ORCID Profile
0000-0002-5715-3425
Current Organisations
IT University of Copenhagen
,
Aarhus University
,
University of Michigan
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Publisher: Wiley
Date: 10-06-2020
DOI: 10.1002/JDN.10036
Publisher: Springer Science and Business Media LLC
Date: 23-04-2022
DOI: 10.1007/S10048-022-00692-7
Abstract: Human exocyst complex is an evolutionary conserved multimeric complex composed of proteins encoded by eight genes EXOC1-EXOC8. It is known that the exocyst complex plays a role in ciliogenesis, cytokinesis, cell migration, autophagy, and fusion of secretory vesicles. Recently, loss of function variants in EXOC7 and EXOC8 has been associated with abnormalities of cerebral cortical development leading to a neurodevelopmental phenotype. Neurodevelopmental disorders are a huge group of clinically and genetically heterogeneous disorders. In the present study, we recruited a large consanguineous family segregating a neurodevelopmental disorder in an autosomal recessive form. We performed clinical phenotyping by imaging the patient's brain followed by whole exome sequencing examining DNA from two affected in iduals. The clinical phenotypes of the disease were suggestive of brain atrophy. Clinical examination revealed intellectual impairment with hypertonia and brisk reflexes. WES followed by Sanger sequencing revealed a novel homozygous nonsense mutation [EXOC8 NM_175876.5 c.1714G > T p.(Glu572Ter)] in the DNA of affected in iduals. Both parents of the patients were heterozygous for the identified mutation. All the pathogenicity prediction softwares predicted the identified variant as disease causing. This study reports a second protein-truncating variant in EXOC8. The findings confirm that loss of function variants in EXOC8 underlies a neurodevelopmental disorder. The identification of a protein-truncating variant in EXOC8 in the current study can be helpful in establishing genotype-phenotype correlations. Our results also provide new insights into genetic counseling and clinical management for the affected in iduals.
Publisher: Georg Thieme Verlag KG
Date: 08-04-2021
DOI: 10.1055/A-1371-1561
Abstract: Background Tay-Sachs disease (TSD) is a rare autosomalrecessive genetic disorder characterized by progressive destruction of nerve cells in the brain and spinal cord. It is caused by genetic variations in the HEXA gene leading to a deficiency of β hexosaminidase A (HEXA) isoenzyme activity. This study aimed to identify causative gene variants in 3 unrelated consanguineous families presented with TSD from Pakistan and Morocco. Methods Detailed clinical investigations were carried out on probands in 3 unrelated consanguineous families of Pakistani and Moroccan origin. Targeted gene sequencing and Whole Exome Sequencing (WES) were performed for variant identification. Candidate variants were checked for co-segregation with the phenotype using Sanger sequencing. Public databases including ExAC, GnomAD, dbSNP and the 1,000 Genome Project were searched to determine frequencies of the alleles. Conservation of the missense variants was ensured by aligning orthologous protein sequences from erse vertebrate species. Results We report on 3 children presented with Tay-Sachs Disease. The β hexosaminidaseA enzyme activity was reduced in the Pakistani patient in one of the pedigrees. Genetic testing revealed 2 novel homozygous variants (p.Asp386Alafs*13 and p.Trp266Gly) in the gene HEXA in Pakistani and Moroccan patients respectively.The third family of Pakistani origin revealed a previously reported variant (p.Tyr427Ilefs*5) in HEXA. p.Tyr427Ilefs*5 is the most commonly occurring pathogenic variationin Ashkenazi but was not reported in Pakistani population. Conclusion Our study further expands the ethnic and mutational spectrum of Tay-Sachs disease emphasizing the usefulness of WES as a powerful diagnostic tool where enzymatic activity is not performed for Tay-Sachs disease. The study recommends targeted screening for these mutations (p.Tyr427Ilefs5) for cost effective testing of TSD patients. Further, the study would assist in carrier testing and prenatal diagnosis of the affected families.
Location: Pakistan
No related grants have been discovered for Asmat Ullah.