Your search keyword '"Hertecant J"' showing total 8 results

1. Biallelic loss of function variants in PPP1R21 cause a neurodevelopmental syndrome with impaired endocytic function

Author

Rehman, AU, Najafi, M, Kambouris, M, Al-Gazali, L, Makrythanasis, P, Rad, A, Maroofian, R, Rajab, A, Stark, Z, Hunter, JV, Bakey, Z, Tokita, MJ, He, W, Vetrini, F, Petersen, A, Santoni, FA, Hamamy, H, Wu, K, Al-Jasmi, F, Helmstaedter, M, Arnold, SJ, Xia, F, Richmond, C, Liu, P, Karimiani, EG, Madani, GK, Lunke, S, El-Shanti, H, Eng, CM, Antonarakis, SE, Hertecant, J, Walkiewicz, M, Yang, Y, Schmidts, M, Rehman, AU, Najafi, M, Kambouris, M, Al-Gazali, L, Makrythanasis, P, Rad, A, Maroofian, R, Rajab, A, Stark, Z, Hunter, JV, Bakey, Z, Tokita, MJ, He, W, Vetrini, F, Petersen, A, Santoni, FA, Hamamy, H, Wu, K, Al-Jasmi, F, Helmstaedter, M, Arnold, SJ, Xia, F, Richmond, C, Liu, P, Karimiani, EG, Madani, GK, Lunke, S, El-Shanti, H, Eng, CM, Antonarakis, SE, Hertecant, J, Walkiewicz, M, Yang, Y, and Schmidts, M

Abstract

Next-generation sequencing (NGS) has been instrumental in solving the genetic basis of rare inherited diseases, especially neurodevelopmental syndromes. However, functional workup is essential for precise phenotype definition and to understand the underlying disease mechanisms. Using whole exome (WES) and whole genome sequencing (WGS) in four independent families with hypotonia, neurodevelopmental delay, facial dysmorphism, loss of white matter, and thinning of the corpus callosum, we identified four previously unreported homozygous truncating PPP1R21 alleles: c.347delT p.(Ile116Lysfs*25), c.2170_2171insGGTA p.(Ile724Argfs*8), c.1607dupT p.(Leu536Phefs*7), c.2063delA p.(Lys688Serfs*26) and found that PPP1R21 was absent in fibroblasts of an affected individual, supporting the allele's loss of function effect. PPP1R21 function had not been studied except that a large scale affinity proteomics approach suggested an interaction with PIBF1 defective in Joubert syndrome. Our co-immunoprecipitation studies did not confirm this but in contrast defined the localization of PPP1R21 to the early endosome. Consistent with the subcellular expression pattern and the clinical phenotype exhibiting features of storage diseases, we found patient fibroblasts exhibited a delay in clearance of transferrin-488 while uptake was normal. In summary, we delineate a novel neurodevelopmental syndrome caused by biallelic PPP1R21 loss of function variants, and suggest a role of PPP1R21 within the endosomal sorting process or endosome maturation pathway.

Published

2019

2. A new autosomal recessive syndrome of ocular colobomas, ichthyosis, brain malformations and endocrine abnormalities in an inbred Emirati family

Author

Al-Gazali, L., primary, Hertecant, J., additional, Algawi, K., additional, El Teraifi, H., additional, and Dattani, M., additional

Published

2008

3. Lipoprotein lipase deficiency and transient diabetes mellitus in a neonate

Author

Raupp, P., primary, Keenan, C., additional, Dowman, M., additional, Nath, R., additional, and Hertecant, J., additional

Published

2002

4. West syndrome, developmental and epileptic encephalopathy, and severe CNS disorder associated with WWOX mutations.

Author

Shaukat Q, Hertecant J, El-Hattab AW, Ali BR, and Suleiman J

Subjects

Child, Preschool, Consanguinity, Humans, Infant, Male, Spasms, Infantile genetics, Spasms, Infantile pathology, Spasms, Infantile physiopathology, Developmental Disabilities genetics, Developmental Disabilities pathology, Developmental Disabilities physiopathology, Mutation genetics, Quadriplegia genetics, Quadriplegia pathology, Quadriplegia physiopathology, Tumor Suppressor Proteins genetics, WW Domain-Containing Oxidoreductase genetics

Abstract

Mutations in the WWOX gene have been reported in a number of patients with various neurological disorders including spino-cerebellar ataxia, intellectual disability, epilepsy, and epileptic encephalopathy. We aimed to study the clinical, electrographic, and imaging features of two new cases with WWOX mutations and compare them to previously reported cases with WWOX mutations. We assessed two unrelated children from two consanguineous families who had severe neurological disorder including early-onset spastic quadriplegia, profound developmental delay, epilepsy, and West syndrome. Based on whole-exome sequencing, we identified homozygous null mutations in WWOX in both children, and further addressed the genotype-phenotype correlation. In addition, we provide a detailed review of the previously reported cases of WWOX-related neurological disorders and compare them to the children in this report. The findings in this report expand the clinical phenotype associated with WWOX mutations and confirm a well characterised severe central nervous system disorder in association with biallelic null mutations in WWOX. This syndrome consists of profound psychomotor delay, early-onset spastic quadriplegia, and refractory epilepsy including epileptic encephalopathy, acquired microcephaly, and growth restriction. This can be associated with progressive brain atrophy, suggestive of neurodegeneration. Identification of this phenotype by clinicians may help with early diagnosis and appropriate genetic counselling.

Published

2018

5. On the phenotypic spectrum of serine biosynthesis defects.

Author

El-Hattab AW, Shaheen R, Hertecant J, Galadari HI, Albaqawi BS, Nabil A, and Alkuraya FS

Subjects

Humans, Infant, Infant, Newborn, Male, Mutation genetics, Phenotype, Abnormalities, Multiple genetics, Brain Diseases genetics, Fetal Growth Retardation genetics, Ichthyosis genetics, Limb Deformities, Congenital genetics, Microcephaly genetics, Phosphoglycerate Dehydrogenase genetics, Phosphoric Monoester Hydrolases genetics, Serine biosynthesis, Serine genetics, Transaminases genetics

Abstract

L-serine is a non-essential amino acid that is de novo synthesized via the enzymes phosphoglycerate dehydrogenase (PGDH), phosphoserine aminotransferase (PSAT), and phosphoserine phosphatase (PSP). Besides its role in protein synthesis, L-serine is a precursor of a number of important compounds. Serine biosynthesis defects result from deficiencies in PGDH, PSAT, or PSP and have a broad phenotypic spectrum ranging from Neu-Laxova syndrome, a lethal multiple congenital anomaly disease at the severe end to a childhood disease with intellectual disability at the mild end, with infantile growth deficiency, and severe neurological manifestations as an intermediate phenotype. In this report, we present three subjects with serine biosynthesis effects. The first was a stillbirth with Neu-Laxova syndrome and a homozygous mutation in PHGDH. The second was a neonate with growth deficiency, microcephaly, ichthyotic skin lesions, seizures, contractures, hypertonia, distinctive facial features, and a homozygous mutation in PSAT1. The third subject was an infant with growth deficiency, microcephaly, ichthyotic skin lesions, anemia, hypertonia, distinctive facial features, low serine and glycine in plasma and CSF, and a novel homozygous mutation in PHGDH gene. Herein, we also review previous reports of serine biosynthesis defects and mutations in the PHGDH, PSAT1, and PSPH genes, discuss the variability in the phenotypes associated with serine biosynthesis defects, and elaborate on the vital roles of serine and the potential consequences of its deficiency.

Published

2016

6. Acute Metabolic Crises in Maple Syrup Urine Disease After Liver Transplantation from a Related Heterozygous Living Donor.

Author

Al-Shamsi A, Baker A, Dhawan A, and Hertecant J

Abstract

Maple syrup urine disease (MSUD) is an autosomal recessive disorder associated with impaired metabolism of branched-chain amino acids (BCAA) leucine, isoleucine, and valine. Children with MSUD suffer from bouts of metabolic decompensation, which may lead to neurological damage. Liver transplantation from unrelated deceased donors has been considered curative. The natural history of the disease following transplantation using a haploidentical (obligate heterozygous) living donor is still unclear, although previously described as favorable. We describe acute metabolic crises in a 20-month-old child with MSUD type II. The first well-documented one occurred 5 months after a successful liver transplantation from his mother. The patient developed encephalopathy with progressive lethargy and seizures after an episode of gastroenteritis with dehydration. Plasma levels of leucine, isoleucine, and valine were markedly elevated and alloisoleucine was detected. He promptly responded to dialysis and BCAA-free dietetic management and subsequently could resume a normal diet. Since then he has had another symptomatic metabolic crisis with seizures. This case strongly suggests that some recipients of liver transplantation from a haploidentical parent possess limited capacity to oxidize BCAA at the time of catabolic stress and dehydration and remain at risk of severe metabolic crises. Thus, careful metabolic monitoring and prompt treatment post liver transplantation are still required to avoid neurological sequelae of MSUD, particularly if the donor is heterozygous for MSUD.

Published

2016

7. Clinical, morphological, biochemical, imaging and outcome parameters in 21 individuals with mitochondrial maintenance defect related to FBXL4 mutations.

Author

Huemer M, Karall D, Schossig A, Abdenur JE, Al Jasmi F, Biagosch C, Distelmaier F, Freisinger P, Graham BH, Haack TB, Hauser N, Hertecant J, Ebrahimi-Fakhari D, Konstantopoulou V, Leydiker K, Lourenco CM, Scholl-Bürgi S, Wilichowski E, Wolf NI, Wortmann SB, Taylor RW, Mayr JA, Bonnen PE, Sperl W, Prokisch H, and McFarland R

Subjects

Acidosis, Lactic complications, Acidosis, Lactic congenital, Acidosis, Lactic genetics, Child, Child, Preschool, Disease Progression, Facial Asymmetry complications, Facial Asymmetry congenital, Facial Asymmetry genetics, Family, Female, Genetic Association Studies, Humans, Infant, Infant, Newborn, Male, Mitochondrial Diseases mortality, Muscle Hypotonia complications, Muscle Hypotonia congenital, Muscle Hypotonia genetics, Neuroimaging, Prognosis, Retrospective Studies, F-Box Proteins genetics, Mitochondrial Diseases diagnosis, Mitochondrial Diseases genetics, Mitochondrial Diseases pathology, Mutation, Ubiquitin-Protein Ligases genetics

Abstract

FBXL4 deficiency is a recently described disorder of mitochondrial maintenance associated with a loss of mitochondrial DNA in cells. To date, the genetic diagnosis of FBXL4 deficiency has been established in 28 individuals. This paper retrospectively reviews proxy-reported clinical and biochemical findings and evaluates brain imaging, morphological and genetic data in 21 of those patients. Neonatal/early-onset severe lactic acidosis, muscular hypotonia, feeding problems and failure to thrive is the characteristic pattern at first presentation. Facial dysmorphic features are present in 67% of cases. Seven children died (mean age 37 months); 11 children were alive (mean age at follow-up 46 months), three children were lost to follow-up. All survivors developed severe psychomotor retardation. Brain imaging was non-specific in neonates but a later-onset, rapidly progressive brain atrophy was noted. Elevated blood lactate and metabolic acidosis were observed in all individuals; creatine kinase was elevated in 45% of measurements. Diagnostic workup in patient tissues and cells revealed a severe combined respiratory chain defect with a general decrease of enzymes associated with mitochondrial energy metabolism and a relative depletion of mitochondrial DNA content. Mutations were detected throughout the FBXL4 gene albeit with no clear delineation of a genotype-phenotype correlation. Treatment with "mitochondrial medications" did not prove effective. In conclusion, a clinical pattern of early-onset encephalopathy, persistent lactic acidosis, profound muscular hypotonia and typical facial dysmorphism should prompt initiation of molecular genetic analysis of FBXL4. Establishment of the diagnosis permits genetic counselling, prevents patients undergoing unhelpful diagnostic procedures and allows for accurate prognosis.

Published

2015

8. Novel mutations in ADAMTSL2 gene underlying geleophysic dysplasia in families from United Arab Emirates.

Author

Ben-Salem S, Hertecant J, Al-Shamsi AM, Ali BR, and Al-Gazali L

Subjects

ADAMTS Proteins, Adult, Amino Acid Sequence, Base Sequence, Bone Diseases, Developmental pathology, Child, Preschool, Consanguinity, Exons, Female, Genes, Recessive, Heterozygote, Homozygote, Humans, Limb Deformities, Congenital pathology, Male, Molecular Sequence Data, Pedigree, Sequence Analysis, DNA, United Arab Emirates, ADAM Proteins genetics, Bone Diseases, Developmental genetics, Limb Deformities, Congenital genetics, Metalloendopeptidases genetics, Mutation, Missense

Abstract

Background: Geleophysic dysplasia (GD) is an autosomal recessive disorder characterized by short stature, brachydactyly, stiff joints, thick skin, and cardiac valvular abnormalities that are often responsible for early death. Mutations in ADAMTSL2 and FBN1 genes have been shown to cause GD due to the dysregulation of transforming growth factor-β signaling pathways. Small numbers of mutations in ADAMTSL2 have been reported so far in patients with GD type 1 (GD1)., Methods: In this study, we clinically evaluated two children from two consanguineous Arab families living in the United Arab Emirates with GD1. In addition we have sequenced all the coding exons of ADAMTSL2 gene using Sanger sequencing., Results: The two patients exhibited most of the typical features of this rare bone dysplasia. Molecular analysis of the ADAMTSL2 gene revealed two novel homozygous missense mutations (c.938T>C, p.M313T and c.499G>A, p.D167N). The mutations segregated well in the studied families with the parents being heterozygous. In addition, bioinformatics analyses showed that these mutations are affecting conserved amino acids residues and thus strongly support their pathogenicity., Conclusion: We describe the clinical phenotypes of two patients with GD1 that are caused by two novel homozygous missense mutations in the ADAMTSL2 gene., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2013