应用高通量测序技术产前诊断8例Xp22.31微重复分析

目的探讨在产前诊断中应用高通量测序技术检出Xp22.31微重复的临床意义。方法选取2018年1月至2019年2月来我院就诊并进行高通量测序的孕妇625例,对结果进行分析。结果分析625例高通量测序结果检出Xp22.31微重复8例,检出率为1.28%,结论应用高通量测序技术Xp22.31微重复检出率高,其意义未明,引起的临床表型多样,可能存在其它异常,应进一步检测分析。     

Speech and language delay in a patient with WDR4 mutations

Primordial dwarfism (PD) is mainly characterized by growth deficiency with heterogeneous phenotypes. A group of genes are known to be associated with PD or PD-related syndrome. WD repeat domain 4 (WDR4) is recently reported to be responsible for PD. Here we report a 6-year-old boy from a non-consanguineous couple with motor and speech delay as well as intellectual disability. Whole exome sequencing (WES) identified a missense mutation (NM_033661.4:c.491A > C; p.(Asp164Ala)) and a small insertion (NM_033661.4:c.940dupC; p.(Leu314Profs*16)) of WDR4 in this patient. Two novel mutations confirmed by Sanger sequencing are from father and mother respectively according to a recessive inheritance pattern. Asp164Ala located in functional region is predicted to be deleterious by two kinds of algorithm. The small insertion causing a frameshift mutation leads to truncated protein. In this study, we present two novel WDR4 mutations responsible for PD in a 6-year-old patient, expanding the molecular and phenotype spectrum of WDR4-related PD.     

Interstitial microduplication of Xp22.31: Causative of intellectual disability or benign copy number variant?

The use of comparative genomic hybridization (CGH) and single nucleotide polymorphism (SNP) arrays has dramatically altered the approach to identification of genetic alterations that can explain intellectual disability and /or congenital anomalies. However, the discovery of numerous copy number changes with benign or unknown clinical significance has made interpretation problematic. Submicroscopic duplication of Xp22.31 has been reported as either a possible cause of intellectual disability and/or developmental delay or a benign variant. Here we report 29 individuals with the microduplication found as part of microarray analysis of 7793 samples submitted to an international group of 13 clinical laboratories. The referral reasons varied and included developmental delay, intellectual disability, autism, dysmorphic features and/or multiple congenital anomalies. The size of the Xp22.31 duplication varied between 149 kb and 1.74 Mb and included the steroid sulfatase (STS) gene with the male to female ratio of 0.7. Duplication within this segment is seen at a frequency of 0.15% in a healthy control population, whereas a frequency of 0.37% was observed in our cohort of individuals with abnormal phenotypes. We present a detailed comparison of the breakpoints, inheritance, X-inactivation and clinical phenotype in our cohort and a review of the literature for a total of 41 patients. To date, this report is the largest compilation of clinical and array data regarding the microduplication of Xp22.31 and will serve to broaden the knowledge of regions involving copy number variation (CNV).     

Phenotypic heterogeneity in a family with a small atypical microduplication of chromosome 22q11.2 involving TBX1

The chromosome 22q11.2 region is commonly involved in non-allelic homologous recombination (NAHR) events. Microduplications of 22q11.2, usually involving a 3 Mb or 1.5 Mb region constitute the 22q11 microduplication syndrome. Both microdeletions and microduplications of 22q11.21 are reported to share several phenotypic characteristics, including dysmorphic facial features, velopharyngeal insufficiency, congenital heart disease, urogenital abnormalities, and immunologic defects. We report a child who presented at 8 months of age for evaluation of microcephaly and mild motor delay. Head circumference at birth, at 8 months, and at 19 months of age was below the 3rd centile. Other findings included left-sided cryptorchidism and developmental dysplasia of the left hip. In addition, echocardiography revealed a restrictive patent ductus arteriosus. Chromosomal microarray analysis using Affymetrix Genome-Wide Human SNP Array 6.0 revealed a novel 437 kb interstitial duplication at 22q11.21, involving TBX1, whose breakpoints did not coincide with known low copy repeat (LCR) regions. The same duplication was confirmed by fluorescent in situ hybridization (FISH) in the patient's mother and an older sister. The mother has a history of anxiety disorder and depression. The sister had a history of delayed motor milestones. None of the three duplication carriers has any documented renal anomalies or other significant medical problems. This report demonstrates the clinical heterogeneity associated with microduplications of 22q11.2 and illustrates the difficulties related to providing prognostic information and accurate genetic counseling to families when this finding is detected. The described microduplication is the smallest in this genomic region reported to date and further implicates abnormal gene dosage of TBX1 in disorders resulting from 22q11.2 rearrangements.     

Hoyeraal-Hreidarsson syndrome caused by a germline mutation in the TEL patch of the telomere protein TPP1

Germline mutations in telomere biology genes cause dyskeratosis congenita (DC), an inherited bone marrow failure and cancer predisposition syndrome. DC is a clinically heterogeneous disorder diagnosed by the triad of dysplastic nails, abnormal skin pigmentation, and oral leukoplakia; Hoyeraal-Hreidarsson syndrome (HH), a clinically severe variant of DC, also includes cerebellar hypoplasia, immunodeficiency, and intrauterine growth retardation. Approximately 70% of DC cases are associated with a germline mutation in one of nine genes, the products of which are all involved in telomere biology. Using exome sequencing, we identified mutations in Adrenocortical Dysplasia Homolog (ACD) (encoding TPP1), a component of the telomeric shelterin complex, in one family affected by HH. The proband inherited a deletion from his father and a missense mutation from his mother, resulting in extremely short telomeres and a severe clinical phenotype. Characterization of the mutations revealed that the single-amino-acid deletion affecting the TEL patch surface of the TPP1 protein significantly compromises both telomerase recruitment and processivity, while the missense mutation in the TIN2-binding region of TPP1 is not as clearly deleterious to TPP1 function. Our results emphasize the critical roles of the TEL patch in proper stem cell function and demonstrate that TPP1 is the second shelterin component (in addition to TIN2) to be implicated in DC.     

Identification of a Japanese family with LRRK2 p.R1441G-related Parkinson's disease

Leucine-rich repeat kinase 2 (LRRK2) is a causative gene of autosomal dominant familial Parkinson's disease (PD). We screened for LRRK2 mutations in 3 frequently reported exons (31, 41, and 48) in our cohort of 871 Japanese patients with PD (430 with sporadic PD and 441 probands with familial PD). Direct sequencing analysis of LRRK2 revealed 1 proband (0.11%) with a p.R1441G mutation, identified for the first time in Asian countries, besides frequently reported substitutions including, the p.G2019S mutation (0.11%) and p.G2385R variant (11.37%). Several studies have suggested that the LRRK2 p.R1441G mutation, which is highly prevalent in the Basque country, is extremely rare outside of northern Spain. Further analysis of family members of the proband with the p.R1441G mutation revealed that her mother and first cousin shared the same mutation and parkinsonism. Haplotype analysis revealed a different haplotype from that of the original Spanish families. Our patients demonstrated levodopa-responsive parkinsonism with intrafamilial clinical heterogeneity. This is the first report of familial PD because of the LRRK2 p.R1441G mutation in Asia.     

Phenotypic consequences of gene disruption by a balanced de novo translocation involving SLC6A1 and NAA15

Mapping of de novo balanced chromosomal translocations (BCTs) in patients with sporadic poorly characterized disease(s) is an unbiased method of finding candidate gene(s) responsible for the observed symptoms. We present a paediatric patient suffering from epilepsy, developmental delay (DD) and atrial septal defect IIº (ASD) requiring surgery. Karyotyping indicated an apparently balanced de novo reciprocal translocation 46,XX,t(3;4)(p25.3;q31.1), whereas aCGH did not reveal any copy number changes. Using shallow mate-pair whole genome sequencing and direct Sanger sequencing of breakpoint regions we found that translocation disrupted SLC6A1 and NAA15 genes. Our results confirm two previous reports indicating that loss of function of a single allele of SLC6A1 causes epilepsy. In addition, we extend existing evidence that disruption of NAA15 is associated with DD and with congenital heart defects.     

一例母源性46,Y,der(X)t(X;Y)(p22;q11)染色体非平衡易位患儿的遗传学分析

目的对1例临床表征为身材矮小、鼻根部内陷、双侧隐睾、智力低下患儿进行遗传学分析,探讨该染色体结构异常与临床表征之间的关系。方法应用G显带染色体核型分析及染色体微阵列分析(chromosomal microarray analysis,CMA)技术对患儿进行遗传学检测,并对其父母进行外周血染色体核型分析。结果G显带分析结果显示患儿染色体核型为46,Y,der(X)t(X;Y)(p22;q11),mat。CMA检测结果提示患儿X染色体短臂Xp22.33p22.31存在约8.3 Mb片段缺失,Y染色体长臂Yq11.221qter存在约43.3 Mb片段重复。其父亲染色体核型正常,母亲染色体核型结果为46,X,der(X)t(X;Y)(p22;q11)。结论患儿携带母源性der(X)t(X;Y)(p22;q11)染色体非平衡易位,携带者的表型与其性别以及X染色体缺失片段的大小和位置密切相关。男性携带者智力障碍、生长发育落后等异常表型较女性更为严重。     

15q24.1 BP4-BP1 microdeletion unmasking paternally inherited functional polymorphisms combined with distal 15q24.2q24.3 duplication in a patient with epilepsy,psychomotor delay,overweight, ventricular arrhythmia

15q24 microdeletion and microduplication syndromes are genetic disorders caused by non-allelic homologous recombination between low-copy repeats (LCRs) in the 15q24 chromosome region. Individuals with 15q24 microdeletion and microduplication syndromes share a common 1.2 Mb critical interval, spanning from LCR15q24B to LCR15q24C. Patients with 15q24 microdeletion syndrome exhibit distinct dysmorphic features, microcephaly, variable developmental delay, multiples congenital anomalies while individuals with reciprocal 15q24 microduplication syndrome show mild developmental delay, facial dysmorphism associated with skeletal and genital abnormalities. We report the first case of a 10 year-old girl presenting mild developmental delay, psychomotor retardation, epilepsy, ventricular arrhythmia, overweight and idiopathic central precocious puberty. 180K array-CGH analysis identified a 1.38 Mb heterozygous interstitial 15q24.1 BP4-BP1 microdeletion including HCN4 combined with a concomitant 2.6 Mb heterozygous distal 15q24.2q24.3 microduplication. FISH analysis showed that both deletion and duplication occurred de novo in the proband. Of note, both copy number imbalances did not involve the 1.2 Mb minimal deletion/duplication critical interval of the 15q24.1q24.2 chromosome region (74.3–75.5 Mb). Sequencing of candidate genes for epilepsy and obesity showed that the proband was hemizygous for paternal A-at risk allele of BBS4 rs7178130 and NPTN rs7171755 predisposing to obesity, epilepsy and intellectual deficits. Our study highlights the complex interaction of functional polymorphisms and/or genetic variants leading to variable clinical manifestations in patients with submicroscopic chromosomal aberrations.     

一例大片段重复变异导致血友病A的分析

目的:报告1例由罕见变异导致的重型血友病A(hemophilia A,HA),并探讨大片段重复变异的致病机制。方法:先后进行 F8基因第22内含子及第1内含子倒位检测、Sanger测序以及多重连接探针扩增(multiple ligation-dependent probe amplification,MLP...     

Novel mutation in a family with WNT1-related osteoporosis

Osteogenesis imperfecta (OI) is an inherited disorder with osteoporosis and recurrent fractures. Children presenting with recurrent fractures and bowing of limbs have severe form of the disorder. Patients carrying homozygous WNT1 mutations have more frequent fractures while heterozygous carriers of the mutation in WNT1 gene are also found to have early onset osteoporosis. We identified a family with novel WNT1 mutation. The index case, a 6 month old child presented with fractures from early infancy. Next generation sequencing (NGS)done for the child didn't show any variations in other OI genes including COL1A1, COL1A2, SERPINH1, CRTAP, LEPRE1, PP1B, 1F1TM5 and BMP1 genes. Sanger sequencing showed 41bp deletion in splice region following exon 1 of WNT1 gene in homozygous state. The mutation was found to be likely pathogenic on bioinformatic analysis. To further characterize the significance of the mutation we studied his mother who is 30 year old with blue sclera and history of backache but no fractures. Her DXA scan of lumber spine showed osteoporosis and she was heterozygous for the mutation. The child's DXA scan showed T-score of ?6.4?at lumbar spine level. Father also has history of backache and was carrier for the same deletion variant. The child was given 3 doses of zoledronate and did not have any further fractures. Thus, we conclude that this novel variant identified in the child with OI is likely cause for the disease and possibly zoledronate has a role in prevention of fractures in this case.     

Novel BRCA1/2 mutations in Serbian breast and breast-ovarian cancer patients with hereditary predisposition

Mutations in breast cancer susceptibility (BRCA) genes lead to defects in DNA repair processes resulting in elevated genome instability and predisposing to breast and ovarian cancer. The study was designed to detect mutational spectra of BRCA1/2 genes in a Serbian population. Using automated DNA sequencing, we tested individuals for BRCA mutations, based on positive family history of either breast or ovarian cancer or both. Two novel mutations (c.4765_4784del in BRCA1 exon 15 and c.4367_4368dupTT in BRCA2 exon 11) were detected, in three probands from two different families. These mutations have not been reported previously in the BIC or LOVD databases. Protein products of these mutated alleles lack domains necessary for their DNA repair functions, an indicator that these are deleterious mutations. Neither mutation was found in any proband from 50 other families with hereditary predisposition, so the two mutations are likely family-specific rather than population-specific. Although BRCA1-associated tumors are typically negative for estrogen receptor (ER), progesterone receptor (PR), and ERBB2, the novel BRCA1 mutation identified in this study was detected in a proband with ER- and PR-positive breast cancer. Steroid receptor-positive BRCA-related breast cancer in this proband supports the idea of characteristic pathological features and older age of onset among BRCA1-mutated ER-positive breast cancers.     

Reciprocal deletion and duplication at 2q23.1 indicates a role for MBD5 in autism spectrum disorder

Copy number variations associated with abnormal gene dosage have an important role in the genetic etiology of many neurodevelopmental disorders, including intellectual disability (ID) and autism. We hypothesize that the chromosome 2q23.1 region encompassing MBD5 is a dosage-dependent region, wherein deletion or duplication results in altered gene dosage. We previously established the 2q23.1 microdeletion syndrome and report herein 23 individuals with 2q23.1 duplications, thus establishing a complementary duplication syndrome. The observed phenotype includes ID, language impairments, infantile hypotonia and gross motor delay, behavioral problems, autistic features, dysmorphic facial features (pinnae anomalies, arched eyebrows, prominent nose, small chin, thin upper lip), and minor digital anomalies (fifth finger clinodactyly and large broad first toe). The microduplication size varies among all cases and ranges from 68 kb to 53.7 Mb, encompassing a region that includes MBD5, an important factor in methylation patterning and epigenetic regulation. We previously reported that haploinsufficiency of MBD5 is the primary causal factor in 2q23.1 microdeletion syndrome and that mutations in MBD5 are associated with autism. In this study, we demonstrate that MBD5 is the only gene in common among all duplication cases and that overexpression of MBD5 is likely responsible for the core clinical features present in 2q23.1 microduplication syndrome. Phenotypic analyses suggest that 2q23.1 duplication results in a slightly less severe phenotype than the reciprocal deletion. The features associated with a deletion, mutation or duplication of MBD5 and the gene expression changes observed support MBD5 as a dosage-sensitive gene critical for normal development.     

NF1 microduplications: identification of seven nonrelated individuals provides further characterization of the phenotype

PurposeNeurofibromatosis, type 1 (NF1) is an autosomal dominant disorder caused by mutations of the neurofibromin 1 (NF1) gene at 17q11.2. Approximately 5% of individuals with NF1 have a 1.4-Mb heterozygous 17q11.2 deletion encompassing NF1, formed through nonallelic homologous recombination (NAHR) between the low-copy repeats that flank this region. NF1 microdeletion syndrome is more severe than NF1 caused by gene mutations, with individuals exhibiting facial dysmorphisms, developmental delay (DD), intellectual disability (ID), and excessive neurofibromas. Although NAHR can also cause reciprocal microduplications, reciprocal NF1 duplications have been previously reported in just one multigenerational family and a second unrelated proband.MethodsWe analyzed the clinical features in seven individuals with NF1 microduplications, identified among 48,817 probands tested in our laboratory by array-based comparative genomic hybridization.ResultsThe only clinical features present in more than one individual were variable DD/ID, facial dysmorphisms, and seizures. No neurofibromas were present. Three sets of parents were tested: one duplication was apparently de novo, one inherited from an affected mother, and one inherited from a clinically normal father.ConclusionThis is the first report comparing the phenotypes of nonrelated individuals with NF1 microduplications. This comparison will allow for further definition of this emerging microduplication syndrome.Genet Med 2012:14(5):508–514     

一个先天性小眼畸形家系的全外显子组测序分析及产前诊断

目的分析1个先天性小眼畸形家系的临床表型及遗传学病因。方法应用高通量测序技术对先证者及其父母进行全外显子组测序,筛选候选致病位点,对其家系进行Sanger测序验证,并通过羊水穿刺和Sanger测序为先证者母亲提供产前诊断。结果全外显子组测序和Sanger测序发现家系中的3例患者均携带OTX2基因c.289C>T(p.R97*)杂合变异,先证者母亲亦携带该变异,但无小眼畸形。先证者的父亲、舅母和胎儿未携带上述变异。结论OTX2基因c.289C>T(p.R97*)杂合变异很可能是该家系的发病原因。上述诊断将有助于该家系的遗传咨询和产前诊断。     

Chromosome 17q12 duplications: Further delineation of the range of psychiatric and clinical phenotypes

Copy number variants at chromosome 17q12 have been associated with a spectrum of phenotypes. Deletions of 17q12 are well described and associated with maturity onset diabetes of the young type 5 (MODY5) and cystic renal disease (HNF1β) as well as cognitive impairment and seizures. Duplication of 17q12 is emerging as a new genetic syndrome, associated with learning disability, seizures, and behavioral problems. The duplication is often inherited from an apparently unaffected parent. Here, we describe a three‐generation family with multiple individuals carrying a17q12 microduplication with varying clinical features, consistent with variable penetrance. The proband who inherited a 1.8 Mb interstitial 17q12 duplication from his mother presented with developmental delay, behavioral problems, and mild dysmorphism. One of his sisters, his maternal uncle, and his maternal grandmother also carry the 17q12 microduplication. Clinical features of the carriers include renal problems, diabetes mellitus, learning difficulties, epilepsy and mental illness. Cognitive abilities range from normal function to moderate impairment (full‐scale IQ range: 52‐99). In light of recent reports of association of this locus with schizophrenia, we performed a detailed psychiatric assessment and confirmed that one family member has symptoms consistent with a diagnosis of schizophrenia and another has a prodromal syndrome with attenuated positive symptoms of psychosis. This report extends the clinical phenotype associated with the 17q12 microduplication and highlights the phenotypic variability.     

Report of two unrelated families with Jalili syndrome and a novel nonsense heterozygous mutation in CNNM4 gene

Jalili syndrome (JS) is an autosomal recessive disease characterized by a combination of cone-rode retinal dytrophy (CRD) and amelogenesis imperfect (AI). Mutations in cyclin and CBS domain divalent metal cation transport mediator 4 (CNNM4) gene cause JS. Here we described 2 families (3 members) affected by JS. In the first family, JS was caused by the homozygous p.Leu324Pro (c.971T > C) missense mutation and the affected patient developed both CRD and AI. In the second family, a specific combination of a compound heterozygous mutation was found – the p.Leu324Pro (c.971T > C) missense transition and the novel p.Tyr581* (c.1743C > G) nonsense mutation. The proband showed CRD and AI, but her father just developed eye alterations. Together, these findings suggest that the p.Leu324Pro mutation in homozygosis induces a complete phenotype with both CRD and AI, but in heterozygosis and in composition with the novel p.Tyr581* nonsense mutation in CNNM4 promotes variable clinical expressivity, particularly with lack of dental phenotypes. These different phenotypes could be explained by deletions affecting the proband's homologous allele, epistasia or interactions with environmental factors leading to residual activity of protein.     

一个常染色体显性智力低下1型家系的MBD5基因新变异

目的对1例智力、运动发育落后、语言发育严重受损、面部畸形合并癫痫的患儿及其家系成员进行基因变异分析。方法应用全外显子分析技术对先证者进行致病变异筛查,结合先证者的表型确定候选致病位点,应用Sanger测序对先证者、父母及其他家系成员进行变异位点验证。结果先证者携带MBD5基因c.2217delT(p.F739Lfs*6)框移变异,文献未见报道,来源于母亲,经家系验证,其兄携带相同变异且具有相似的表型,其母年幼时语言表达能力差,学习成绩差,可做家务,无抽搐病史。结论发现一个MBD5基因新的致病变异,丰富了MBD5基因变异谱,家系研究发现该基因变异存在表现度差异。本研究结果为该家系的病因诊断和产前诊断提供了依据。