De-novo mutations in patients with chronic ultra-refractory epilepsy with onset after age five years

We set out to investigate whether a de-novo paradigm could explain genetic causes of chronic ultra-refractory epilepsy, with onset later than the typical age for the epileptic encephalopathies. We performed exome sequencing on nine adult patients with MRI-negative epilepsy and no preceding intellectual disability. All had an onset of seizures after five years old and had chronic ultra-refractory epilepsy defined here as having failed more than six anti-epileptic drugs and currently experiencing ≥4 disabling seizures per month. Parents were sequenced to identify de-novo mutations and these were assessed for likelihood of pathogenicity based on the American College of Medical Genetics and Genomics (ACMG) criteria. We confirmed the presence of functional and predicted-damaging de-novo mutations in 3/9 patients. One of these pathogenic de-novo mutations, in DNM1L, was previously reported in a patient with severe epilepsy and chronic pharmacoresistance adding to the evidence for DNM1L as an epilepsy gene. Exome sequencing is a successful strategy for identifying de-novo mutations in paediatric epileptic encephalopathies and rare neurological disorders. Our study demonstrates the potential benefit of considering ultra-refractory epilepsy patients with later onset for genetic testing. Identifying genetic mutations underpinning severe epilepsy of unknown aetiology may provide new insight into the underlying biology and offers the potential for therapeutic intervention in the form of precision medicine in older patients.     

Knobloch syndrome: novel mutations in COL18A1, evidence for genetic heterogeneity, and a functionally impaired polymorphism in endostatin

Knobloch syndrome (KNO) is an autosomal recessive disorder characterized by high myopia, vitreoretinal degeneration with retinal detachment, and congenital encephalocele. Pathogenic mutations in the COL18A1 gene on 21q22.3 were recently identified in KNO families. Analysis of two unrelated KNO families from Hungary and New Zealand allowed us to confirm the involvement of COL18A1 in the pathogenesis of KNO and to demonstrate the existence of genetic heterogeneity. Two COL18A1 mutations were identified in the Hungarian family: a 1-bp insertion causing a frameshift and a premature in-frame stop codon and an amino acid substitution. This missense variant is located in a conserved amino acid of endostatin, a cleavage product of the carboxy-terminal domain of collagen alpha 1 XVIII. D1437N (D104N in endostatin) likely represents a pathogenic mutation, as we show that the endostatin N104 mutant is impaired in its affinity towards laminin. Linkage to the COL18A1 locus was excluded in the New Zealand family, providing evidence for the existence of a second KNO locus. We named the second unmapped locus for Knobloch syndrome KNO2. Mutation analysis excluded COL15A1, a member of the multiplexin collagen subfamily similar to COL18A1, as being responsible for KNO2.     

A de novo mutation in RPL10 causes a rare X-linked ribosomopathy characterized by syndromic intellectual disability and epilepsy: A new case and review of the literature

Intellectual disability (ID) affects 1–2% of the general population and up to 50% of those with ID are estimated to have an underlying genetic cause. Next-generation sequencing provides an efficient means to identify the molecular causes of monogenic forms of ID. Here we present an 18 year old male with severe ID, absent speech, microcephaly, ataxia, dysmorphic facial features, and a refractory, early-onset seizure disorder. Exome sequencing revealed a rare de novo mutation in the X-linked gene RPL10 (c.232A > G, p.K78E). Previous reports of inherited mutations in RPL10 have suggested a role for the gene in neurodevelopment and the individual reported shows marked similarities to three members of a family with the same mutation reported in the literature. The p.K78E substitution appears to be associated with severe microcephaly, seizures, hearing loss, growth retardation, cardiac defects, and dysmorphic facial features. This is the first instance that a de novo mutation in RPL10 has been reported.     

Further refinement of COL4A1 and COL4A2 related cortical malformations

Mutations in COL4A1 have been reported in schizencephaly and porencephaly combined with microbleeds or calcifications, often associated with ocular and renal abnormalities, myopathy, elevated creatine kinase levels and haemolytic anaemia. In this study, we aimed to clarify the phenotypic spectrum of COL4A1/A2 mutations in the context of cortical malformations that include schizencephaly, polymicrogyria and/or heterotopia.MethodsWe screened for COL4A1/A2 mutations in 9 patients with schizencephaly and/or polymicrogyria suspected to be caused by vascular disruption and leading to a cerebral haemorrhagic ischaemic event. These included 6 cases with asymmetrical or unilateral schizencephaly and/or polymicrogyria and 3 cases with bilateral schizencephaly.ResultsOne de novo missense COL4A1 mutation (c.3715 G > A, p.(Gly1239Arg)) and two COL4A2 mutations were found, respectively in one familial case (c.4129G > A, p.(Gly1377Arg)) and one sporadic patient (c.1776+1G > A). In three other cases, COL4A1 variants of unknown significance were identified. None of our patients demonstrated neuromuscular or hematological anomalies. Brain malformations included a combination of schizencephaly, mainly asymmetrical, with porencephaly or ventriculomegaly (3/3 mutated patients). We did not observe microbleeds or microcalcifications in any of our cases, hence we do not believe that they represent a distinctive feature of COL4A1/A2 mutations.ConclusionsOur study further emphasizes the need to search for both COL4A1 and COL4A2 mutations in children presenting with uni- or bilateral polymicrogyria with schizencephaly, even in the absence of intracranial microbleeds, calcification or associated systemic features.     

Novel mutations in SERAC1 gene in two Indian patients presenting with dystonia and intellectual disability

In this study we present the first two cases from India of a rare inborn error of metabolism manifesting as dystonia and 3-methylglutaconic aciduria and a Leigh like lesions in the brain MRI associated with SERAC1 gene mutation, a phenotype characteristic of MEGDEL syndrome.A four base pair duplication in exon 15 i.e.NM_032861.3 (SERAC1) c. 1643_1646 dup ATCT (p.(Leu550SerfsX19)) and another with a homozygous missense variation in exon 15 i.e. NM_032861.3 (SERAC1) c.1709 G > A (p.(Gly526Glu)) were detected and both were novel mutations. Hepatopathy was observed in the neonatal period with lactic acidosis in one child and at the age of 5yrs in the other. These cases add to the existing number of patients identified till today and additional mutations in the SERAC1 gene.     

A new case of megalencephaly and perisylvian polymicrogyria with post-axial polydactyly and hydrocephalus: MPPH syndrome

We report a new case of megalencephaly and polymicrogyria with post-axial polydactyly and hydrocephalus (MPPH syndrome) in an 18-month-old girl. She was the first child of healthy non-consanguineous parents and measurements at birth were + 3 standard deviations (S.D.) for weight, + 2 S.D. for length and + 4 S.D. for OFC. Ultrasound scan at 24 weeks of gestation (WG) showed mild ventriculomagaly with unique umbilical artery and dacryocystocele. Clinical examination at birth revealed macrosomia with macrocephaly, facial dysmorphism, post-axial polydactyly at the right hand and both feet, and axial hypotonia with hypertonic arms and legs. At 18 months of age, weight was + 2 S.D., length was + 2 S.D. and OFC was + 4 S.D. She remained hypertonic, could not sit and had no hand use. Cerebral magnetic resonance imaging showed stable ventriculomegaly and polymicrogyria located on the frontal and perisylvian region with white matter hypersignal on T2-weighted images. There was no associated visceral malformation. Standard and high-resolution cytogenetic examination, telomeric FISH and array-CGH studies were normal. This case represents the sixth observation of MPPH syndrome as described by Mirzaa et al. in 2004. We provide further neurological follow-up since three out of five index patients were aged 6 months or less. We postulate that macrosomia at birth might be a major feature (five/six cases), with advanced bone age in the two/two investigated cases. White matter abnormalities might be an occasional feature of this syndrome (three/six cases), as well as dacryocystocele, if not coincidental (one/six case). The mode of inheritance of this syndrome remains unknown since there was no significant family history in all reported cases. The search for infracytogenetic chromosomal imbalance was unsuccessful.     

Homozygous c.359del variant in MGME1 is associated with early onset cerebellar ataxia

We ascertained a child with early onset cerebellar ataxia and identified a novel frameshift deletion, c.359del [p. (Pro120Leufs*2), NM_052865.2] in exon 2 of MGME1 (mitochondrial genome maintenance exonuclease 1) by exome sequencing. Variations in MGME1 have been reported to cause mitochondrial DNA (mtDNA) depletion syndrome 11 (MIM #615084) in an earlier work. The phenotype included progressive external ophthalmoplegia, emaciation, respiratory failure and late onset progressive ataxia. However, the child presented here has early onset progressive ataxia, speech delay, microcephaly, cerebellar atrophy and fundus albipunctatus. This is the second report of a mutation in MGME1 and describes a more severe phenotype.     

Multiple thromboembolic events in fetofetal transfusion syndrome in triplets contributing to the understanding of pathogenesis of hydranencephaly in combination with polymicrogyria

Over the last 180 years, several theories concerning the origin of hydranencephaly have been proposed with an emphasis on infectious, aplastic, and vascular etiologies. In this report, we present a case of triplets with fetofetal transfusion syndrome of which 2 fetuses (1 and 2) developed almost similar hydranencephaly, whereas the third exhibited the features of a fetus papyraceus (3). In the monochorial triamniotic placenta, multiple arteriovenous anastomoses were detected, representing a probable route for the transmission of thrombi originating from fetus 3 causing visceral lesions in fetus 2. Hydranencephaly was histologically characterized by necrosis, macrophage invasion, and endothelial proliferation. In addition, polymicrogyria was seen in fetuses 1 and 2. The combination of multiple visceral thromboembolic events and the death of fetus 3 approximately in the 11th week of gestation suggested a vascular thrombotic pathogenesis of hydranencephaly. Polymicrogyria can be considered as postmigratory laminar necrosis. Our findings contribute to the pathogenetic understanding of combined hydranencephaly and polymicrogyria.     

Stickler syndrome and the vitreous phenotype: mutations in COL2A1 and COL11A1

Stickler syndrome is a dominantly inherited disorder affecting the fibrillar type II/XI collagen molecules expressed in vitreous and cartilage. Mutations have been found in COL2A1, COL11A1 and COL11A2. It has a highly variable phenotype that can include midline clefting, hearing loss, premature osteoarthritis, congenital high myopia and blindness through retinal detachment. Although the systemic phenotype is highly variable, the vitreous phenotype has been used successfully to differentiate between patients with mutations in these different genes. Mutations in COL2A1 usually result in a congenital membranous vitreous anomaly. In contrast mutations in COL11A1 result in a different vitreous phenotype where the lamellae have an irregular and beaded appearance. However, it is now apparent that a new sub‐group of COL2A1 mutations is emerging that result in a different phenotype with a hypoplastic vitreous that fills the posterior chamber of the eye, and is either optically empty or has sparse irregular lamellae. Here we characterise a further 89 families with Stickler syndrome or a type II collagenopathy, and correlate the mutations with the vitreous phenotype. We have identified 57 novel mutations including missense changes in both COL2A1 and COL11A1 and have also detected two cases of complete COL2A1 gene deletions using MLPA. ©2010 Wiley‐Liss, Inc.     

Brothers with novel compound heterozygous mutations in COL27A1 causing dental and genital abnormalities

COL27A1 encodes a collagen type XXVII alpha 1 chain. It is the product of this gene that provides the structural support of connective tissue and is reported to be the causative gene of Steel syndrome (OMIM #615155). The primary symptoms of patients with this defect are consistent with systemic bone disease; however, recent reports note findings of intellectual disability and hearing loss. In this study, we identified novel COL27A1 compound heterozygous variants in two brothers with rhizomelia and congenital hip dislocation as well as dental and genital abnormalities that have not yet been reported in Steel syndrome. This variant, of maternal origin, caused an amino acid substitution of arginine for glycine, c.2026G>C or p.G676R, in the collagen helix domain, which is assumed to damage the structure of the helix. The paternally transmitted variant, c.2367G>A, is located at the 3′ end of exon 12, and cDNA analysis revealed a splicing alteration. These novel, compound heterozygous COL27A1 variants might indicate an association of the gene with tooth and genital abnormalities.     

Bi-allelic c.181_183delTGT in BTB domain of KLHL7 is associated with overlapping phenotypes of Crisponi/CISS1-like and Bohring-Opitz like syndrome

Biallelic pathogenic variants in KLHL7 are known to result in Crisponi syndrome (CS)/cold-induced sweating syndrome type 1 (CISS1) like phenotype and Bohring-Opitz-like syndrome. In this report, a trio whole-exome sequencing (WES) was performed in proband with cold-induced sweating, microcephaly, facial dysmorphism, spasticity, failure to thrive, pigmentary abnormalities of the retina, hypoplasia of corpus callosum and periventricular nodular heterotopia. A novel homozygous in-frame deletion was identified in exon 2 of KLHL7, affecting the BTB domain of the protein. Our findings expand the clinical and molecular spectrum of KLHL7-related disorders.     

Double heterozygous variants in FBN1 and FBN2 in a Thai woman with Marfan and Beals syndromes

A phenotype of an individual is resulted from an interaction among variants in several genes. Advanced molecular technologies allow us to identify more patients with mutations in more than one genes. Here, we studied a Thai woman with combined clinical features of Marfan (MFS) and Beals (BS) syndromes including frontal bossing, enophthalmos, myopia, the crumpled appearance to the top of the pinnae, midface hypoplasia, high arched palate, dermal stretch marks, aortic enlargement, mitral valve prolapse and regurgitation, aortic root dilatation, and progressive scoliosis. The aortic root enlargement was progressive to a diameter of 7.2 cm requiring an aortic root replacement at the age of 8 years. At her last visit when she was 19 years old, she had moderate aortic regurgitation. Exome sequencing revealed that she carried the c.3159C > G (p.Cys1053Trp) in exon 26 of FBN1 and c.2638G > A (p. Gly880Ser) in exon 20 of FBN2. The variant in FBN1 was de novo, while that in FBN2 was inherited from her unaffected mother. Both genes encode for fibrillins, which are essential for elastic fibers and can form the heterotypic microfibrils. Two defective fibrillins may synergistically worsen cardiovascular manifestations seen in our patient. In this study, we identified the fourth patient with both MFS and BS, carrying mutations in both FBN1 and FBN2.     

A novel MEIS2 mutation explains the complex phenotype in a boy with a typical NF1 microdeletion syndrome

Concurrence of distinct genetic conditions in the same patient is not rare. Several cases involving neurofibromatosis type 1 (NF1) have recently been reported, indicating the need for more extensive molecular analysis when phenotypic features cannot be explained by a single gene mutation. Here, we describe the clinical presentation of a boy with a typical NF1 microdeletion syndrome complicated by cleft palate and other dysmorphic features, hypoplasia of corpus callosum, and partial bicoronal craniosynostosis caused by a novel 2bp deletion in exon 2 of Meis homeobox 2 gene (MEIS2) inherited from the mildly affected father. This is only the second case of an inherited MEIS2 intragenic mutation reported to date. MEIS2 is known to be associated with cleft palate, intellectual disability, heart defects, and dysmorphic features. Our clinical report suggests that this gene may also have a role in cranial morphogenesis in humans, as previously observed in animal models.     

A Syrian patient with Steel syndrome due to compound heterozygous COL27A1 mutations with colobomata of the eye

The joint occurrence of short stature, congenital dislocation of the hip, carpal coalition, dislocation of the radial head, cavus deformity, scoliosis, and vertebral anomalies was first described in 1993 by Steel et al. (OMIM #615155) in 23 children from Puerto Rico. The condition is caused by a deficient matrix protein, collagen type XXVII alpha 1 chain, due to bi‐allelic loss of function mutations in the gene COL27A1. Outside of Puerto Rico, only four families have been described, in three of which the patients also had hearing loss. However, structural eye defects have not yet been reported in conjunction with this rare autosomal recessive syndrome. Here, we describe a 9‐year‐old girl born to nonconsanguineous Syrian parents with the characteristic features of Steel syndrome, including short stature, massive malalignment of large joints, kyphoscoliosis, hearing loss, and typical facial dysmorphism. However, she was also born with bilateral colobomata of the irides and choroido‐retinae with unilateral affection of the macula. Whole exome sequencing identified two pathogenic compound heterozygous variants in COL27A1: c.93del, p.(Phe32Leufs*71) and c.3075del, p.(Lys1026Argfs*33). There was no discernible alternative cause for the colobomata. Our findings might indicate an association of this exceptionally rare disorder caused by COL27A1 mutations with developmental defects of the eye from the anophthalmia/microphthalmia/coloboma spectrum.     

托吡酯单药治疗40例小儿癫Xian疗效分析

目的：观察托吡酯（商品名妥泰,TPM）单药治疗小儿不同类型癫Xian发作的疗效及不良反应。方法：单独应用TPM治疗40例临床诊断的小儿癫Xian患者（部分性发作13例,Lennox-Gastaut 综合征13例,West综合征11例,青少年肌阵挛3例）,治疗前后进行自身对照的开放性研究。平均治疗6个月,记录癫Xian发作频率变化及副作用。结果：本组40例中发作减少≥50％为82％,发作消失47％,其中部分性发作、Lennox-Gastaut综合征、West综合征发作消失分别为61％、46％、27％,发作减少50％者分别为92％、69．3％及82％。青少年肌阵挛3例,发作减少≥75％为3例,其中2例发作消失。不良反应为纳差12．5％,嗜睡5％,无汗症10％。结论：TPM单药治疗小儿部分发作性癫Xian、Lennox-Gastaut综合征、West综合征及青少年肌阵挛性癫Xian有效,与同期TPM添加治疗组疗效相仿,不良反应少于添加治疗组。     

A novel pathogenic variant in TNPO3 in a Hungarian family with limb-girdle muscular dystrophy 1F

Limb-girdle muscular dystrophies (LGMDs) are a group of genetically heterogeneous muscular diseases that predominantly affect the proximal muscles. Pathogenic variants in TNPO3 have been associated with a rare, autosomal dominant limb-girdle muscular dystrophy 1F (LGMD1F) in a large Italian-Spanish family and an isolated LGMD1F case. Here we present two individuals from a Hungarian family with an early-onset, slowly progressive muscular dystrophy. Both the female proband and her affected son had delayed early motor milestones including first walking at 14 months and 18 months, respectively. Both present with progressive weakness of facial, bulbar, axial, and distal muscles especially of the lower extremities. Electromyography indicated myogenic damage and muscle biopsy from the proband showed myopathic alterations with sarcoplasmic masses and signs of mitochondrial dysfunction. Exome sequencing of the female proband identified a novel c.2767delC p.(Arg923AspfsTer17) variant in TNPO3. Sanger sequencing confirmed the presence of the TNPO3 variant in the affected son; the unaffected son did not have the variant. The identification of the c.2767delC variant further supports the clinical significance of TNPO3 and expands the clinical spectrum of TNPO3-associated LGMD1F.     

Left ventricular non-compaction with Ebstein anomaly attributed to a TPM1 mutation

Left ventricular non-compaction (cardiomyopathy) (LVN(C)) is a rare hereditary cardiac condition, resulting from abnormal embryonic myocardial development. While it mostly occurs as an isolated condition, association with other cardiovascular manifestations such as Ebstein anomaly (EA) has been reported. This congenital heart defect is characterized by downward displacement of the tricuspid valve and leads to diminished ventricular size and function. In an autosomal dominant LVN(C) family consisting of five affected individuals, of which two also presented with EA and three with mitral valve insufficiency, we pursued the genetic disease cause using whole exome sequencing (WES). WES revealed a missense variant (p.Leu113Val) in TPM1 segregating with the LVN(C) phenotype. TPM1 encodes α-tropomyosin, which is involved in myocardial contraction, as well as in stabilization of non-muscle cytoskeletal actin filaments. So far, LVN(C)-EA has predominantly been linked to pathogenic variants in MYH7. However, one sporadic LVN(C)-EA case with a de novo TPM1 variant has recently been described. We here report the first LVN(C)-EA family segregating a pathogenic TPM1 variant, further establishing the association between EA predisposition and TPM1-related LVN(C). Consequently, we recommend genetic testing for both MYH7 and TPM1 in patients or families in which LVN(C)/non-compaction and EA coincide.     

Expanding the phenotype spectrum associated with pathogenic variants in the COL2A1 and COL11A1 genes

We report the clinical findings of 26 individuals from 16 unrelated families carrying variants in the COL2A1 or COL11A1 genes. Using Sanger and next-generation sequencing, 11 different COL2A1 variants (seven novel), were identified in 13 families (19 affected individuals), all diagnosed with Stickler syndrome (STL) type 1. In nine families, the COL2A1 disease-causing variant arose de novo. Phenotypically, we observed myopia (95%) and retinal detachment (47%), joint hyperflexibility (92%), midface retrusion (84%), cleft palate (53%), and various degrees of hearing impairment (50%). One patient had a splenic artery aneurysm. One affected individual carrying pathogenic variant in COL2A1 showed no ocular signs including no evidence of membranous vitreous anomaly. In three families (seven affected individuals), three novel COL11A1 variants were found. The propositus with a de novo variant showed an ultrarare Marshall/STL overlap. In the second family, the only common clinical sign was postlingual progressive sensorineural hearing impairment (DFNA37). Affected individuals from the third family had typical STL2 signs. The spectrum of disease phenotypes associated with COL2A1 or COL11A1 variants continues to expand and includes typical STL and various bone dysplasias, but also nonsyndromic hearing impairment, isolated myopia with or without retinal detachment, and STL phenotype without clinically detectable ocular pathology.