A novel tyrosine hydroxylase variant in a group of Chinese patients with dopa-responsive dystonia

Dopa-responsive dystonia (DRD) comprises a heterogeneous group of movement disorders. A limited number of studies of Chinese patients with DRD have been reported. In the present study, we investigated the clinical and genetic features of 12 Chinese DRD families. Point mutation analysis of the GTP-cyclohydrolase I (GCH1), tyrosine hydroxylase (TH) and sepiapterin reductase (SPR) genes was conducted by direct sequencing. In addition, multiplex ligation-dependent probe amplification targeting GCH1 and TH was performed in “mutation-free” patients. Three reported mutations (IVS2-2A>G, c.293C>T, c.550C>T) were detected in GCH1, whereas two compound heterozygous variants were identified in TH, one of which was novel (c.1083C>A). Furthermore, this novel variant was not detected in any of the 250 ethnicity-matched, healthy controls. No exon deletions or duplicate mutations in the two genes were found in patients with DRD. No mutation in SPR was found. In addition, one patient with the IVS2-2A>G mutation in GCH1 showed signs of Parkinsonism. In conclusion, we here identified a novel heterozygous variant in TH (c.1083C>A). It is important to perform routine screening of GCH1 and TH for patients with DRD. While for patients with Parkinsonism, GCH1 mutation analysis should be performed after screening of genes like PARKIN, PARK7 (DJ-1) and PINK1.     

GCH1基因新的点突变的多巴反应性肌张力障碍1例报道并文献复习

目的 报道1例多巴反应性肌张力障碍(Doparesponsive dystonia, DRD)的三磷酸鸟苷环化水解酶I基因(Guanosine triphosphate cyclohydmlase I,GCH1)c.550C>T(p.R184C)杂合突变,并分析该基因突变患者的临床特点。方法 应用全外显子测序结合一代测序验证方法对1个家系的5名成员进行GCH1基因突变分析,并回顾既往文献进行疾病特点总结,以提高对DRD相关基因突变的临床特点及预后的认识。结果 5名家系成员中先证者及其一子一女 GCH1基因存在c.550C>T(p.R184C)杂合突变,且该点突变导致GCH1基因所编码的蛋白发生p.R184C错义突变(184位点上的精氨酸变为半胱氨酸)。软件分析显示c.550C>T(p.R184C)为可疑致病突变。结论 c.550C>T(p.R184C)突变可能是DRD新的致病位点,此分析扩展了DRD的GCH1基因突变内容,同时也为相关基因的功能验证提供了新的方向。     

A novel mutation in the GTP cyclohydrolase I gene associated with a broad range of clinical presentations in a family with autosomal dominant dopa-responsive dystonia

We examined a large family of Ashkenazi Jewish origin with autosomal dominant dopa-responsive dystonia (DRD). Mutation analysis of the GTP cyclohydrolase I gene revealed in affected members a novel point mutation (a C/A change in exon 1) resulting in a threonine-to-lysine substitution at residue 94. The mutation was characterized by variable expressivity and was associated with either a 'classical' DRD phenotype or various atypical phenotypes, such as subtle transitory equinovarus postures of the feet or isolated hand tremor. This observation demonstrates the significance of the molecular testing in establishing the clinical diagnosis of DRD. Copyright Lippincott Williams & Wilkins     

Segawa disease with a novel heterozygous mutation in exon 5 of the GCH-1 gene (E183K)

We report a novel missense mutation in the GCH-1 gene resulting in Segawa disease. The patient, a 6-year-old girl, presented with dystonia. Her CSF biopterin and neopterin levels were reduced, suggesting Segawa disease. L-dopa administration led to clinical improvement. Genetic analysis revealed a missense mutation in exon 5 of the GCH-1 gene (E183K). Although dystonia or other movement disorders were not identified in her family, this may be explained by the low penetrance of Segawa disease.     

多巴反应性肌张力障碍患者的GCH1基因突变检测

目的分析多巴反应性肌张力障碍(dopa responsive dystonia,DRD)患者的GCH1基因突变。方法我们抽取21例来自医院门诊及住院的散发型多巴反应性肌张力障碍患者的肘静脉血,并提取外周血全基因组DNA。Primer3设计GCH1基因6个外显子的引物,PCR扩增GCH1基因的外显子及周边部分内含子序列,并对PCR产物进行测序。测序结果与正常序列进行比对,发现碱基变异后进行序列分析以确定是否多态。结果成功扩增21位DRD患者GCH1基因的6个外显子。经过分析,GCH1基因外显子序列未发现基因突变。仅在4个患者的1号外显子发现1个单核苷酸多态(SNP)c.68CT,该SNP没有产生氨基酸的改变。结论本地区多巴反应性肌张力障碍患者未发现GCH1基因突变,DRD患者可能存在其他致病基因。GCH1基因突变检测目前仍不能作为早期诊断的依据。     

A novel missense mutation in GTP cyclohydrolase I (GCH1) gene causes dopa‐responsive dystonia in Chinese Han population

Background: Dopa‐responsive dystonia has been shown to be caused by a number of different mutations in the GCH1 gene. Up to now, only several genetic studies of Chinese patients with Dopa‐responsive dystonia (DRD) have been reported. Methods: We performed a genetic analysis by amplifying the entire coding region of GCH1 gene and direct sequencing in four DRD families from mainland China. Results: A novel missense mutation, Gly155Ser, has been identified in a sporadic case from a consanguineous marriage family. Furthermore, two known mutations, Met137Arg and Gly203Arg, have also been detected in the other families. Conclusions: A novel missense mutation in the GCH1 gene can be associated with DRD. Our findings further expanded the mutational spectrum of GCH1 gene associated with DRD.     

A new mutation of GCH1 in triplets family with dopa‐responsive dystonia

Background: Dopa‐responsive dystonia (DRD) is associated with mutations of the GCH1. We first report four female siblings with DRD from one family, including three monozygotic triplets patients clinically and genetically. Methods: We performed GCH1 analysis by direct sequencing of PCR product amplified with primers designed to cover the entire exons of GCH1 in those four patients and their mother. Results: In all four patients with DRD, a new frameshift mutation (c.729delG; p.A190fsX191) was identified in the exon 5 of GCH1. Conclusions: The frameshift mutation results in truncated GCH1 protein which is suspected to result in loss of function of the catalytic GTP‐cyclohydrol domain.     

Four novel mutations in the GCH1 gene of Chinese patients with dopa‐responsive dystonia

Mutation detection in the guanosine triphosphate cyclohydrolase I gene (GCH1) was performed from 4 female patients with dopa‐responsive dystonia (DRD). DNA sequencing revealed the presence of four novel mutations including c.2T>C(M1T), c.239G>A(S80N), c.245T>C(L82P), and IVS5+3 del AAGT. These four mutations were not found in 100 genetically unrelated healthy controls with the same ethnic background band. In all 3 childhood‐onset patients, DRD started in the legs, and missense mutations were located in the coding region of GCH1. Deletion mutation in the fifth exon–intron boundary of GCH1 was detected in the adult‐onset patient. Although the data presented here do not provide sufficient evidence to establish a genotype–phenotype correlation of DRD, it is important to know the clinic features and genetic defects of DRD patients, which will help prenatal diagnosis, early diagnosis, evaluate the prognosis, and facilitate causal therapy with levodopa. © 2010 Movement Disorder Society     

A novel NIPA1 mutation associated with a pure form of autosomal dominant hereditary spastic paraplegia

The hereditary spastic paraplegias (HSPs) are a clinically and genetically heterogeneous group of neurodegenerative disorders characterised by lower limb spasticity and weakness. Mutations in NIPA1 (Nonimprinted in Prader-Willi/Angelman syndrome 1) have recently been identified as a cause of autosomal dominant pure HSP, with one mutation described in two unrelated families. NIPA1 has no known function but is predicted to possess nine transmembrane domains and may function as a receptor or transporter. Here we present a large British pedigree in which linkage analysis conclusively demonstrates linkage to the NIPA1 locus (maximum multipoint LOD score 4.6). Subsequent mutation analysis identified a novel missense substitution in a highly conserved NIPA1 residue (G106R) which further confirms a causative link between NIPA1 mutation and autosomal dominant hereditary spastic paraplegia.     

Arg(184)His mutant GTP cyclohydrolase I, causing recessive hyperphenylalaninemia, is responsible for dopa-responsive dystonia with parkinsonism: a case report.

We describe a 54-year-old man with dominant adult-onset dopa-responsive dystonia (DRD) with parkinsonism caused by an Arg184His mutation in guanosine 5'-triphosphate cyclohydrolase I (GCH-I). This is the first mutation in the GCH-I gene that has been proven to be responsible for both recessive and dominant phenotypes.     

A novel mutation of the ε‐sarcoglycan gene in a Chinese family with myoclonus‐dystonia syndrome

In a Chinese myoclonus‐dystonia syndrome (MDS) family presented with a phenotype including a typical MDS, cervical dystonia, and writer's cramp, genetic analyses revealed a novel 662 + 1insG heterozygous mutation in exon 5 in the ε‐sarcoglycan (SGCE) gene, leading to a frameshift with a down stream stop codon. Low SGCE mRNA levels were detected in the mutation carriers by real‐time PCR, suggesting that the nonsense mutation might interference with the stability of SGCE mRNA. This is the first report on Chinese with a SGCE mutation leading to MDS. Our data support the fact that same mutation of SGCE gene can lead to a varied phenotype, even in the same family. © 2008 Movement Disorder Society     

Clinical phenotype of autosomal dominant progressive external ophthalmoplegia in a family with a novel mutation in the C10orf2 gene

Autosomal dominant progressive external ophthalmoplegia (adPEO) is a mitochondrial disorder caused by mutations in nuclear genes. Here we report the clinical and genetic features of adPEO in a Chinese family. All patients had gradual onset of ptosis, with or without ophthalmoplegia, around age 30. Thirteen patients had limb weakness around age 40. Eight patients developed dysphagia around age 50. Four patients died of cardiac abnormalities around age 60. Muscle biopsy of the proband indicated mitochondrial myopathy characterized by ragged‐red fibers, cytochrome c oxidase‐negative fibers, and multiple deletions of mitochondrial DNA. A heterozygous missense mutation of c.1342A>G in the C10orf2 gene resulting in the p.448N>D mutation in the protein was found in the proband and four other affected family members. In summary, we identified an adPEO family with a novel C10orf2 gene mutation that manifested an age‐dependent phenotype. It suggests that greater attention must be paid to cardiac abnormalities in the late stages of this disease. Muscle Nerve, 2010     

A novel SOD1 gene mutation in a Korean family with amyotrophic lateral sclerosis

BACKGROUND: Superoxide dismutase 1 (SOD1) gene mutations are responsible for approximately 20% of all familial amyotrophic lateral sclerosis (ALS) cases. However, these cases, especially those with SOD1 gene mutations, have not been reported in Korea. OBJECTIVES: The SOD1 gene in Korean family with ALS was screened for potential mutations and the clinical data was collected. MATERIALS AND METHODS: The clinical histories and neurological findings of the family members were obtained. Genomic DNA was isolated from the leukocytes of whole blood samples and the coding region of the SOD1 gene was analyzed by PCR and sequencing. RESULTS: The family with ALS showed a novel missense mutation in the SOD1 gene, which was heterozygous for the mutation, GGC to GTT, causing the substitution of valine for glycine at codon 10 (Gly10Val) in exon 1. Clinically, the patients exhibited early onset and rapid disease progression. CONCLUSIONS: Familial ALS with a novel Gly10Val mutation in the SOD1 gene showed severe clinical features. The mutation lies in a region involved in a dimer contact in the three-dimensional structure of the SOD1 protein. This study expands the number of ALS-associated SOD1 gene mutations.     

Variable expressivity of a novel mutation in the SCN1A gene leading to an autosomal dominant seizure disorder

Mutations in the SCN1A gene can cause a variety of dominantly inherited epilepsy syndromes. Severe phenotypes usually result from loss of function mutations, whereas missense mutations cause a milder phenotype by altering the sodium channel activity. We report on a novel missense variant (p.Val1379Leu) in the SCN1A gene segregating in an autosomal dominant pattern in a family exhibiting a variable epilepsy phenotype ranging from generalized epilepsy with febrile seizures during infancy to a well controlled seizure disorder in adulthood. This report supports the importance of SCN1A mutation analysis in families in which seizure disorders segregate in an autosomal dominant fashion.     

A novel mutation in the predicted TM2 domain of the presenilin 2 gene in a Spanish patient with late-onset Alzheimer's disease

Mutations in the presenilin-2 ( PS-2 ) gene are less frequent than mutations in the PS-1 gene. All mutations described in the PS-1 gene were found in early-onset Alzheimer's disease (AD) patients. At present, there are two missense mutations described for the PS-2 gene in some AD pedigrees. We have therefore analyzed transmembrane 2 (TM2) and TM5 domains of the PS-2 gene in AD patients and in a group of age-matched healthy controls. In a patient who was clinically diagnosed as having late-onset AD, we found a novel missense mutation consisting of a G- 1 A substitution on exon 5 of the PS-2 gene, which results in a Val to Ile substitution at codon 148 within the predicted TM2 domain of the PS-2 protein. This is the third mutation described in the PS-2 gene and the first presenilin mutation detected in a Spanish AD patient. Both, the N141I mutation and the V148I mutation described here are located within the predicted TM2 domain and both were found in late-onset AD kindreds, whereas the mutation within the predicted TM5 domain was found in an early-onset AD pedigree. Carriers of mutations within TM2 of PS-1 have a mean age at onset of 40 years, while the other mutations in PS-1 occur in families with a mean age at onset of 47 years. In summary, we report here the first mutation in a presenilin gene in a Spanish AD case, which is the third mutation detected for the PS-2 gene. Received: March 6, 1998 / Accepted: May 13, 1998     

King-Denborough syndrome with and without mutations in the skeletal muscle ryanodine receptor (RYR1) gene

King-Denborough syndrome (KDS), first described in 1973, is a rare condition characterised by the triad of dysmorphic features, myopathy, and malignant hyperthermia susceptibility (MHS). Autosomal dominant inheritance with variable expressivity has been reported in several cases. Mutations in the skeletal muscle ryanodine receptor (RYR1) gene have been implicated in a wide range of myopathies such as central core disease (CCD), the malignant hyperthermia (MH) susceptibility trait and one isolated patient with KDS.Here we report clinical, pathologic and genetic features of four unrelated patients with KDS. Patients had a relatively uniform clinical presentation but muscle biopsy findings were highly variable. Heterozygous missense mutations in RYR1 were uncovered in three out of four families, of which one mutation was novel and two have previously been reported in MH. Further RyR1 protein expression studies performed in two families showed marked reduction of the RyR1 protein, indicating the presence of allelic RYR1 mutations not detectable on routine sequencing and potentially explaining marked intrafamilial variability.Our findings support the hypothesis that RYR1 mutations are associated with King-Denborough syndrome but that further genetic heterogeneity is likely.     

A novel mutation in the CLN1 gene in a patient with juvenile neuronal ceroid lipofuscinosis

We describe the clinical, neuropathological and molecular findings from a patient affected with neuronal ceroid lipofuscinosis with a juvenile onset (JNCL). She was a 9-year-old right-handed girl with a normal birth and early developmental milestones. At the age of 4 the early symptoms began. Skin biopsy showed granular osmiophilic deposits (GRODs). Because JNCL with GRODs is caused by mutations in the CNL1 gene, we performed a molecular investigation by direct sequencing of nine exons of the CNL1 gene. This analysis revealed a novel mutation in homozygous form in the exon 7 that caused an aminoacid substitution at codon 222 (Leu → Pro). Direct sequencing of the exon 7 in both parents showed the same substitution in heterozygous form. Received: 30 November 2001, Received in revised form: 8 April 2002, Accepted: 23 April 2002 RID="*" ID="*"These authors contributed equally to this work RID="*" ID="*"These authors contributed equally to this work Correspondence to Prof. Aldo Quattrone, MD     

Identification of a novel nemaline myopathy‐Causing mutation in the troponin T1 (TNNT1) gene: A case outside of the old order amish

Introduction: Nemaline myopathy (NM) is a congenital neuromuscular disorder often characterized by hypotonia, facial weakness, skeletal muscle weakness, and the presence of rods on muscle biopsy. A rare form of nemaline myopathy known as Amish Nemaline Myopathy has only been seen in a genetically isolated cohort of Old Order Amish patients who may additionally present with tremors in the first 2–3 months of life. Methods: We describe an Hispanic male diagnosed with nemaline myopathy histopathologically and subsequently confirmed by next generation gene sequencing. Results: Direct sequencing revealed that he is homozygous for a pathogenic nonsense variant c.323C>G (p.S108X) in exon 9 of the TNNT1 gene. Conclusions: This report describes a novel pathogenic variant in the TNNT1 gene and represents a nemaline myopathy‐causing variant in the TNNT1 gene outside of the Old Order Amish and Dutch ancestry. Muscle Nerve 51 :767–772, 2015     

Examination of the SLITRK1 gene in Caucasian patients with Tourette syndrome

OBJECTIVE: To determine whether variants in the Slit and Trk-like 1 gene (SLITRK1) are present in American Caucasian population of patients with Tourette syndrome (TS). METHODS: We sequenced the 3'-untranslated region for var321 and the whole coding region in the SLITRK1 gene in 82 Caucasian patients with TS from North America. RESULTS: None of the 82 samples from patients with TS showed the non-coding sequence variant (var321). Only one patient with familial TS was heterozygous for a novel 708C > T (Ile236Ile) nucleotide variant. CONCLUSIONS: The var321 and mutation(s) in the coding region of the SLITRK1 gene probably are a rare cause of TS in a Caucasian population; therefore, genetic heterogeneity of TS should be considered. Tests designed to detect variant(s) in the SLITRK1 gene probably will not have a diagnostic utility in clinical practice.