Your search keyword '"Elbendary HM"' showing total 27 results

1. Clinical and Molecular Profiles of a Cohort of Egyptian Patients with Collagen VI-Related Dystrophy.

Author

Sharaf-Eldin WE, Rafat K, Issa MY, Elbendary HM, Eissa NR, Hawaary B, Gaboon NEA, Maroofian R, Gleeson JG, Essawi ML, and Zaki MS

Subjects

Humans, Male, Female, Adult, Child, Adolescent, Egypt, Mutation, Pedigree, Child, Preschool, Contracture genetics, Middle Aged, Collagen Type VI genetics, Muscular Dystrophies genetics, Muscular Dystrophies congenital

Abstract

Collagen VI-related dystrophies (COL6-RD) display a wide spectrum of disease severity and genetic variability ranging from mild Bethlem myopathy (BM) to severe Ullrich congenital muscular dystrophy (UCMD) and the intermediate severities in between with dual modes of inheritance, dominant and recessive. In the current study, next-generation sequencing demonstrated potential variants in the genes coding for the three alpha chains of collagen VI (COL6A1, COL6A2, or COL6A3) in a cohort of Egyptian patients with progressive muscle weakness (n = 23). Based on the age of disease onset and the patient clinical course, subjects were diagnosed as follows: 12 with UCMD, 8 with BM, and 3 with intermediate disease form. Fourteen pathogenic variants, including 5 novel alterations, were reported in the enrolled subjects. They included 3 missense, 3 frameshift, and 6 splicing variants in 4, 3, and 6 families, respectively. In addition, a nonsense variant in a single family and an inframe variant in 3 different families were also detected. Recessive and dominant modes of inheritance were recorded in 9 and 8 families, respectively. According to ACMG guidelines, variants were classified as pathogenic (n = 7), likely pathogenic (n = 4), or VUS (n = 3) with significant pathogenic potential. To our knowledge, the study provided the first report of the clinical and genetic findings of a cohort of Egyptian patients with collagen VI deficiency. Inter- and intra-familial clinical variability was evident among the study cohort., (© 2024. The Author(s).)

Published

2024

2. Clinical and genetic delineation of autosomal recessive and dominant ACTL6B-related developmental brain disorders.

Author

Cali E, Quirin T, Rocca C, Efthymiou S, Riva A, Marafi D, Zaki MS, Suri M, Dominguez R, Elbendary HM, Alavi S, Abdel-Hamid MS, Morsy H, Mau-Them FT, Nizon M, Tesner P, Ryba L, Zafar F, Rana N, Saadi NW, Firoozfar Z, Gencpinar P, Unay B, Ustun C, Bruel AL, Coubes C, Stefanich J, Sezer O, Agolini E, Novelli A, Vasco G, Lettori D, Milh M, Villard L, Zeidler S, Opperman H, Strehlow V, Issa MY, El Khassab H, Chand P, Ibrahim S, Nejad-Rashidi A, Miryounesi M, Larki P, Morrison J, Cristian I, Thiffault I, Bertsch NL, Noh GJ, Pappas J, Moran E, Marinakis NM, Traeger-Synodinos J, Hosseini S, Abbaszadegan MR, Caumes R, Vissers LELM, Neshatdoust M, Montazer MZ, El Fahime E, Canavati C, Kamal L, Kanaan M, Askander O, Voinova V, Levchenko O, Haider S, Halbach SS, Maia ER, Mansoor S, Vivek J, Tawde S, Santhosh R Challa V, Gowda VK, Srinivasan VM, Victor LA, Pinero-Banos B, Hague J, Ei-Awady HA, Maria de Miranda Henriques-Souza A, Cheema HA, Anjum MN, Idkaidak S, Alqarajeh F, Atawneh O, Mor-Shaked H, Harel T, Zifarelli G, Bauer P, Kok F, Kitajima JP, Monteiro F, Josahkian J, Lesca G, Chatron N, Ville D, Murphy D, Neul JL, Mullegama SV, Begtrup A, Herman I, Mitani T, Posey JE, Tay CG, Javed I, Carr L, Kanani F, Beecroft F, Hane L, Abdelkreem E, Macek M, Bispo L, Elmaksoud MA, Hashemi-Gorji F, Pehlivan D, Amor DJ, Jamra RA, Chung WK, Ghayoor EK, Campeau P, Alkuraya FS, Pagnamenta AT, Gleeson J, Lupski JR, Striano P, Moreno-De-Luca A, Lafontaine DLJ, Houlden H, and Maroofian R

Abstract

Purpose: This study aims to comprehensively delineate the phenotypic spectrum of ACTL6B-related disorders, previously associated with both autosomal recessive and autosomal dominant neurodevelopmental disorders. Molecularly, the role of the nucleolar protein ACTL6B in contributing to the disease has remained unclear., Methods: We identified 105 affected individuals, including 39 previously reported cases, and systematically analysed detailed clinical and genetic data for all individuals. Additionally, we conducted knockdown experiments in neuronal cells to investigate the role of ACTL6B in ribosome biogenesis., Results: Biallelic variants in ACTL6B are associated with severe-to-profound global developmental delay/intellectual disability (GDD/ID), infantile intractable seizures, absent speech, autistic features, dystonia, and increased lethality. De novo monoallelic variants result in moderate-to-severe GDD/ID, absent speech, and autistic features, while seizures and dystonia were less frequently observed. Dysmorphic facial features and brain abnormalities, including hypoplastic corpus callosum, parenchymal volume loss/atrophy, are common findings in both groups. We reveal that in the nucleolus, ACTL6B plays a crucial role in ribosome biogenesis, in particular in pre-rRNA processing., Conclusion: This study provides a comprehensive characterization of the clinical spectrum of both autosomal recessive and dominant forms of ACTL6B-associated disorders. It offers a comparative analysis of their respective phenotypes provides a plausible molecular explanation and suggests their inclusion within the expanding category of 'ribosomopathies'., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

3. The clinical and genetic spectrum of inherited glycosylphosphatidylinositol deficiency disorders.

Author

Sidpra J, Sudhakar S, Biswas A, Massey F, Turchetti V, Lau T, Cook E, Alvi JR, Elbendary HM, Jewell JL, Riva A, Orsini A, Vignoli A, Federico Z, Rosenblum J, Schoonjans AS, de Wachter M, Delgado Alvarez I, Felipe-Rucián A, Haridy NA, Haider S, Zaman M, Banu S, Anwaar N, Rahman F, Maqbool S, Yadav R, Salpietro V, Maroofian R, Patel R, Radhakrishnan R, Prabhu SP, Lichtenbelt K, Stewart H, Murakami Y, Löbel U, D'Arco F, Wakeling E, Jones W, Hay E, Bhate S, Jacques TS, Mirsky DM, Whitehead MT, Zaki MS, Sultan T, Striano P, Jansen AC, Lequin M, de Vries LS, Severino M, Edmondson AC, Menzies L, Campeau PM, Houlden H, McTague A, Efthymiou S, and Mankad K

Subjects

Humans, Male, Female, Child, Preschool, Child, Adolescent, Retrospective Studies, Infant, Adult, Intellectual Disability genetics, Developmental Disabilities genetics, Young Adult, Congenital Disorders of Glycosylation genetics, Phenotype, Seizures genetics, Glycosylphosphatidylinositols deficiency, Glycosylphosphatidylinositols genetics

Abstract

Inherited glycosylphosphatidylinositol deficiency disorders (IGDs) are a group of rare multisystem disorders arising from pathogenic variants in glycosylphosphatidylinositol anchor pathway (GPI-AP) genes. Despite associating 24 of at least 31 GPI-AP genes with human neurogenetic disease, prior reports are limited to single genes without consideration of the GPI-AP as a whole and with limited natural history data. In this multinational retrospective observational study, we systematically analyse the molecular spectrum, phenotypic characteristics and natural history of 83 individuals from 75 unique families with IGDs, including 70 newly reported individuals; the largest single cohort to date. Core clinical features were developmental delay or intellectual disability (DD/ID, 90%), seizures (83%), hypotonia (72%) and motor symptoms (64%). Prognostic and biologically significant neuroimaging features included cerebral atrophy (75%), cerebellar atrophy (60%), callosal anomalies (57%) and symmetric restricted diffusion of the central tegmental tracts (60%). Sixty-one individuals had multisystem involvement including gastrointestinal (66%), cardiac (19%) and renal (14%) anomalies. Though dysmorphic features were appreciated in 82%, no single dysmorphic feature had a prevalence >30%, indicating substantial phenotypic heterogeneity. Follow-up data were available for all individuals, 15 of whom were deceased at the time of writing. Median age at seizure onset was 6 months. Individuals with variants in synthesis stage genes of the GPI-AP exhibited a significantly shorter time to seizure onset than individuals with variants in transamidase and remodelling stage genes of the GPI-AP (P = 0.046). Forty individuals had intractable epilepsy. The majority of individuals experienced delayed or absent speech (95%), motor delay with non-ambulance (64%), and severe-to-profound DD/ID (59%). Individuals with a developmental epileptic encephalopathy (51%) were at greater risk of intractable epilepsy (P = 0.003), non-ambulance (P = 0.035), ongoing enteral feeds (P < 0.001) and cortical visual impairment (P = 0.007). Serial neuroimaging showed progressive cerebral volume loss in 87.5% and progressive cerebellar atrophy in 70.8%, indicating a neurodegenerative process. Genetic analyses identified 93 unique variants (106 total), including 22 novel variants. Exploratory analyses of genotype-phenotype correlations using unsupervised hierarchical clustering identified novel genotypic predictors of clinical phenotype and long-term outcome with meaningful implications for management. In summary, we expand both the mild and severe phenotypic extremities of the IGDs, provide insights into their neurological basis, and vitally, enable meaningful genetic counselling for affected individuals and their families., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2024

4. The clinical and genetic landscape of developmental and epileptic encephalopathies in Egyptian children.

Author

Elkhateeb N, Issa MY, Elbendary HM, Elnaggar W, Ramadan A, Rafat K, Kamel M, Abdel-Ghafar SF, Amer F, Hassaan HM, Trunzo R, Pereira C, Abdel-Hamid MS, D'Arco F, Bauer P, Bertoli-Avella AM, Girgis M, Gleeson JG, Zaki MS, and Selim L

Subjects

Child, Humans, Egypt epidemiology, Retrospective Studies, Seizures genetics, Seizures complications, Phenotype, Epilepsy diagnosis, Epilepsy, Generalized

Abstract

Developmental and epileptic encephalopathies (DEEs) are a heterogeneous group of epilepsies characterized by early-onset, refractory seizures associated with developmental regression or impairment, with a heterogeneous genetic landscape including genes implicated in various pathways and mechanisms. We retrospectively studied the clinical and genetic data of patients with genetic DEE who presented at two tertiary centers in Egypt over a 10-year period. Exome sequencing was used for genetic testing. We report 74 patients from 63 unrelated Egyptian families, with a high rate of consanguinity (58%). The most common seizure type was generalized tonic-clonic (58%) and multiple seizure types were common (55%). The most common epilepsy syndrome was early infantile DEE (50%). All patients showed variable degrees of developmental impairment. Microcephaly, hypotonia, ophthalmological involvement and neuroimaging abnormalities were common. Eighteen novel variants were identified and the phenotypes of five DEE genes were expanded with novel phenotype-genotype associations. Obtaining a genetic diagnosis had implications on epilepsy management in 17 patients with variants in 12 genes. In this study, we expand the phenotype and genotype spectrum of DEE in a large single ethnic cohort of patients. Reaching a genetic diagnosis guided precision management of epilepsy in a significant proportion of patients., (© 2024 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2024

5. Bi-allelic genetic variants in the translational GTPases GTPBP1 and GTPBP2 cause a distinct identical neurodevelopmental syndrome.

Author

Salpietro V, Maroofian R, Zaki MS, Wangen J, Ciolfi A, Barresi S, Efthymiou S, Lamaze A, Aughey GN, Al Mutairi F, Rad A, Rocca C, Calì E, Accogli A, Zara F, Striano P, Mojarrad M, Tariq H, Giacopuzzi E, Taylor JC, Oprea G, Skrahina V, Rehman KU, Abd Elmaksoud M, Bassiony M, El Said HG, Abdel-Hamid MS, Al Shalan M, Seo G, Kim S, Lee H, Khang R, Issa MY, Elbendary HM, Rafat K, Marinakis NM, Traeger-Synodinos J, Ververi A, Sourmpi M, Eslahi A, Khadivi Zand F, Beiraghi Toosi M, Babaei M, Jackson A, Bertoli-Avella A, Pagnamenta AT, Niceta M, Battini R, Corsello A, Leoni C, Chiarelli F, Dallapiccola B, Faqeih EA, Tallur KK, Alfadhel M, Alobeid E, Maddirevula S, Mankad K, Banka S, Ghayoor-Karimiani E, Tartaglia M, Chung WK, Green R, Alkuraya FS, Jepson JEC, and Houlden H

Subjects

Animals, Humans, Drosophila melanogaster genetics, GTP Phosphohydrolases genetics, Phenotype, Drosophila Proteins genetics, GTP-Binding Proteins genetics, Microcephaly, Nervous System Malformations, Neurodevelopmental Disorders genetics

Abstract

The homologous genes GTPBP1 and GTPBP2 encode GTP-binding proteins 1 and 2, which are involved in ribosomal homeostasis. Pathogenic variants in GTPBP2 were recently shown to be an ultra-rare cause of neurodegenerative or neurodevelopmental disorders (NDDs). Until now, no human phenotype has been linked to GTPBP1. Here, we describe individuals carrying bi-allelic GTPBP1 variants that display an identical phenotype with GTPBP2 and characterize the overall spectrum of GTP-binding protein (1/2)-related disorders. In this study, 20 individuals from 16 families with distinct NDDs and syndromic facial features were investigated by whole-exome (WES) or whole-genome (WGS) sequencing. To assess the functional impact of the identified genetic variants, semi-quantitative PCR, western blot, and ribosome profiling assays were performed in fibroblasts from affected individuals. We also investigated the effect of reducing expression of CG2017, an ortholog of human GTPBP1/2, in the fruit fly Drosophila melanogaster. Individuals with bi-allelic GTPBP1 or GTPBP2 variants presented with microcephaly, profound neurodevelopmental impairment, pathognomonic craniofacial features, and ectodermal defects. Abnormal vision and/or hearing, progressive spasticity, choreoathetoid movements, refractory epilepsy, and brain atrophy were part of the core phenotype of this syndrome. Cell line studies identified a loss-of-function (LoF) impact of the disease-associated variants but no significant abnormalities on ribosome profiling. Reduced expression of CG2017 isoforms was associated with locomotor impairment in Drosophila. In conclusion, bi-allelic GTPBP1 and GTPBP2 LoF variants cause an identical, distinct neurodevelopmental syndrome. Mutant CG2017 knockout flies display motor impairment, highlighting the conserved role for GTP-binding proteins in CNS development across species., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

6. Biallelic missense variants in COG3 cause a congenital disorder of glycosylation with impairment of retrograde vesicular trafficking.

Author

Duan R, Marafi D, Xia ZJ, Ng BG, Maroofian R, Sumya FT, Saad AK, Du H, Fatih JM, Hunter JV, Elbendary HM, Baig SM, Abdullah U, Ali Z, Efthymiou S, Murphy D, Mitani T, Withers MA, Jhangiani SN, Coban-Akdemir Z, Calame DG, Pehlivan D, Gibbs RA, Posey JE, Houlden H, Lupashin VV, Zaki MS, Freeze HH, and Lupski JR

Subjects

Humans, Glycosylation, Fibroblasts metabolism, Phenotype, Adaptor Proteins, Vesicular Transport genetics, Congenital Disorders of Glycosylation genetics

Abstract

Biallelic variants in genes for seven out of eight subunits of the conserved oligomeric Golgi complex (COG) are known to cause recessive congenital disorders of glycosylation (CDG) with variable clinical manifestations. COG3 encodes a constituent subunit of the COG complex that has not been associated with disease traits in humans. Herein, we report two COG3 homozygous missense variants in four individuals from two unrelated consanguineous families that co-segregated with COG3-CDG presentations. Clinical phenotypes of affected individuals include global developmental delay, severe intellectual disability, microcephaly, epilepsy, facial dysmorphism, and variable neurological findings. Biochemical analysis of serum transferrin from one family showed the loss of a single sialic acid. Western blotting on patient-derived fibroblasts revealed reduced COG3 and COG4. Further experiments showed delayed retrograde vesicular recycling in patient cells. This report adds to the knowledge of the COG-CDG network by providing collective evidence for a COG3-CDG rare disease trait and implicating a likely pathology of the disorder as the perturbation of Golgi trafficking., (© 2023 SSIEM.)

Published

2023

7. Erratum to ' Taking action on climate change: Testimonials and position statement from the International League Against Epilepsy Climate Change Commission' [Seizure Volume 106, March 2023, Pages 68-75].

Author

Aledo-Serrano A, Battaglia G, Blenkinsop S, Delanty N, Elbendary HM, Eyal S, Guekht A, Gulcebi MI, Henshall DC, Hildebrand MS, Macrohon B, Madaan P, Mifsud J, Mills JD, Neill KH, Romagnolo A, Vezzani A, and Sisodiya SM

Published

2023

8. Novel LSS variants in alopecia and intellectual disability syndrome: New case report and clinical spectrum of LSS-related rare disease traits.

Author

Elbendary HM, Marafi D, Saad AK, Elhossini R, Duan R, Rafat K, Jhangiani SN, Gibbs RA, Pehlivan D, Calame DG, Posey JE, Lupski JR, and Zaki MS

Subjects

Male, Humans, Mutation, Rare Diseases, Alopecia diagnosis, Alopecia genetics, Phenotype, Syndrome, Intellectual Disability genetics, Intellectual Disability pathology

Abstract

Pathogenic biallelic variants in LSS are associated with three Mendelian rare disease traits including congenital cataract type 44, autosomal recessive hypotrichosis type 14, and alopecia-intellectual disability syndrome type 4 (APMR4). We performed trio research exome sequencing on a family with a four-year-old male with global developmental delay, epilepsy and striking alopecia, and identified novel compound heterozygous LSS splice site (c.14+2T>C) and missense (c.1357 G>A; p.V453L) variant alleles. Rare features associated with APMR4 such as cryptorchidism, micropenis, mild cortical brain atrophy and thin corpus callosum were detected. Previously unreported APMR4 findings including cerebellar involvement in the form of unsteady ataxic gait, small vermis with prominent folia, were noted. A review of all reported variants to date in 29 families with LSS-related phenotypes showed an emerging genotype-phenotype correlation. Our report potentially expands LSS-related phenotypic spectrum and highlights the importance of performing brain imaging in LSS-related conditions., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2023

9. Clinical and molecular spectrum of a large Egyptian cohort with ALS2-related disorders of infantile-onset of clinical continuum IAHSP/JPLS.

Author

Zaki MS, Sharaf-Eldin WE, Rafat K, Elbendary HM, Kamel M, Elkhateeb N, Noureldeen MM, Abdeltawab MA, Sadek AA, Essawi ML, Lau T, Murphy D, Abdel-Hamid MS, Holuden H, Issa MY, and Gleeson JG

Subjects

Humans, Egypt epidemiology, DNA Mutational Analysis, Mutation, Guanine Nucleotide Exchange Factors genetics

Abstract

This study presents 46 patients from 23 unrelated Egyptian families with ALS2-related disorders without evidence of lower motor neuron involvement. Age at onset ranged from 10 months to 2.5 years, featuring progressive upper motor neuron signs. Detailed clinical phenotypes demonstrated inter- and intrafamilial variability. We identified 16 homozygous disease-causing ALS2 variants; sorted as splice-site, missense, frameshift, nonsense and in-frame in eight, seven, four, three, and one families, respectively. Seven of these variants were novel, expanding the mutational spectrum of the ALS2 gene. As expected, clinical severity was positively correlated with disease onset (p = 0.004). This work provides clinical and molecular profiles of a large single ethnic cohort of patients with ALS2 mutations, and suggests that infantile ascending hereditary spastic paralysis (IAHSP) and juvenile primary lateral sclerosis (JPLS) are belonged to one entity with no phenotype-genotype correlation., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2023

10. First LIPA Mutational Analysis in Egyptian Patients Reveals One Novel Variant: Wolman Disease.

Author

Elaraby NM, Galal ER, Abdel-Hamid M, Elbendary HM, Elbadry M, Mekkawy MK, Ashaat NA, Mounir SM, and Ashaat EA

Subjects

Humans, Lipase genetics, Egypt, Mutation, Wolman Disease, Wolman Disease drug therapy, Wolman Disease genetics

Abstract

Lysosomal acid lipase (LAL) is a necessary enzyme for the hydrolysis of both triglycerides (TGs) and cholesteryl esters (CEs) in the lysosome. Deficiency of this enzyme encoded by the lipase A (LIPA) gene leads to LAL deficiency (LAL-D). A severe disease subtype of LAL-D is known as Wolman disease (WD), present with diarrhea, hepatosplenomegaly, and adrenal calcification. Untreated patients do not survive more than a year. The aim of this study was to assess the clinical and molecular characterizations of WD patients in Egypt. A total of seven patients (from five unrelated Egyptian families) were screened by targeted next-generation sequencing (NGS), and the co-segregation of causative variants was analyzed using Sanger sequencing. Furthermore, multiple in silico analyses were performed to assess the pathogenicity of the candidate variants. Overall, we identified three diseases causing variants harbored in the LIPA gene. One of these variants is a novel missense variant (NM&#95;000235.4: c.1122 T > G; p. His374Gln), which was classified as a likely pathogenic variant. All variants were predicted to be disease causing using in silico analyses. Our findings expand the spectrum of variants involved in WD which may help to investigate phenotype-genotype correlation and assist genetic counseling. To the best of our knowledge, this is the first clinico-genetic study carried out on Egyptian patients affected with WD., (© 2023. The Author(s).)

Published

2023

11. Spondyloenchondrodysplasia in five new patients: identification of three novel ACP5 variants with variable neurological presentations.

Author

Elhossini RM, Elbendary HM, Rafat K, Ghorab RM, and Abdel-Hamid MS

Subjects

Humans, Tartrate-Resistant Acid Phosphatase genetics, Mutation, Growth Hormone genetics, Autoimmune Diseases complications, Autoimmune Diseases genetics

Abstract

Spondyloenchondrodysplasia (SPENCD) is an immune-osseous disorder caused by biallelic variants in ACP5 gene and is less commonly associated with neurological abnormalities such as global developmental delay, spasticity and seizures. Herein, we describe five new patients from four unrelated Egyptian families with complex clinical presentations including predominant neurological presentations masking the skeletal and immunological manifestations. All our patients had spasticity with variable associations of motor and mental delay or epilepsy. All except for one patient had bilateral calcification in the basal ganglia. One patient had an associated growth hormone deficiency with fair response to growth hormone therapy (GH) where the height improved from -3.0 SD before GH therapy to -2.35 SD at presentation. Patients had different forms of immune dysregulation. All patients except for one had either cellular immunodeficiency (3 patients) or combined immunodeficiency (1 patient). Whole exome sequencing was performed and revealed four ACP5 variants: c.629C > T (p.Ser210Phe), c.526C > T (p.Arg176Ter), c.742dupC (p.Gln248ProfsTer3) and c.775G > A (p.Gly259Arg). Of them, three variants were not described before. Our study reinforces the striking phenotypic variability associated with SPENCD and expands the mutational spectrum of this rare disorder. Further, it documents the positive response to growth hormone therapy in the studied patient., (© 2023. The Author(s).)

Published

2023

12. Taking action on climate change: Testimonials and position statement from the International League Against Epilepsy Climate Change Commission.

Author

Aledo-Serrano A, Battaglia G, Blenkinsop S, Delanty N, Elbendary HM, Eyal S, Guekht A, Gulcebi MI, Henshall DC, Hildebrand MS, Macrohon B, Madaan P, Mifsud J, Mills JD, Neill KH, Romagnolo A, Vezzani A, and Sisodiya SM

Subjects

Humans, Seizures, Climate Change, Epilepsy therapy

Abstract

The release of the 2021 Intergovernmental Panel on Climate Change (IPCC) report makes clear that human activities have resulted in significant alterations in global climate. There is no doubt that climate change is upon us; chronic global warming has been punctuated by more frequent extreme weather events. Humanity will have to mitigate climate change and adapt to these changing conditions or face dire consequences. One under-appreciated aspect of this global crisis is its impact on healthcare, particularly people with epilepsy and temperature-sensitive seizures. As members of the inaugural International League Against Epilepsy (ILAE) Climate Change Commission, we recount the personal motivations that have led each team member to decide to take action, in the hope that our journeys as ordinary clinicians and scientists will help persuade others that they too can act to foster change within their spheres of influence., Competing Interests: Declaration of Competing Interest This report was written by experts selected by the International League Against Epilepsy (ILAE). Opinions expressed by the authors, however, do not necessarily represent the policy or position of the ILAE., (Copyright © 2023 British Epilepsy Association. Published by Elsevier Ltd. All rights reserved.)

Published

2023

13. Brain monoamine vesicular transport disease caused by homozygous SLC18A2 variants: A study in 42 affected individuals.

Author

Saida K, Maroofian R, Sengoku T, Mitani T, Pagnamenta AT, Marafi D, Zaki MS, O'Brien TJ, Karimiani EG, Kaiyrzhanov R, Takizawa M, Ohori S, Leong HY, Akay G, Galehdari H, Zamani M, Romy R, Carroll CJ, Toosi MB, Ashrafzadeh F, Imannezhad S, Malek H, Ahangari N, Tomoum H, Gowda VK, Srinivasan VM, Murphy D, Dominik N, Elbendary HM, Rafat K, Yilmaz S, Kanmaz S, Serin M, Krishnakumar D, Gardham A, Maw A, Rao TS, Alsubhi S, Srour M, Buhas D, Jewett T, Goldberg RE, Shamseldin H, Frengen E, Misceo D, Strømme P, Magliocco Ceroni JR, Kim CA, Yesil G, Sengenc E, Guler S, Hull M, Parnes M, Aktas D, Anlar B, Bayram Y, Pehlivan D, Posey JE, Alavi S, Madani Manshadi SA, Alzaidan H, Al-Owain M, Alabdi L, Abdulwahab F, Sekiguchi F, Hamanaka K, Fujita A, Uchiyama Y, Mizuguchi T, Miyatake S, Miyake N, Elshafie RM, Salayev K, Guliyeva U, Alkuraya FS, Gleeson JG, Monaghan KG, Langley KG, Yang H, Motavaf M, Safari S, Alipour M, Ogata K, Brown AEX, Lupski JR, Houlden H, and Matsumoto N

Subjects

Humans, Animals, Rats, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Vesicular Monoamine Transport Proteins genetics, Vesicular Monoamine Transport Proteins metabolism, Amines, Brain metabolism, Brain Diseases, Movement Disorders genetics, Dystonia

Abstract

Purpose: Brain monoamine vesicular transport disease is an infantile-onset movement disorder that mimics cerebral palsy. In 2013, the homozygous SLC18A2 variant, p.Pro387Leu, was first reported as a cause of this rare disorder, and dopamine agonists were efficient for treating affected individuals from a single large family. To date, only 6 variants have been reported. In this study, we evaluated genotype-phenotype correlations in individuals with biallelic SLC18A2 variants., Methods: A total of 42 affected individuals with homozygous SLC18A2 variant alleles were identified. We evaluated genotype-phenotype correlations and the missense variants in the affected individuals based on the structural modeling of rat VMAT2 encoded by Slc18a2, with cytoplasm- and lumen-facing conformations. A Caenorhabditis elegans model was created for functional studies., Results: A total of 19 homozygous SLC18A2 variants, including 3 recurrent variants, were identified using exome sequencing. The affected individuals typically showed global developmental delay, hypotonia, dystonia, oculogyric crisis, and autonomic nervous system involvement (temperature dysregulation/sweating, hypersalivation, and gastrointestinal dysmotility). Among the 58 affected individuals described to date, 16 (28%) died before the age of 13 years. Of the 17 patients with p.Pro237His, 9 died, whereas all 14 patients with p.Pro387Leu survived. Although a dopamine agonist mildly improved the disease symptoms in 18 of 21 patients (86%), some affected individuals with p.Ile43Phe and p.Pro387Leu showed milder phenotypes and presented prolonged survival even without treatment. The C. elegans model showed behavioral abnormalities., Conclusion: These data expand the phenotypic and genotypic spectra of SLC18A2-related disorders., (Copyright © 2022 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published

2023

14. Phenotypic continuum of NFU1-related disorders.

Author

Kaiyrzhanov R, Zaki MS, Lau T, Sen S, Azizimalamiri R, Zamani M, Sayin GY, Hilander T, Efthymiou S, Chelban V, Brown R, Thompson K, Scarano MI, Ganesh J, Koneev K, Gülaçar IM, Person R, Sadykova D, Maidyrov Y, Seifi T, Zadagali A, Bernard G, Allis K, Elloumi HZ, Lindy A, Taghiabadi E, Verma S, Logan R, Kirmse B, Bai R, Khalaf SM, Abdel-Hamid MS, Sedaghat A, Shariati G, Issa M, Zeighami J, Elbendary HM, Brown G, Taylor RW, Galehdari H, Gleeson JJ, Carroll CJ, Cowan JA, Moreno-De-Luca A, Houlden H, and Maroofian R

Subjects

Humans, Phenotype, Mutation, Missense, Alleles, Iron metabolism, Carrier Proteins genetics, Spastic Paraplegia, Hereditary genetics

Abstract

Bi-allelic variants in Iron-Sulfur Cluster Scaffold (NFU1) have previously been associated with multiple mitochondrial dysfunctions syndrome 1 (MMDS1) characterized by early-onset rapidly fatal leukoencephalopathy. We report 19 affected individuals from 10 independent families with ultra-rare bi-allelic NFU1 missense variants associated with a spectrum of early-onset pure to complex hereditary spastic paraplegia (HSP) phenotype with a longer survival (16/19) on one end and neurodevelopmental delay with severe hypotonia (3/19) on the other. Reversible or irreversible neurological decompensation after a febrile illness was common in the cohort, and there were invariable white matter abnormalities on neuroimaging. The study suggests that MMDS1 and HSP could be the two ends of the NFU1-related phenotypic continuum., (© 2022 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2022

15. El-Hattab-Alkuraya syndrome caused by biallelic WDR45B pathogenic variants: Further delineation of the phenotype and genotype.

Author

Almannai M, Marafi D, Abdel-Salam GMH, Zaki MS, Duan R, Calame D, Herman I, Levesque F, Elbendary HM, Hegazy I, Chung WK, Kavus H, Saeidi K, Maroofian R, AlHashim A, Al-Otaibi A, Al Madhi A, Abou Al-Seood HM, Alasmari A, Houlden H, Gleeson JG, Hunter JV, Posey JE, Lupski JR, and El-Hattab AW

Subjects

Atrophy, Bone Diseases, Metabolic, Congenital Disorders of Glycosylation, Homozygote, Humans, Pedigree, Phenotype, Quadriplegia genetics, Seizures diagnostic imaging, Seizures genetics, Microcephaly diagnostic imaging, Microcephaly genetics, Microcephaly pathology, Nervous System Malformations

Abstract

Homozygous pathogenic variants in WDR45B were first identified in six subjects from three unrelated families with global development delay, refractory seizures, spastic quadriplegia, and brain malformations. Since the initial report in 2018, no further cases have been described. In this report, we present 12 additional individuals from seven unrelated families and their clinical, radiological, and molecular findings. Six different variants in WDR45B were identified, five of which are novel. Microcephaly and global developmental delay were observed in all subjects, and seizures and spastic quadriplegia in most. Common findings on brain imaging include cerebral atrophy, ex vacuo ventricular dilatation, brainstem volume loss, and symmetric under-opercularization. El-Hattab-Alkuraya syndrome is associated with a consistent phenotype characterized by early onset cerebral atrophy resulting in microcephaly, developmental delay, spastic quadriplegia, and seizures. The phenotype appears to be more severe among individuals with loss-of-function variants whereas those with missense variants were less severely affected suggesting a potential genotype-phenotype correlation in this disorder. A brain imaging pattern emerges which is consistent among individuals with loss-of-function variants and could potentially alert the neuroradiologists or clinician to consider WDR45B-related El-Hattab-Alkuraya syndrome., (© 2022 John Wiley & Sons A/S . Published by John Wiley & Sons Ltd.)

Published

2022

16. Clinico-radiological features, molecular spectrum, and identification of prognostic factors in developmental and epileptic encephalopathy due to inosine triphosphate pyrophosphatase (ITPase) deficiency.

Author

Scala M, Wortmann SB, Kaya N, Stellingwerff MD, Pistorio A, Glamuzina E, van Karnebeek CD, Skrypnyk C, Iwanicka-Pronicka K, Piekutowska-Abramczuk D, Ciara E, Tort F, Sheidley B, Poduri A, Jayakar P, Jayakar A, Upadia J, Walano N, Haack TB, Prokisch H, Aldhalaan H, Karimiani EG, Yildiz Y, Ceylan AC, Santiago-Sim T, Dameron A, Yang H, Toosi MB, Ashrafzadeh F, Akhondian J, Imannezhad S, Mirzadeh HS, Maqbool S, Farid A, Al-Muhaizea MA, Alshwameen MO, Aldowsari L, Alsagob M, Alyousef A, AlMass R, AlHargan A, Alwadei AH, AlRasheed MM, Colak D, Alqudairy H, Khan S, Lines MA, García Cazorla MÁ, Ribes A, Morava E, Bibi F, Haider S, Ferla MP, Taylor JC, Alsaif HS, Firdous A, Hashem M, Shashkin C, Koneev K, Kaiyrzhanov R, Efthymiou S, Genomics QS, Schmitt-Mechelke T, Ziegler A, Issa MY, Elbendary HM, Striano P, Alkuraya FS, Zaki MS, Gleeson JG, Barakat TS, Bierau J, van der Knaap MS, Maroofian R, and Houlden H

Subjects

Humans, Inosine, Inosine Triphosphate, Mutation, Prognosis, Inosine Triphosphatase, Epilepsy, Generalized, Microcephaly pathology, Pyrophosphatases genetics

Abstract

Developmental and epileptic encephalopathy 35 (DEE 35) is a severe neurological condition caused by biallelic variants in ITPA, encoding inosine triphosphate pyrophosphatase, an essential enzyme in purine metabolism. We delineate the genotypic and phenotypic spectrum of DEE 35, analyzing possible predictors for adverse clinical outcomes. We investigated a cohort of 28 new patients and reviewed previously described cases, providing a comprehensive characterization of 40 subjects. Exome sequencing was performed to identify underlying ITPA pathogenic variants. Brain MRI (magnetic resonance imaging) scans were systematically analyzed to delineate the neuroradiological spectrum. Survival curves according to the Kaplan-Meier method and log-rank test were used to investigate outcome predictors in different subgroups of patients. We identified 18 distinct ITPA pathogenic variants, including 14 novel variants, and two deletions. All subjects showed profound developmental delay, microcephaly, and refractory epilepsy followed by neurodevelopmental regression. Brain MRI revision revealed a recurrent pattern of delayed myelination and restricted diffusion of early myelinating structures. Congenital microcephaly and cardiac involvement were statistically significant novel clinical predictors of adverse outcomes. We refined the molecular, clinical, and neuroradiological characterization of ITPase deficiency, and identified new clinical predictors which may have a potentially important impact on diagnosis, counseling, and follow-up of affected individuals., (© 2022 The Authors. Human Mutation published by Wiley Periodicals LLC.)

Published

2022

17. A founder mutation in PEX12 among Egyptian patients in peroxisomal biogenesis disorder.

Author

Zaki MS, Issa MY, Thomas MM, Elbendary HM, Rafat K, Al Menabawy NM, Selim LA, Ismail S, Abdel-Salam GM, and Gleeson JG

Subjects

Child, Egypt, Founder Effect, Humans, Infant, Newborn, Mutation, Membrane Proteins genetics, Peroxisomal Disorders diagnostic imaging, Peroxisomal Disorders genetics, Zellweger Syndrome

Abstract

At least 14 distinctive PEX genes function in the biogenesis of peroxisomes. Biallelic alterations in the peroxisomal biogenesis factor 12 (PEX12) gene lead to Zellweger syndrome spectrum (ZSS) with variable clinical expressivity ranging from early lethality to mildly affected with long-term survival. Herein, we define 20 patients derived from 14 unrelated Egyptian families, 19 of which show a homozygous PEX12 in-frame (c.1047&#95;1049del p.(Gln349del)) deletion. This founder mutation, reported rarely outside of Egypt, was associated with a uniformly severe phenotype. Patients showed developmental delay in early life followed by motor and mental regression, progressive hypotonia, unsteadiness, and lack of speech. Seventeen patients had sparse hair or partial alopecia, a striking feature that was not noted previously in PEX12. Neonatal cholestasis was manifested in 2 siblings. Neurodiagnostics showed consistent cerebellar atrophy and variable white matter demyelination, axonal neuropathy in about half, and cardiomyopathy in 10% of patients. A single patient with a compound heterozygous PEX12 mutation exhibited milder features with late childhood onset with gait disturbance and learning disability. Thus, the PEX12 relatively common founder mutation accounts for the majority of PEX12-related disease in Egypt and delineates a uniform clinical and radiographic phenotype.

Published

2021

18. Loss of function mutations in GEMIN5 cause a neurodevelopmental disorder.

Author

Kour S, Rajan DS, Fortuna TR, Anderson EN, Ward C, Lee Y, Lee S, Shin YB, Chae JH, Choi M, Siquier K, Cantagrel V, Amiel J, Stolerman ES, Barnett SS, Cousin MA, Castro D, McDonald K, Kirmse B, Nemeth AH, Rajasundaram D, Innes AM, Lynch D, Frosk P, Collins A, Gibbons M, Yang M, Desguerre I, Boddaert N, Gitiaux C, Rydning SL, Selmer KK, Urreizti R, Garcia-Oguiza A, Osorio AN, Verdura E, Pujol A, McCurry HR, Landers JE, Agnihotri S, Andriescu EC, Moody SB, Phornphutkul C, Sacoto MJG, Begtrup A, Houlden H, Kirschner J, Schorling D, Rudnik-Schöneborn S, Strom TM, Leiz S, Juliette K, Richardson R, Yang Y, Zhang Y, Wang M, Wang J, Wang X, Platzer K, Donkervoort S, Bönnemann CG, Wagner M, Issa MY, Elbendary HM, Stanley V, Maroofian R, Gleeson JG, Zaki MS, Senderek J, and Pandey UB

Subjects

Alleles, Amino Acid Sequence, Animals, Child, Preschool, Developmental Disabilities genetics, Drosophila genetics, Drosophila growth & development, Female, Gene Knockdown Techniques, Gene Ontology, HEK293 Cells, Humans, Loss of Function Mutation, Male, Muscle Hypotonia genetics, Myoclonic Cerebellar Dyssynergia genetics, Neurodevelopmental Disorders diagnostic imaging, Neurodevelopmental Disorders genetics, Neurodevelopmental Disorders physiopathology, Pedigree, Polymorphism, Single Nucleotide, RNA-Seq, Ribonucleoproteins, Small Nuclear genetics, Rigor Mortis genetics, SMN Complex Proteins metabolism, Gene Expression Regulation, Developmental genetics, Induced Pluripotent Stem Cells metabolism, Neurodevelopmental Disorders metabolism, Neurons metabolism, Ribonucleoproteins, Small Nuclear metabolism, SMN Complex Proteins genetics

Abstract

GEMIN5, an RNA-binding protein is essential for assembly of the survival motor neuron (SMN) protein complex and facilitates the formation of small nuclear ribonucleoproteins (snRNPs), the building blocks of spliceosomes. Here, we have identified 30 affected individuals from 22 unrelated families presenting with developmental delay, hypotonia, and cerebellar ataxia harboring biallelic variants in the GEMIN5 gene. Mutations in GEMIN5 perturb the subcellular distribution, stability, and expression of GEMIN5 protein and its interacting partners in patient iPSC-derived neurons, suggesting a potential loss-of-function mechanism. GEMIN5 mutations result in disruption of snRNP complex assembly formation in patient iPSC neurons. Furthermore, knock down of rigor mortis, the fly homolog of human GEMIN5, leads to developmental defects, motor dysfunction, and a reduced lifespan. Interestingly, we observed that GEMIN5 variants disrupt a distinct set of transcripts and pathways as compared to SMA patient neurons, suggesting different molecular pathomechanisms. These findings collectively provide evidence that pathogenic variants in GEMIN5 perturb physiological functions and result in a neurodevelopmental delay and ataxia syndrome.

Published

2021

19. The synergistic effect of tranexamic acid and ethamsylate combination on blood loss in pediatric cardiac surgery.

Author

El Baser IIA, ElBendary HM, and ElDerie A

Subjects

Blood Loss, Surgical prevention & control, Child, Humans, Prospective Studies, Treatment Outcome, Cardiac Surgical Procedures, Ethamsylate, Tranexamic Acid therapeutic use

Abstract

Background: Pediatric patients are at risk for bleeding after cardiac surgery. Administration of antifibrinolytic agents reduces postoperative blood loss., Objective: Evaluation of the efficacy of combined administration of tranexamic acid (TXA) and ethamsylate in the reduction of postoperative blood loss in pediatric cardiac surgery., Methods: This prospective randomized study included 126 children submitted for cardiac surgery, and they were allocated into three groups: control group (n = 42); TXA group (n = 42):- received only TXA; and combined ethamsylate TXA group (n = 42):- received a combination of TXA and ethamsylate. The main collected data included sternal closure time, the needs for intraoperative transfusion of blood and its products, the total amount of blood loss, and the amount of the whole blood and its products transfused to the patients in the first 24 postoperative hours., Results: Blood loss volume in the first 24 postoperative hours was significantly smaller in combined group than the TXA and control groups and was significantly smaller in the TXA group than the control group. The sternal closure time was significantly shorter in the combined group than the other 2 groups and significantly shorter in TXA than the control group. The amount of whole blood transfused to patients in the combined group during surgery and in the first postoperative 24 h was significantly smaller than the other 2 groups and smaller in TXA group than the control group during surgery., Conclusion: Combined administration of ethamsylate and TXA in pediatric cardiac surgery was more effective in reducing postoperative blood loss and whole blood transfusion requirements than the administration of TXA alone.

Published

2021

20. Biallelic loss of function variants in SYT2 cause a treatable congenital onset presynaptic myasthenic syndrome.

Author

Donkervoort S, Mohassel P, Laugwitz L, Zaki MS, Kamsteeg EJ, Maroofian R, Chao KR, Verschuuren-Bemelmans CC, Horber V, Fock AJM, McCarty RM, Jain MS, Biancavilla V, McMacken G, Nalls M, Voermans NC, Elbendary HM, Snyder M, Cai C, Lehky TJ, Stanley V, Iannaccone ST, Foley AR, Lochmüller H, Gleeson J, Houlden H, Haack TB, Horvath R, and Bönnemann CG

Subjects

Adolescent, Child, Child, Preschool, Female, Humans, Male, Muscle Hypotonia complications, Muscle Hypotonia pathology, Muscle Weakness genetics, Muscle Weakness pathology, Mutation, Missense genetics, Myasthenic Syndromes, Congenital complications, Myasthenic Syndromes, Congenital pathology, Pedigree, Phenotype, Synaptic Transmission genetics, Genetic Predisposition to Disease, Muscle Hypotonia genetics, Myasthenic Syndromes, Congenital genetics, Synaptotagmin II genetics

Abstract

Synaptotagmins are integral synaptic vesicle membrane proteins that function as calcium sensors and regulate neurotransmitter release at the presynaptic nerve terminal. Synaptotagmin-2 (SYT2), is the major isoform expressed at the neuromuscular junction. Recently, dominant missense variants in SYT2 have been reported as a rare cause of distal motor neuropathy and myasthenic syndrome, manifesting with stable or slowly progressive distal weakness of variable severity along with presynaptic NMJ impairment. These variants are thought to have a dominant-negative effect on synaptic vesicle exocytosis, although the precise pathomechanism remains to be elucidated. Here we report seven patients of five families, with biallelic loss of function variants in SYT2, clinically manifesting with a remarkably consistent phenotype of severe congenital onset hypotonia and weakness, with variable degrees of respiratory involvement. Electrodiagnostic findings were consistent with a presynaptic congenital myasthenic syndrome (CMS) in some. Treatment with an acetylcholinesterase inhibitor pursued in three patients showed clinical improvement with increased strength and function. This series further establishes SYT2 as a CMS-disease gene and expands its clinical and genetic spectrum to include recessive loss-of-function variants, manifesting as a severe congenital onset presynaptic CMS with potential treatment implications., (© 2020 Wiley Periodicals LLC.)

Published

2020

21. Biallelic in-frame deletion in TRAPPC4 in a family with developmental delay and cerebellar atrophy.

Author

Saad AK, Marafi D, Mitani T, Jolly A, Du H, Elbendary HM, Jhangiani SN, Akdemir ZC, Gibbs RA, Hunter JV, Carvalho CMBC, Pehlivan D, Posey JE, Zaki MS, and Lupski JR

Subjects

Atrophy, Humans, Sequence Deletion genetics, Cerebellar Diseases genetics, Intellectual Disability

Published

2020

22. Molecular diagnosis in recessive pediatric neurogenetic disease can help reduce disease recurrence in families.

Author

Issa MY, Chechlacz Z, Stanley V, George RD, McEvoy-Venneri J, Belandres D, Elbendary HM, Gaber KR, Nabil A, Abdel-Hamid MS, Zaki MS, and Gleeson JG

Subjects

Child, Preschool, Female, Genotype, High-Throughput Nucleotide Sequencing, Humans, Infant, Infant, Newborn, Male, Nervous System Diseases genetics, Pedigree, Pregnancy, Recurrence, Retrospective Studies, Genes, Recessive, Genetic Markers, Genetic Predisposition to Disease, Genetic Testing, Mutation, Nervous System Diseases diagnosis, Prenatal Diagnosis methods

Abstract

Background: The causes for thousands of individually rare recessive diseases have been discovered since the adoption of next generation sequencing (NGS). Following the molecular diagnosis in older children in a family, parents could use this information to opt for fetal genotyping in subsequent pregnancies, which could inform decisions about elective termination of pregnancy. The use of NGS diagnostic sequencing in families has not been demonstrated to yield benefit in subsequent pregnancies to reduce recurrence. Here we evaluated whether genetic diagnosis in older children in families supports reduction in recurrence of recessive neurogenetic disease., Methods: Retrospective study involving families with a child with a recessive pediatric brain disease (rPBD) that underwent NGS-based molecular diagnosis. Prenatal molecular testing was offered to couples in which a molecular diagnosis was made, to help couples seeking to prevent recurrence. With this information, families made decisions about elective termination. Pregnancies that were carried to term were assessed for the health of child and mother, and compared with historic recurrence risk of recessive disease., Results: Between 2010 and 2016, 1172 families presented with a child a likely rPBD, 526 families received a molecular diagnosis, 91 families returned to the clinic with 101 subsequent pregnancies, and 84 opted for fetal genotyping. Sixty tested negative for recurrence for the biallelic mutation in the fetus, and all, except for one spontaneous abortion, carried to term, and were unaffected at follow-up. Of 24 that genotyped positive for the biallelic mutation, 16 were electively terminated, and 8 were carried to term and showed features of disease similar to that of the older affected sibling(s). Among the 101 pregnancies, disease recurrence in living offspring deviated from the expected 25% to the observed 12% ([95% CI 0·04 to 0·20], p = 0·011)., Conclusions: Molecular diagnosis in an older child, coupled with prenatal fetal genotyping in subsequent pregnancies and genetic counselling, allows families to make informed decisions to reduce recessive neurogenetic disease recurrence.

Published

2020

23. RSRC1 loss-of-function variants cause mild to moderate autosomal recessive intellectual disability.

Author

Scala M, Mojarrad M, Riazuddin S, Brigatti KW, Ammous Z, Cohen JS, Hosny H, Usmani MA, Shahzad M, Riazuddin S, Stanley V, Eslahi A, Person RE, Elbendary HM, Comi AM, Poskitt L, Salpietro V, Genomics QS, Rosenfeld JA, Williams KB, Marafi D, Xia F, Biderman Waberski M, Zaki MS, Gleeson J, Puffenberger E, Houlden H, and Maroofian R

Subjects

Adolescent, Child, Child, Preschool, Female, Genes, Recessive, Humans, Loss of Function Mutation, Male, Intellectual Disability genetics, Nuclear Proteins genetics

Published

2020

24. Phenotypic and mutational spectrum of thirty-five patients with Sjögren-Larsson syndrome: identification of eleven novel ALDH3A2 mutations and founder effects.

Author

Abdel-Hamid MS, Issa MY, Elbendary HM, Abdel-Ghafar SF, Rafaat K, Hosny H, Girgis M, Abdel-Salam GMH, and Zaki MS

Subjects

Child, Child, Preschool, Female, Haplotypes, Humans, Infant, Male, Aldehyde Oxidoreductases genetics, Founder Effect, Magnetic Resonance Imaging, Mutation, Sjogren-Larsson Syndrome diagnostic imaging, Sjogren-Larsson Syndrome genetics, White Matter diagnostic imaging

Abstract

Sjögren-Larsson syndrome (SLS) is a rare neurocutaneous disorder characterized by congenital ichthyosis, spastic diplegia and intellectual disability. It is an inborn error of lipid metabolism caused by biallelic mutations in the ALDH3A2 gene encoding the fatty aldehyde dehydrogenase that plays a pivotal role in metabolism of long-chain aliphatic aldehydes and alcohols. In this report, we describe the clinical, neuro-radiological and molecular findings of 35 patients with SLS. All patients shared the typical clinical manifestations of SLS including spasticity, ichthyosis and intellectual disability. Brain MRI demonstrated deep while matter affection in all patients that varied in severity. Mutational analysis of the ALDH3A2 gene revealed 16 distinct mutations including 11 previously unreported ones. Three mutations (p.S365L, p.R9* and p.G400R) were recurrent in our patients with frequencies ranging from 12 to 24%. Interestingly, patients carrying the two new mutations p.R9* and p.G400R shared similar haplotypes suggesting possible founder effects in our population. In conclusion, we present a large cohort of patients from the same ethnicity with the characteristic clinical and brain imaging findings of SLS but with variable inter and intra familial severity and expressivity. We also identified many novel and founder ALDH3A2 mutations thus expanding the mutational spectrum of the disorder.

Published

2019

25. Genetic variants in components of the NALCN-UNC80-UNC79 ion channel complex cause a broad clinical phenotype (NALCN channelopathies).

Author

Bramswig NC, Bertoli-Avella AM, Albrecht B, Al Aqeel AI, Alhashem A, Al-Sannaa N, Bah M, Bröhl K, Depienne C, Dorison N, Doummar D, Ehmke N, Elbendary HM, Gorokhova S, Héron D, Horn D, James K, Keren B, Kuechler A, Ismail S, Issa MY, Marey I, Mayer M, McEvoy-Venneri J, Megarbane A, Mignot C, Mohamed S, Nava C, Philip N, Ravix C, Rolfs A, Sadek AA, Segebrecht L, Stanley V, Trautman C, Valence S, Villard L, Wieland T, Engels H, Strom TM, Zaki MS, Gleeson JG, Lüdecke HJ, Bauer P, and Wieczorek D

Subjects

Adolescent, Adult, Channelopathies pathology, Child, Child, Preschool, Developmental Disabilities pathology, Female, Humans, Infant, Infant, Newborn, Ion Channels, Male, Phenotype, Young Adult, Carrier Proteins genetics, Channelopathies genetics, Developmental Disabilities genetics, Genetic Markers, Genetic Variation, Membrane Proteins genetics, Sodium Channels genetics

Abstract

NALCN is a conserved cation channel, which conducts a permanent sodium leak current and regulates resting membrane potential and neuronal excitability. It is part of a large ion channel complex, the "NALCN channelosome", consisting of multiple proteins including UNC80 and UNC79. The predominant neuronal expression pattern and its function suggest an important role in neuronal function and disease. So far, biallelic NALCN and UNC80 variants have been described in a small number of individuals leading to infantile hypotonia, psychomotor retardation, and characteristic facies 1 (IHPRF1, OMIM 615419) and 2 (IHPRF2, OMIM 616801), respectively. Heterozygous de novo NALCN missense variants in the S5/S6 pore-forming segments lead to congenital contractures of the limbs and face, hypotonia, and developmental delay (CLIFAHDD, OMIM 616266) with some clinical overlap. In this study, we present detailed clinical information of 16 novel individuals with biallelic NALCN variants, 1 individual with a heterozygous de novo NALCN missense variant and an interesting clinical phenotype without contractures, and 12 individuals with biallelic UNC80 variants. We report for the first time a missense NALCN variant located in the predicted S6 pore-forming unit inherited in an autosomal-recessive manner leading to mild IHPRF1. We show evidence of clinical variability, especially among IHPRF1-affected individuals, and discuss differences between the IHPRF1- and IHPRF2 phenotypes. In summary, we provide a comprehensive overview of IHPRF1 and IHPRF2 phenotypes based on the largest cohort of individuals reported so far and provide additional insights into the clinical phenotypes of these neurodevelopmental diseases to help improve counseling of affected families.

Published

2018

26. Hypermanganesemia with dystonia, polycythemia and cirrhosis in 10 patients: Six novel SLC30A10 mutations and further phenotype delineation.

Author

Zaki MS, Issa MY, Elbendary HM, El-Karaksy H, Hosny H, Ghobrial C, El Safty A, El-Hennawy A, Oraby A, Selim L, and Abdel-Hamid MS

Subjects

Adolescent, Brain metabolism, Brain pathology, Child, Child, Preschool, DNA Mutational Analysis, Egypt epidemiology, Female, Humans, Infant, Liver pathology, Male, Manganese metabolism, Metabolic Diseases epidemiology, Metabolic Diseases physiopathology, Mutation, Phenotype, Siblings, Cation Transport Proteins genetics, Liver metabolism, Metabolic Diseases diagnosis, Metabolic Diseases genetics

Abstract

Biallelic mutations in the SLC30A10 gene cause an inborn error of Mn metabolism characterized by hypermanganesemia, polycythemia, early-onset dystonia, and liver cirrhosis (HMDPC). To date, only 14 families from various ethnic groups have been reported. Here, we describe 10 patients from 7 unrelated Egyptian families with HMDPC. Markedly elevated blood Mn levels, the characteristic basal ganglia hyperintensity on T1-weighted images, and variable degrees of extrapyramidal manifestations with or without liver disease were cardinal features in all patients. Eight patients presented with striking early diseased onset (≤2 years). Unexpectedly, early hepatic involvement before the neurological regression was noted in 3 patients. Mutational analysis of SLC30A10 gene revealed 6 novel homozygous mutations (c.77T > C (p.Leu26Pro), c.90C > G (p.Tyr30*), c.119A > C (p.Asp40Ala), c.122&#95;124delCCT (p.Ser41del), c.780&#95;782delCAT (p.Iso260del) and c.957 + 1G > C). Treatment using 2,3 dimercaptosuccinic acid as a manganese chelating agent showed satisfactory results with improvement of biochemical markers, hepatic manifestations and relative amelioration of the neurological symptoms. Our findings present a large cohort of patients with HMDPC from same ethnic group. The majority of our patients showed severe and early presentation with clear phenotypic variability among sibship. Moreover, we extend the phenotypic and mutational spectrum and emphasize the importance of early diagnosis and treatment of this potentially fatal disorder., (© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2018

27. PGAP3-related hyperphosphatasia with mental retardation syndrome: Report of 10 new patients and a homozygous founder mutation.

Author

Abdel-Hamid MS, Issa MY, Otaify GA, Abdel-Ghafar SF, Elbendary HM, and Zaki MS

Subjects

Abnormalities, Multiple pathology, Base Sequence, Carboxylic Ester Hydrolases, Consanguinity, Egypt, Family Health, Female, Founder Effect, Homozygote, Humans, Intellectual Disability pathology, Male, Pedigree, Phenotype, Phosphorus Metabolism Disorders pathology, Sequence Analysis, DNA methods, Abnormalities, Multiple genetics, Genetic Predisposition to Disease genetics, Intellectual Disability genetics, Mutation, Phosphorus Metabolism Disorders genetics, Receptors, Cell Surface genetics

Abstract

Background: Hyperphosphatasia with mental retardation syndrome (HPMRS) is caused by recessive mutations in genes involved in the glycosylphosphatidylinsitol pathway, including PGAP3., Materials and Methods: We describe 10 patients from 8 Egyptian families presenting with developmental delay, severe intellectual disability, distinct facial dysmorphism and increased alkaline phosphatase. Sanger sequencing of PGAP3 was performed., Results: Eight patients had cleft palate, 4 had postnatal microcephaly and 5 had seizures. Neuro-imaging findings showed thin corpus callosum in 9 patients, mild ventriculomegaly in 3 patients and variable degrees of cerebellar vermis hypoplasia in 4 patients, a finding not previously reported in patients with HPMRS. Additional manifestations included double row teeth, hypogenitalism and congenital heart disease. Biallelic loss of function mutations in the PGAP3 gene were detected in all patients. Nine patients were homozygous for the c.402dupC (p.M135Hfs*28) mutation strongly suggesting a founder effect. On the other hand, 1 patient had a novel mutation, c.817&#95;820delGACT (p.D273Sfs*37)., Conclusion: This is the largest series of patients with HPMRS from same ethnic group. Our results reinforce the distinct clinical and facial features of PGAP3-related HPMRS which are the clue for targeted genetic testing. Moreover, we present additional unreported clinical and neuro-imaging findings and a novel mutation thus expanding the phenotypic and mutational spectrum of this rare disorder., (© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2018