmental disorders.

[Clinical and genetic analysis of two rare male patients with Rett syndrome].

OBJECTIVE: To conduct clinical and genetic analysis of two male patients with atypical Rett syndrome. METHODS: Collection of clinical data in the two patients and these parents; whole exome sequencing (WES) was used to detect the potential variants, which were verified by Sanger sequencing. X chromosome inactivation (XCI) detection is performed in the Patient 1's mother to detect the allelic expression difference of the MECP2 gene. RESULTS: Patient 1, a 5-year and 10-month-old boy, had mental disorders and mild intellectual disability (ID) (IQ: 54), whose mother had ID. Patient 2 was a 9-month and 18-day-old male presented with recurrent infections, respiratory insufficiency, hypotonia and global developmental delay. WES indentified a hemizygous mutation, c.499C>T (p.R167W), in the MECP2 gene in patient 1, which was inherited from his mother. The inactivation of X chromosome is skewed, and the expression ratio of wild-type and mutant MECP2 is 100%:0. Patient 2 was found a de novo splicing mutation, c.62+2_62+3del in the MECP2 gene. They were both reported pathogenic variant related to Rett syndrome. c.499C>T (p.R167W) was defined as likely pathogenic (PS1+PM2+PP3) and c.62+2_62+3del was pathogenic (PVS1+PM2+PM6) based on American College of Medical Genetics and Genomics standards and guidelines. CONCLUSION: Both the two patients were diagnosed with rare male Rett syndrome, which had atypical clinical manifestations and large difference. Above foundings have revealed novel phenotypes in Chinese male patients with Rett syndrome.

A de novo and novel nonsense variants in ASXL2 gene is associated with Shashi-Pena syndrome.

This ASXL2 gene encodes a member of a family of epigenetic regulators that bind various histone-modifying enzymes and are involved in the assembly of transcription factors at specific genomic loci. Recent research has found that pathogenic variants in ASXL2 gene can lead to Shashi-Pena syndrome. However, clinical reports of individuals with damaging ASXL2 variants were limited and clinical phenotypic information may also be incomplete at present. Here, we reported a patient from Chinese family presenting with Shashi-Pena syndrome duo to a nonsense variant c.2485C > T; p. (Gln829*) in ASXL2 and analyzed the clinical phenotypes of the patient. In addition to the typical facial appearance, feeding difficulty, cardiac dysfunction and developmental delay, the patient also demonstrated multiple clinical problems not reported in other published cases, including granulocytopenia, thrombocytopenia and "single transverse palmar crease". Additionally, this is also the first case of premature death associated to Shashi-Pena syndrome induced by ASXL2 variants in a Chinese population. Our results provided important information for genetic counseling of the family and broaden the spectrum of phenotypes and genetic variations of the syndrome.

Genetic analysis and identification of novel variations in Chinese patients with pediatric epilepsy by whole-exome sequencing.

OBJECTIVES: We aimed to investigate the genetic etiology of epilepsy in children, and to analyze the nature of genetic variation, the function of related genes, and the genotype-phenotype relationship. Moreover, the impact of the genetic diagnosis on prognosis and prenatal diagnosis will be discussed. METHODS: We recruited 218 pediatric epilepsy patients with onset ages ranging from postnatal 5 days to 3 years during a three-year collection period. WES was conducted only for the probands to screen for possible candidate genes. RESULTS: A total of 55 patients (25.2%) had positive genetic diagnoses. Autosomal dominant gene variants were the most common (34/55; 61.8%) and de novo variants (31/34; 91.2%) consistent with an autosomal dominant mode of inheritance. Among 64 variants identified in 35 genes, 33 (51.6%) were novel, previously unreported. Ion channel genes play critical roles in the pathogenesis of epilepsy, accounting for 58.8% (20/34) of the variants. A total of 31 (56.4%) families chose to have a prenatal diagnosis in subsequent pregnancies based on the genetic diagnosis. CONCLUSION: Our data suggest that applying WES in patients with epilepsy of unknown etiology can improve counseling and management. Early establishment of genetic diagnosis was necessary for counseling on recurrence risk and prenatal diagnosis. A large number of unreported variants were detected, widening the known spectrum of genetic variation related to epilepsy risk.

A novel variant in UBE3A in a family with multigenerational intellectual disability and developmental delay.

BACKGROUND: Angelman syndrome (AS) is a rare neurodevelopmental disorder and is characterized by severe cognitive disability, motor dysfunction, speech impairment, hyperactivity, and frequent seizures. Although the maternal chromosomal region 15q11.2-q13 deletion is the most common mechanism of AS, ~10% of individuals with AS are caused by the intragenic variants in the maternally inherited UBE3A, which encodes an E3 ubiquitin ligase. METHODS: Clinical diagnoses were based on detailed clinical findings. Trio-based exome sequencing was performed on the proband and her parents to identify the underlying genetic variants. The candidate variants were confirmed by Sanger sequencing following PCR amplification. In silico analyses were conducted to predict the effect of the identified variant on the function of UBE3A protein. RESULTS: We identified a novel variant c.2029G>C (p. Gly677Arg) in UBE3A as the most promising candidate. In silico analyses showed that p.Gly677Arg in the UBE3A affects a highly conserved residue. Her mother had the variant at this locus. Sanger sequencing results showed that II-2, II-5, II-7, IV-1, III-5, III-7, III-8, and III-9 have the variant c.2029G>C, and all patients inherited maternally variant in UBE3A, while the offsprings of the male carrier were unaffected. CONCLUSIONS: We identified a novel variant (c.2029G>C) in the UBE3A in a Chinese family with multigenerational intellectual disability and developmental delay. Our findings expanded the genotypic spectrum of AS and provided important information for genetic counseling.