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7. Role of late amniocentesis in the era of modern genomic technologies.

Author

collaborating authors, Daum, H., Zenvirt, S., Meiner, V., Frumkin, A., Shkedi Rafid, S., Ben David, A., Nadjari, M., Yanai, N., Yagel, S., Helman, S., Silverstein, Shira, Eilat, Avital, Macarov, Michal, Zvi, Naama, Szmulewicz, Adi, Fahham, Duha, Hacohen, Nuphar, Kimchi, Adva, and Shaag, Avraham

Subjects
AMNIOCENTESIS, DNA copy number variations, FETAL abnormalities, MICROARRAY technology, HUMAN abnormalities, GESTATIONAL age, THIRD trimester of pregnancy, RESEARCH evaluation, TIME, RETROSPECTIVE studies
Abstract

Objective: Traditionally, amniocentesis is performed between 17 and 23 weeks of gestation. This enables decisions regarding the course of pregnancy to be made before viability. Less frequently, amniocentesis is performed in the third trimester. Advanced genomic technologies such as chromosomal microarray analysis (CMA) provide more detailed information about the fetus compared with traditional G-banded chromosomal analysis. The aim of this study was to assess the indications for and safety of late amniocentesis, genetic-test results (especially in the context of CMA technology) and outcome of pregnancies that underwent the procedure after 24 weeks.Methods: Medical records were analyzed retrospectively of all women in whom amniocentesis was performed at a gestational age of 24 + 0 to 38 + 6 weeks, at Hadassah Medical Center, between June 2013 and March 2017. Parameters investigated included indications for late amniocentesis, complications, CMA results and pregnancy outcome.Results: During the study period, 291 women (303 fetuses, 277 singleton and 14 twin pregnancies; in two twin pairs, one fetus was terminated before amniocentesis) underwent late amniocentesis. CMA was performed in all instances of amniocentesis. The most frequent indication was abnormal sonographic finding(s) (204/303 fetuses, 67%). Preterm delivery occurred in 1.7% and 5.1% of pregnancies within the first week and within 1 month following the procedure, respectively. Aneuploidy was detected in nine (3%) fetuses and nine (3%) others had a pathogenic/likely pathogenic copy number variant, suggesting that CMA doubled the diagnostic yield of traditional karyotyping. Maximal diagnostic yield (17.5%) was achieved for the subgroup of fetuses referred with abnormal sonographic findings in two or more fetal anatomical systems. Variants of uncertain significance or susceptibility loci were found in another nine (3%) fetuses.Conclusions: In pregnancies undergoing late amniocentesis, CMA increased detection rates of fetal abnormalities and had a shorter turnaround time compared with traditional chromosomal analysis; therefore, late amniocentesis may serve as a helpful tool for detecting fetal abnormalities or reassuring parents following late-appearing abnormal sonographic findings. However, CMA may expose findings of uncertain significance, about which the couple should be precounseled. The procedure appears to be safe. Copyright © 2018 ISUOG. Published by John Wiley & Sons Ltd. [ABSTRACT FROM AUTHOR]

Published
2019
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8. O23 – 1732 Childhood relapsing immune-mediated polyneuropathy and hemolysis is associated with CD59 deficiency

Author

Nevo, Y, primary, Ben Zeev, B, additional, Tabib, A, additional, Straussberg, R, additional, Anikster, Y, additional, Shorer, Z, additional, Fattal-Valeski, A, additional, Ta Shma, A, additional, Aharoni, S, additional, Rabie, M, additional, Zenvirt, S, additional, Goldshmidt, H, additional, Fellig, Y, additional, Shaag, A, additional, Mevorach, D, additional, and Elpeleg, O, additional

Published
2013
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9. Detection of copy number variants associated with late-onset conditions in ~16 200 pregnancies: parameters for disclosure and pregnancy outcome.

Author

Daum H, Segel R, Meiner V, Goldberg Y, Zeligson S, Weiss O, Stern S, Frumkin A, Zenvirt S, Ganz G, and Shkedi-Rafid S

Subjects
Female, Humans, Pregnancy, Disclosure, DNA Copy Number Variations genetics, Microarray Analysis, Pregnancy Outcome, Chromosome Aberrations, Prenatal Diagnosis
Abstract

Background: Copy number variants (CNVs) associated with late-onset medical conditions are rare but important secondary findings in chromosomal microarray analysis (CMA) performed during pregnancy. Here, we critically review the cases at two tertiary centres to assess the criteria which guide the disclosure of such findings and develop a disclosure decision tool (DDT) aimed at facilitating disclosure decision. Parental decisions on receiving CNVs associated with risks for late-onset conditions were also recorded., Methods: Prenatal CMAs in Hadassah and Shaare Zedek Medical Centers from November 2013 to October 2021 were reviewed for CNVs associated with late-onset conditions. The DDT proposed uses a five-parameter scoring system, which considers the severity, median age of onset, penetrance, understanding of genotype-phenotype correlation and actionability of the finding., Results: Out of 16 238 prenatal CMAs, 16 (0.1%) harboured CNVs associated with late-onset conditions, 15 of which were disclosed. Outcome information was available on 13 of the 16 pregnancies, all of which continued to delivery., Conclusions: Our suggested DDT will help clinicians to quantitatively weigh the variables associated with CNVs of this type and arrive at a well thought out clinical decision regarding disclosure. Although the prevalence of late-onset conditions as a major finding in the prenatal setup is low, it is expected to rise with the increasing use of non-invasive CMA testing and whole exome and genome sequencing., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2023. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2023
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10. Role of late amniocentesis in the era of modern genomic technologies.

Author

Daum H, Ben David A, Nadjari M, Zenvirt S, Helman S, Yanai N, Meiner V, Yagel S, Frumkin A, and Shkedi Rafid S

Subjects
Adult, Amniocentesis methods, Congenital Abnormalities embryology, Female, Gestational Age, Humans, Microarray Analysis methods, Pregnancy, Pregnancy Trimester, Third, Reproducibility of Results, Retrospective Studies, Amniocentesis statistics & numerical data, Congenital Abnormalities diagnosis, Microarray Analysis statistics & numerical data, Time Factors
Abstract

Objective: Traditionally, amniocentesis is performed between 17 and 23 weeks of gestation. This enables decisions regarding the course of pregnancy to be made before viability. Less frequently, amniocentesis is performed in the third trimester. Advanced genomic technologies such as chromosomal microarray analysis (CMA) provide more detailed information about the fetus compared with traditional G-banded chromosomal analysis. The aim of this study was to assess the indications for and safety of late amniocentesis, genetic-test results (especially in the context of CMA technology) and outcome of pregnancies that underwent the procedure after 24 weeks., Methods: Medical records were analyzed retrospectively of all women in whom amniocentesis was performed at a gestational age of 24 + 0 to 38 + 6 weeks, at Hadassah Medical Center, between June 2013 and March 2017. Parameters investigated included indications for late amniocentesis, complications, CMA results and pregnancy outcome., Results: During the study period, 291 women (303 fetuses, 277 singleton and 14 twin pregnancies; in two twin pairs, one fetus was terminated before amniocentesis) underwent late amniocentesis. CMA was performed in all instances of amniocentesis. The most frequent indication was abnormal sonographic finding(s) (204/303 fetuses, 67%). Preterm delivery occurred in 1.7% and 5.1% of pregnancies within the first week and within 1 month following the procedure, respectively. Aneuploidy was detected in nine (3%) fetuses and nine (3%) others had a pathogenic/likely pathogenic copy number variant, suggesting that CMA doubled the diagnostic yield of traditional karyotyping. Maximal diagnostic yield (17.5%) was achieved for the subgroup of fetuses referred with abnormal sonographic findings in two or more fetal anatomical systems. Variants of uncertain significance or susceptibility loci were found in another nine (3%) fetuses., Conclusions: In pregnancies undergoing late amniocentesis, CMA increased detection rates of fetal abnormalities and had a shorter turnaround time compared with traditional chromosomal analysis; therefore, late amniocentesis may serve as a helpful tool for detecting fetal abnormalities or reassuring parents following late-appearing abnormal sonographic findings. However, CMA may expose findings of uncertain significance, about which the couple should be precounseled. The procedure appears to be safe. Copyright © 2018 ISUOG. Published by John Wiley & Sons Ltd., (Copyright © 2018 ISUOG. Published by John Wiley & Sons Ltd.)

Published
2019
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11. Deleterious mutation in SYCE1 is associated with non-obstructive azoospermia.

Author

Maor-Sagie E, Cinnamon Y, Yaacov B, Shaag A, Goldsmidt H, Zenvirt S, Laufer N, Richler C, and Frumkin A

Subjects
Consanguinity, DNA-Binding Proteins, Homozygote, Humans, Male, Mutation, Nuclear Proteins chemistry, Pedigree, RNA Splice Sites genetics, Azoospermia genetics, Codon, Nonsense, Nuclear Proteins genetics
Abstract

Purpose: To determine the molecular basis of familial, autosomal-recessive, non-obstructive azoospermia in a consanguineous Iranian Jewish family., Methods: We investigated the genetic cause of non-obstructive azoospermia in two affected siblings from a consanguineous family. Homozygosity mapping in the DNA samples of the patients and their normospermic brother was followed by exome analysis of one of the patients. Other family members were genotyped for the mutation by Sanger sequencing. The mutation effect was demonstrated by immunostaining of the patients' testicular tissue., Results: The two patients were homozygous for a splice site mutation in SYCE1 which resulted in retention of intron three in the cDNA and premature stop codon. SYCE1 encodes a Synaptonemal Complex protein which plays an essential role during meiosis. Immunostaining of patient's testicular tissue with anti-Syce1 antibody revealed an undetectable level of Syce1. Histological examination of the patients' tissue disclosed immature-stages spermatocytes without mature forms, indicating maturation arrest., Conclusion: The significance of most synaptonemal complex proteins was previously demonstrated in a mutant mouse model. The present report underscores the importance of synaptonemal complex proteins in spermatogenenesis in humans. Our new approach, combining homozygosity mapping and exome sequencing, resulted in one of the first reports of an autosomal-recessive form of NOA.

Published
2015
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12. Isolated truncus arteriosus associated with a mutation in the plexin-D1 gene.

Author

Ta-Shma A, Pierri CL, Stepensky P, Shaag A, Zenvirt S, Elpeleg O, and Rein AJ

Subjects
Animals, Cell Adhesion Molecules, Neuronal metabolism, Child, Preschool, Chromosome Mapping, Exome, Female, Heart Defects, Congenital physiopathology, Humans, Infant, Infant, Newborn, Intracellular Signaling Peptides and Proteins, Male, Membrane Glycoproteins, Mice, Mice, Knockout, Middle Aged, Mutation, Pedigree, Semaphorins metabolism, Sequence Analysis, DNA, Signal Transduction, Cell Adhesion Molecules, Neuronal genetics, Genetic Association Studies, Heart Defects, Congenital genetics, Truncus Arteriosus physiopathology
Abstract

Truncus arteriosus accounts for approximately 1% of congenital heart defects and the cause of isolated non-syndromic truncus arteriosus is largely unknown. In order to identify the underlying molecular defect in a consanguineous family with recurrent tuncus arteriosus, homozygosity mapping followed by whole exome sequencing was performed. This resulted in the identification of a homozygous mutation, Arg1299Cys, in the PLXND1 gene. The mutation affected a highly conserved residue, segregated with the disease in the family and was absent from available SNP databases and ethnic matched controls. in silico comparative modeling revealed that the mutation resides in the N-terminal segment of the human plexin-D1 intracellular region which interacts with the catalytic GTPase-activating protein homology region. The mutation likely destabilizes the intracellular region, perturbing its anchoring and catalytic activity. The phenotype in human PLXND1 mutation is closely related to that of knockout mice for PLXND1, its co-receptor neuropilin-1 or its ligand SEMA3C. It is therefore suggested that SEMA3C signaling, propagated through the heterodimer receptor plexin-D1/neuropilin, is important for truncus arteriosus septation. Confirmation of this observation will require the identification of PLXND1 mutations in additional patients. Exome analysis is valuable for molecular investigation of single patients with congenital heart defects in whom chromosomal copy number variants have been excluded., (© 2013 Wiley Periodicals, Inc.)

Published
2013
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13. The Thr224Asn mutation in the VPS45 gene is associated with the congenital neutropenia and primary myelofibrosis of infancy.

Author

Stepensky P, Saada A, Cowan M, Tabib A, Fischer U, Berkun Y, Saleh H, Simanovsky N, Kogot-Levin A, Weintraub M, Ganaiem H, Shaag A, Zenvirt S, Borkhardt A, Elpeleg O, Bryant NJ, and Mevorach D

Subjects
Base Sequence, Blotting, Western, Congenital Bone Marrow Failure Syndromes, Consanguinity, Female, Fluorescent Antibody Technique, Humans, Infant, Infant, Newborn, Male, Molecular Sequence Data, Neutropenia genetics, Pedigree, Mutation, Neutropenia congenital, Primary Myelofibrosis genetics, Vesicular Transport Proteins genetics
Abstract

Severe congenital neutropenia as well as primary myelofibrosis are rare in infancy. Elucidation of the underlying mechanism is important because it extends our understanding of the more common adult forms of these disorders. Using homozygosity mapping followed by exome sequencing, we identified a Thr224Asn mutation in the VPS45 gene in infants from consanguineous families who suffered from life-threatening neutropenia, which was refractory to granulocyte CSF, from defective platelet aggregation and myelofibrosis. The mutation segregated in the families, was not present in controls, affected a highly conserved codon, and apparently destabilized the Vps45 protein, which was reduced in the patients' leukocytes. Introduction of the corresponding mutation into yeast resulted in reduced cellular levels of Vps45 and also of the cognate syntaxin Tlg2, which is required for membrane traffic through the endosomal system. A defect in the endosomal-lysosomal pathway, the homologous system in humans, was suggested by the absence of lysosomes in the patients' fibroblasts and by the depletion of α granules in their platelets. Importantly, accelerated apoptosis was observed in the patients' neutrophils and bone marrow. This is the first report of a Vps45-related disease in humans, manifesting by neutropenia, thrombasthenia, myelofibrosis, and progressive bone marrow failure.

Published
2013
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14. Early infantile epileptic encephalopathy associated with a high voltage gated calcium channelopathy.

Author

Edvardson S, Oz S, Abulhijaa FA, Taher FB, Shaag A, Zenvirt S, Dascal N, and Elpeleg O

Subjects
Animals, Blotting, Western, Calcium Channels metabolism, Channelopathies metabolism, Child, Child, Preschool, Female, Humans, Male, Oocytes, Recombinant Proteins genetics, Recombinant Proteins metabolism, Xenopus laevis, Calcium Channels genetics, Channelopathies genetics, Mutation
Abstract

Background: Early infantile epileptic encephalopathies usually manifest as severely impaired cognitive and motor development and often result in a devastating permanent global developmental delay and intellectual disability. A large set of genes has been implicated in the aetiology of this heterogeneous group of disorders. Among these, the ion channelopathies play a prominent role. In this study, we investigated the genetic cause of infantile epilepsy in three affected siblings., Methods and Results: Homozygosity mapping in DNA samples followed by exome analysis in one of the patients resulted in the identification of a homozygous mutation, p.L1040P, in the CACNA2D2 gene. This gene encodes the auxiliary α(2)δ2 subunit of high voltage gated calcium channels. The expression of the α(2)δ2-L1040P mutant instead of α(2)δ2 wild-type (WT) in Xenopus laevis oocytes was associated with a notable reduction of current density of both N (Ca(V)2.2) and L (Ca(V)1.2) type calcium channels. Western blot and confocal imaging analyses showed that the α(2)δ2-L1040P mutant was synthesised normally in oocyte but only the α(2)δ2-WT, and not the α(2)δ2-L1040P mutant, increased the expression of α(1B), the pore forming subunit of Ca(V)2.2, at the plasma membrane. The expression of α(2)δ2-WT with Ca(V)2.2 increased the surface expression of α(1B) 2.5-3 fold and accelerated current inactivation, whereas α(2)δ2-L1040P did not produce any of these effects., Conclusions: L1040P mutation in the CACNA2D2 gene is associated with dysfunction of α(2)δ2, resulting in reduced current density and slow inactivation in neuronal calcium channels. The prolonged calcium entry during depolarisation and changes in surface density of calcium channels caused by deficient α(2)δ2 could underlie the epileptic phenotype. This is the first report of an encephalopathy caused by mutation in the auxiliary α(2)δ subunit of high voltage gated calcium channels in humans, illustrating the importance of this subunit in normal physiology of the human brain.

Published
2013
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15. West syndrome caused by ST3Gal-III deficiency.

Author

Edvardson S, Baumann AM, Mühlenhoff M, Stephan O, Kuss AW, Shaag A, He L, Zenvirt S, Tanzi R, Gerardy-Schahn R, and Elpeleg O

Subjects
Adolescent, Age of Onset, Animals, Anticonvulsants therapeutic use, CHO Cells, Child, Child, Preschool, Cricetinae, Cricetulus, DNA Mutational Analysis, Electroencephalography, Epilepsy drug therapy, Epilepsy etiology, Epitopes genetics, Exons genetics, Female, Genetic Linkage, Humans, Infant, Intellectual Disability epidemiology, Lennox Gastaut Syndrome, Male, Pedigree, Spasms, Infantile epidemiology, gamma-Aminobutyric Acid physiology, beta-Galactoside alpha-2,3-Sialyltransferase, Sialyltransferases deficiency, Spasms, Infantile genetics
Abstract

West syndrome consists of infantile spasms, hypsarrhythmia, and developmental arrest. Most patients remain mentally retarded and many develop Lennox-Gastaut syndrome. Using homozygosity mapping followed by exome sequencing we identified an ST3GAL3 mutation in three infants with West syndrome. ST3GAL3 encodes a sialyltransferase involved in the biosynthesis of sialyl-Lewis epitopes on cell surface-expressed glycoproteins. The mutation affected an essential sialyl-motif and abolished enzymatic activity. Abnormalities in proteins involved in forebrain γ-aminobutyric acid (GABA)ergic synaptic growth and function were recently proposed to account for infantile spasms. Dysfunctional ST3GAL3 may thus result in perturbation of the posttranslational sialylation of proteins in these pathways., (Wiley Periodicals, Inc. © 2012 International League Against Epilepsy.)

Published
2013
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16. CD59 deficiency is associated with chronic hemolysis and childhood relapsing immune-mediated polyneuropathy.

Author

Nevo Y, Ben-Zeev B, Tabib A, Straussberg R, Anikster Y, Shorer Z, Fattal-Valevski A, Ta-Shma A, Aharoni S, Rabie M, Zenvirt S, Goldshmidt H, Fellig Y, Shaag A, Mevorach D, and Elpeleg O

Subjects
Age of Onset, Amino Acid Sequence, Anemia, Hemolytic blood, Anemia, Hemolytic cerebrospinal fluid, Anemia, Hemolytic ethnology, CD59 Antigens metabolism, Child, Preschool, Female, Founder Effect, Hemoglobinuria blood, Hemoglobinuria cerebrospinal fluid, Hemoglobinuria ethnology, Humans, Infant, Jews genetics, Libya ethnology, Male, Membrane Proteins analysis, Molecular Sequence Data, Morocco ethnology, Pedigree, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating blood, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating cerebrospinal fluid, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating ethnology, Protein Transport, Anemia, Hemolytic genetics, CD59 Antigens genetics, Hemoglobinuria genetics, Mutation, Missense, Point Mutation, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating genetics
Abstract

CD59 deficiency is a common finding in RBCs and WBCs in patients with chronic hemolysis suffering from paroxysmal nocturnal hemoglobinuria in which the acquired mutation in the PIGA gene leads to membrane loss of glycosylphosphatidylinositol-anchored membrane proteins, including CD59. The objective of the present study was to elucidate the molecular basis of childhood familial chronic Coombs-negative hemolysis and relapsing polyneuropathy presenting as chronic inflammatory demyelinating polyradiculoneuropathy in infants of North-African Jewish origin from 4 unrelated families. A founder mutation was searched for using homozygosity mapping followed by exome sequencing. The expression of CD59, CD55, and CD14 was examined in blood cells by flow cytometry followed by Western blot of the CD59 protein. A homozygous missense mutation, p.Cys89Tyr in CD59, was identified in all patients. The mutation segregated with the disease in the families and had a carrier rate of 1:66 among Jewish subjects of North-African origin. The mutated protein was present in the patients' cells in reduced amounts and was undetectable on the membrane surface. Based on the results of the present study, we conclude that the Cys89Tyr mutation in CD59 is associated with a failure of proper localization of the CD59 protein in the cell surface. This mutation is manifested clinically in infancy by chronic hemolysis and relapsing peripheral demyelinating disease.

Published
2013
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17. An SNX10 mutation causes malignant osteopetrosis of infancy.

Author

Aker M, Rouvinski A, Hashavia S, Ta-Shma A, Shaag A, Zenvirt S, Israel S, Weintraub M, Taraboulos A, Bar-Shavit Z, and Elpeleg O

Subjects
Base Sequence, Consanguinity, Female, Genotype, Humans, Infant, Infant, Newborn, Male, Osteoclasts metabolism, Osteoclasts pathology, Osteopetrosis pathology, Pedigree, Polymorphism, Single Nucleotide, Mutation, Osteopetrosis genetics, Sorting Nexins genetics
Abstract

Background: Osteopetrosis is a life-threatening, rare disorder typically resulting from osteoclast dysfunction and infrequently from failure to commitment to osteoclast lineage. Patients commonly present in infancy with macrocephaly, feeding difficulties, evolving blindness and deafness, and bone marrow failure. In ∼70% of the patients there is a molecularly defined failure to maintain an acid pH at the osteoclast-bone interface (the ruffled border) which is necessary for the bone resorptive activity., Methods and Results: In eight patients with infantile osteopetrosis which could be cured by bone marrow transplantation, the study identified by homozygosity mapping in distantly related consanguineous pedigrees a missense mutation in a highly conserved residue in the SNX10 gene. The mutation segregated with the disease in the families and was carried by one of 211 anonymous individuals of the same ethnicity. In the patients' osteoclasts, the mutant SNX10 protein was abnormally abundant and its distribution altered. The patients' osteoclasts were fewer and smaller than control cells, their resorptive capacity was markedly deranged, and the endosomal pathway was perturbed as evidenced by the distribution of internalised dextran., Conclusions: SNX10 was recently shown to interact with vacuolar type H(+)-ATPase (V-ATPase) which pumps protons at the osteoclast-bone interface. Mutations in TCIRG1, the gene encoding a subunit of the V-ATPase complex, account for the majority of cases of osteopetrosis. It is speculated that SNX10 is responsible for the vesicular sorting of V-ATPase from Golgi or for its targeting to the ruffled border. A mutation in SNX10 may therefore result in 'secondary V-ATPase deficiency' with a failure to acidify the resorption lacuna. Determination of the sequence of the SNX10 gene is warranted in molecularly undefined patients with recessive 'pure' osteopetrosis of infancy.

Published
2012
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18. Infantile cerebellar-retinal degeneration associated with a mutation in mitochondrial aconitase, ACO2.

Author

Spiegel R, Pines O, Ta-Shma A, Burak E, Shaag A, Halvardson J, Edvardson S, Mahajna M, Zenvirt S, Saada A, Shalev S, Feuk L, and Elpeleg O

Subjects
Adolescent, Atrophy enzymology, Atrophy genetics, Cerebellum enzymology, Child, Child, Preschool, Exome, Exons, Female, Genotype, Glutamic Acid metabolism, Heterozygote, Homozygote, Humans, Infant, Magnetic Resonance Imaging methods, Male, Mitochondria genetics, Neurodegenerative Diseases enzymology, Oxidation-Reduction, Polymorphism, Single Nucleotide, Retina enzymology, Aconitate Hydratase genetics, Cerebellum abnormalities, Mitochondria enzymology, Mutation, Neurodegenerative Diseases genetics, Retina abnormalities
Abstract

Degeneration of the cerebrum, cerebellum, and retina in infancy is part of the clinical spectrum of lysosomal storage disorders, mitochondrial respiratory chain defects, carbohydrate glycosylation defects, and infantile neuroaxonal dystrophy. We studied eight individuals from two unrelated families who presented at 2-6 months of age with truncal hypotonia and athetosis, seizure disorder, and ophthalmologic abnormalities. Their course was characterized by failure to acquire developmental milestones and culminated in profound psychomotor retardation and progressive visual loss, including optic nerve and retinal atrophy. Despite their debilitating state, the disease was compatible with survival of up to 18 years. Laboratory investigations were normal, but the oxidation of glutamate by muscle mitochondria was slightly reduced. Serial brain MRI displayed progressive, prominent cerebellar atrophy accompanied by thinning of the corpus callosum, dysmyelination, and frontal and temporal cortical atrophy. Homozygosity mapping followed by whole-exome sequencing disclosed a Ser112Arg mutation in ACO2, encoding mitochondrial aconitase, a component of the Krebs cycle. Specific aconitase activity in the individuals' lymphoblasts was severely reduced. Under restrictive conditions, the mutant human ACO2 failed to complement a yeast ACO1 deletion strain, whereas the wild-type human ACO2 succeeded, indicating that this mutation is pathogenic. Thus, a defect in mitochondrial aconitase is associated with an infantile neurodegenerative disorder affecting mainly the cerebellum and retina. In the absence of noninvasive biomarkers, determination of the ACO2 sequence or of aconitase activity in lymphoblasts are warranted in similarly affected individuals, based on clinical and neuroradiologic grounds., (Copyright © 2012 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2012
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19. A deleterious mutation in DNAJC6 encoding the neuronal-specific clathrin-uncoating co-chaperone auxilin, is associated with juvenile parkinsonism.

Author

Edvardson S, Cinnamon Y, Ta-Shma A, Shaag A, Yim YI, Zenvirt S, Jalas C, Lesage S, Brice A, Taraboulos A, Kaestner KH, Greene LE, and Elpeleg O

Subjects
Adolescent, Auxilins metabolism, Base Sequence, Clathrin metabolism, DNA Mutational Analysis methods, Family Health, HSP40 Heat-Shock Proteins metabolism, Humans, Male, Molecular Chaperones genetics, Molecular Chaperones metabolism, Neurons metabolism, Pedigree, Auxilins genetics, HSP40 Heat-Shock Proteins genetics, Mutation, Parkinsonian Disorders genetics
Abstract

Parkinson disease is caused by neuronal loss in the substantia nigra which manifests by abnormality of movement, muscle tone, and postural stability. Several genes have been implicated in the pathogenesis of Parkinson disease, but the underlying molecular basis is still unknown for ∼70% of the patients. Using homozygosity mapping and whole exome sequencing we identified a deleterious mutation in DNAJC6 in two patients with juvenile parkinsonism. The mutation was associated with abnormal transcripts and marked reduced DNAJC6 mRNA level. DNAJC6 encodes the HSP40 Auxilin, a protein which is selectively expressed in neurons and confers specificity to the ATPase activity of its partner Hcs70 in clathrin uncoating. In Auxilin null mice it was previously shown that the abnormally increased retention of assembled clathrin on vesicles and in empty cages leads to impaired synaptic vesicle recycling and perturbed clathrin mediated endocytosis. Endocytosis function, studied by transferring uptake, was normal in fibroblasts from our patients, likely because of the presence of another J-domain containing partner which co-chaperones Hsc70-mediated uncoating activity in non-neuronal cells. The present report underscores the importance of the endocytic/lysosomal pathway in the pathogenesis of Parkinson disease and other forms of parkinsonism.

Published
2012
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20. Early prenatal ventriculomegaly due to an AIFM1 mutation identified by linkage analysis and whole exome sequencing.

Author

Berger I, Ben-Neriah Z, Dor-Wolman T, Shaag A, Saada A, Zenvirt S, Raas-Rothschild A, Nadjari M, Kaestner KH, and Elpeleg O

Subjects
Amino Acid Sequence, Base Sequence, Conserved Sequence, Fatal Outcome, Female, Genetic Association Studies, Haplotypes, Humans, Hydrocephalus genetics, Infant, Newborn, Male, Molecular Sequence Data, Pregnancy, Sequence Analysis, DNA, Ultrasonography, Prenatal, Apoptosis Inducing Factor genetics, Exome, Genetic Linkage, Hydrocephalus diagnostic imaging, Mutation, Missense
Abstract

The identification of disease causing mutation in patients with neurodegenerative disorders originating from small, non-consanguineous families is challenging. Three siblings were found to have ventriculomegaly at early gestation; postnatally, there was no acquisition of developmental milestones, and the muscles of the children were dystrophic. Plasma and CSF lactate levels were normal, but the activities of mitochondrial complex I and IV were markedly decreased. Using linkage analysis in the family, followed by whole exome sequencing of a single patient, we identified a pathogenic mutation in the AIFM1 gene which segregated with the disease state and was absent in 86 anonymous controls. This is the second report of a mutation in the AIFM1 gene, extending the clinical spectrum to include prenatal ventriculomegaly and underscores the importance of AIF for complex I assembly. In summary, linkage analysis followed by exome sequencing of a single patient is a cost-effective approach for the identification of disease causing mutations in small non-consanguineous families., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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21. A deleterious founder mutation in the BMPER gene causes diaphanospondylodysostosis (DSD).

Author

Ben-Neriah Z, Michaelson-Cohen R, Inbar-Feigenberg M, Nadjari M, Zeligson S, Shaag A, Zenvirt S, Elpeleg O, and Levy-Lahad E

Subjects
Arabs genetics, Chromosome Mapping, Female, Founder Effect, Gene Frequency, Genetic Counseling, Homozygote, Humans, Infant, Infant, Newborn, Nuchal Translucency Measurement, Pedigree, Polymorphism, Single Nucleotide, Pregnancy, Pregnancy Trimester, Second genetics, Radiography, Spondylosis diagnosis, Spondylosis diagnostic imaging, Carrier Proteins genetics, Chromosomes, Human, Pair 17 genetics, Mutation, Spondylosis genetics
Abstract

Diaphonospondylodysostosis (DSD) is a rare, recessively inherited, lethal skeletal dysplasia, characterized by severe spinal ossification, segmentation defects, and renal cystic dysplasia with nephrogenic rests. We hereby present three affected individuals: two children and a fetus from two unrelated East Jerusalem Arab-Muslim families. Whereas most fetuses die in utero or perinatally, one of the children survived to 15 months. Homozygosity mapping in the two families demonstrated a single common 3.87 Mb region on chromosome 7, ruling out previously known spondylocostal/spondylothoracic dysostosis loci. The 15 protein coding genes in the region were prioritized, and some were sequenced. A single, novel deleterious mutation, Q104X, was detected in the bone morphogenetic protein-binding endothelial regulator protein (BMPER) gene, recently reported to be mutated in other DSD patients [Funari et al., 2010]. The novel mutation we identified is an ancestral founder allele, as evidenced by a shared 440 SNP haplotype, and its frequency in the general Arab population is estimated to be <1:123. Our findings confirm loss of BMPER function as a cause of axial versus appendicular skeletal defects, and suggest that less deleterious mutations may be involved in milder axial skeleton abnormalities., (Copyright © 2011 Wiley Periodicals, Inc.)

Published
2011
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22. Exome sequencing and disease-network analysis of a single family implicate a mutation in KIF1A in hereditary spastic paraparesis.

Author

Erlich Y, Edvardson S, Hodges E, Zenvirt S, Thekkat P, Shaag A, Dor T, Hannon GJ, and Elpeleg O

Subjects
Adolescent, Adult, Amino Acid Sequence, Databases, Genetic, Exons genetics, Genotype, Homozygote, Humans, Male, Models, Molecular, Mutation, Pedigree, Phenotype, Polymorphism, Single Nucleotide, Spastic Paraplegia, Hereditary pathology, Young Adult, Kinesins genetics, Sequence Analysis, DNA methods, Spastic Paraplegia, Hereditary genetics
Abstract

Whole exome sequencing has become a pivotal methodology for rapid and cost-effective detection of pathogenic variations in Mendelian disorders. A major challenge of this approach is determining the causative mutation from a substantial number of bystander variations that do not play any role in the disease etiology. Current strategies to analyze variations have mainly relied on genetic and functional arguments such as mode of inheritance, conservation, and loss of function prediction. Here, we demonstrate that disease-network analysis provides an additional layer of information to stratify variations even in the presence of incomplete sequencing coverage, a known limitation of exome sequencing. We studied a case of Hereditary Spastic Paraparesis (HSP) in a single inbred Palestinian family. HSP is a group of neuropathological disorders that are characterized by abnormal gait and spasticity of the lower limbs. Forty-five loci have been associated with HSP and lesions in 20 genes have been documented to induce the disorder. We used whole exome sequencing and homozygosity mapping to create a list of possible candidates. After exhausting the genetic and functional arguments, we stratified the remaining candidates according to their similarity to the previously known disease genes. Our analysis implicated the causative mutation in the motor domain of KIF1A, a gene that has not yet associated with HSP, which functions in anterograde axonal transportation. Our strategy can be useful for a large class of disorders that are characterized by locus heterogeneity, particularly when studying disorders in single families.

Published
2011
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23. Infantile cerebral and cerebellar atrophy is associated with a mutation in the MED17 subunit of the transcription preinitiation mediator complex.

Author

Kaufmann R, Straussberg R, Mandel H, Fattal-Valevski A, Ben-Zeev B, Naamati A, Shaag A, Zenvirt S, Konen O, Mimouni-Bloch A, Dobyns WB, Edvardson S, Pines O, and Elpeleg O

Subjects
Chromosomes, Human, Pair 11, Founder Effect, Homozygote, Humans, Infant, Jews genetics, Microcephaly genetics, Nervous System Diseases genetics, Atrophy genetics, Brain pathology, Cerebellum pathology, Mediator Complex genetics, Mutation
Abstract

Primary microcephaly of postnatal onset is a feature of many neurological disorders, mostly associated with mental retardation, seizures, and spasticity, and it typically carries a grave prognosis. Five infants from four unrelated families of Caucasus Jewish origin presented soon after birth with spasticity, epilepsy, and profound psychomotor retardation. Head circumference percentiles declined, and brain MRI disclosed marked cereberal and cerebellar atrophy with severe myelination defect. A search for a common homozygous region revealed a 2.28 Mb genomic segment on chromosome 11 that encompassed 16 protein-coding genes. A missense mutation in one of them, MED17, segregated with the disease state in the families and was carried by four of 79 anonymous Caucasus Jews. A corresponding mutation in the homologous S.cerevisiae gene SRB4 inactivated the protein, according to complementation assays. Screening of MED17 in additional patients with similar clinical and radiologic findings revealed four more patients, all homozygous for the p.L371P mutation and all originating from Caucasus Jewish families. We conclude that the p. L371P mutation in MED17 is a founder mutation in the Caucasus Jewish community and that homozygosity for this mutation is associated with infantile cerebral and cerebellar atrophy with poor myelination., (Copyright © 2010 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2010
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24. Joubert syndrome 2 (JBTS2) in Ashkenazi Jews is associated with a TMEM216 mutation.

Author

Edvardson S, Shaag A, Zenvirt S, Erlich Y, Hannon GJ, Shanske AL, Gomori JM, Ekstein J, and Elpeleg O

Subjects
Adolescent, Adult, Alleles, Brain pathology, Child, Child, Preschool, DNA Mutational Analysis, Homozygote, Humans, Infant, Jews, Magnetic Resonance Imaging methods, Nervous System Diseases ethnology, Syndrome, Mutation, Nervous System Diseases genetics
Abstract

Patients with Joubert syndrome 2 (JBTS2) suffer from a neurological disease manifested by psychomotor retardation, hypotonia, ataxia, nystagmus, and oculomotor apraxia and variably associated with dysmorphism, as well as retinal and renal involvement. Brain MRI results show cerebellar vermis hypoplasia and additional anomalies of the fourth ventricle, corpus callosum, and occipital cortex. The disease has previously been mapped to the centromeric region of chromosome 11. Using homozygosity mapping in 13 patients from eight Ashkenazi Jewish families, we identified a homozygous mutation, R12L, in the TMEM216 gene, in all affected individuals. Thirty individuals heterozygous for the mutation were detected among 2766 anonymous Ashkenazi Jews, indicating a carrier rate of 1:92. Given the small size of the TMEM216 gene relative to other JBTS genes, its sequence analysis is warranted in all JBTS patients, especially those who suffer from associated anomalies., (2010 The American Society of Human Genetics. Published by Elsevier Inc.)

Published
2010
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25. Drosophila LIM-only is a positive regulator of transcription during thoracic bristle development.

Author

Zenvirt S, Nevo-Caspi Y, Rencus-Lazar S, and Segal D

Subjects
Animals, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Body Patterning genetics, Drosophila embryology, Drosophila Proteins genetics, Drosophila Proteins metabolism, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Mutation, Nuclear Proteins genetics, Nuclear Proteins metabolism, Phenotype, Thorax embryology, Thorax growth & development, Transcription Factors genetics, Transcription Factors metabolism, Drosophila genetics, Drosophila growth & development, Drosophila Proteins physiology, Gene Expression Regulation, Developmental, Homeodomain Proteins physiology, Transcription, Genetic
Abstract

The Drosophila LIM-only (LMO) protein DLMO functions as a negative regulator of transcription during development of the fly wing. Here we report a novel role of DLMO as a positive regulator of transcription during the development of thoracic sensory bristles. We isolated new dlmo mutants, which lack some thoracic dorsocentral (DC) bristles. This phenotype is typical of malfunction of a thoracic multiprotein transcription complex, composed of CHIP, PANNIER (PNR), ACHAETE (AC), and DAUGHTERLESS (DA). Genetic interactions reveal that dlmo synergizes with pnr and ac to promote the development of thoracic DC bristles. Moreover, loss-of-function of dlmo reduces the expression of a reporter target gene of this complex in vivo. Using the GAL4-UAS system we also show that dlmo is spatially expressed where this complex is known to be active. Glutathione-S-transferase (GST)-pulldown assays showed that DLMO can physically bind CHIP and PNR through either of the two LIM domains of DLMO, suggesting that DLMO might function as part of this transcription complex in vivo. We propose that DLMO exerts its positive effect on DC bristle development by serving as a bridging molecule between components of the thoracic transcription complex.

Published
2008
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