Clinical whole exome sequencing from dried blood spot identifies novel genetic defect underlying asparagine synthetase deficiency

Autosomal recessive primary microcephaly (MCPH) is a neurodevelopmental defect that is characterized by reduced head circumference at birth along with non-progressive intellectual disability. Till date, 25 genes related to MCPH have been reported so far in humans. The ASPM (abnormal spindle-like, microcephaly-associated) gene is among the most frequently mutated MCPH gene. We studied three different families having primary microcephaly from different regions of Saudi Arabia. Whole exome sequencing (WES) and Sanger sequencing were done to identify the genetic defect. Collectively, three novel variants were identified in the ASPM gene from three different primary microcephaly families. Family 1, showed a deletion mutation leading to a frameshift mutation c.1003del. (p.Val335*) in exon 3 of the ASPM gene and family 2, also showed deletion mutation leading to frameshift mutation c.1047del (p.Gln349Hisfs*18), while in family 3, we identified a missense mutation c.5623A>G leading to a change in protein (p.Lys1875Glu) in exon 18 of the ASPM gene underlying the disorder. The identified respective mutations were ruled out in 100 healthy control samples. In conclusion, we found three novel mutations in the ASPM gene in Saudi families that will help to establish a disease database for specified mutations in Saudi population and will further help to identify strategies to tackle primary microcephaly in the kingdom.

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Whole Exome Sequencing Reveals Genetic Predisposition in a Large Family with Retinitis Pigmentosa

BioMed Research International ◽

10.1155/2014/302487 ◽

2014 ◽

Vol 2014 ◽

pp. 1-6 ◽

Cited By ~ 3

Author(s):

Juan Wu ◽

Lijia Chen ◽

Oi Sin Tam ◽

Xiu-Feng Huang ◽

Chi-Pui Pang ◽

...

Keyword(s):

Next Generation Sequencing ◽

Retinitis Pigmentosa ◽

Exome Sequencing ◽

Whole Exome Sequencing ◽

Direct Sequencing ◽

Genetic Defect ◽

Chinese Family ◽

Next Generation ◽

Whole Exome ◽

Generation Sequencing

Next-generation sequencing has become more widely used to reveal genetic defect in monogenic disorders. Retinitis pigmentosa (RP), the leading cause of hereditary blindness worldwide, has been attributed to more than 67 disease-causing genes. Due to the extreme genetic heterogeneity, using general molecular screening alone is inadequate for identifying genetic predispositions in susceptible individuals. In order to identify underlying mutation rapidly, we utilized next-generation sequencing in a four-generation Chinese family with RP. Two affected patients and an unaffected sibling were subjected to whole exome sequencing. Through bioinformatics analysis and direct sequencing confirmation, we identified p.R135W transition in the rhodopsin gene. The mutation was subsequently confirmed to cosegregate with the disease in the family. In this study, our results suggest that whole exome sequencing is a robust method in diagnosing familial hereditary disease.

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Whole-exome sequencing gives additional benefits compared to candidate gene sequencing in the molecular diagnosis of children with growth hormone or IGF-1 insensitivity

Acta Endocrinologica ◽

10.1530/eje-17-0453 ◽

2017 ◽

Vol 177 (6) ◽

pp. 485-501 ◽

Cited By ~ 12

Author(s):

Lucy Shapiro ◽

Sumana Chatterjee ◽

Dina G Ramadan ◽

Kate M Davies ◽

Martin O Savage ◽

...

Keyword(s):

Genetic Testing ◽

Candidate Gene ◽

Short Stature ◽

Exome Sequencing ◽

Whole Exome Sequencing ◽

Genetic Variants ◽

Genetic Defect ◽

Significant Proportion ◽

Genetic Diagnosis ◽

Whole Exome

Background GH insensitivity (GHI) is characterised by short stature, IGF-1 deficiency and normal/elevated serum GH. IGF-1 insensitivity results in pre- and post-natal growth failure with normal/high IGF-1 levels. The prevalence of genetic defects is unknown. Objective To identify the underlying genetic diagnoses in a paediatric cohort with GH or IGF-1 insensitivity using candidate gene (CGS) and whole-exome sequencing (WES) and assess factors associated with the discovery of a genetic defect. Methods We undertook a prospective study of 132 patients with short stature and suspected GH or IGF-1 insensitivity referred to our centre for genetic analysis. 107 (96 GHI, 88 probands; 11 IGF-1 insensitivity, 9 probands) underwent CGS. WES was performed in those with no defined genetic aetiology following CGS. Results A genetic diagnosis was discovered 38/107 (36%) patients (32% probands) by CGS. WES revealed 11 patients with genetic variants in genes known to cause short stature. A further 2 patients had hypomethylation in the H19/IGF2 region or mUPD7 consistent with Silver–Russell Syndrome (total with genetic diagnosis 51/107, 48% or 41/97, 42% probands). WES also identified homozygous putative variants in FANCA and PHKB in 2 patients. Low height SDS and consanguinity were highly predictive for identifying a genetic defect. Conclusions Comprehensive genetic testing confirms the genetic heterogeneity of GH/IGF-1 insensitivity and successfully identified the genetic aetiology in a significant proportion of cases. WES is rapid and may isolate genetic variants that have been missed by traditional clinically driven genetic testing. This emphasises the benefits of specialist diagnostic centres.

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Novel Immune Checkpoint Deficiency and Susceptibility to EBV-Associated Lymphoma

Blood ◽

10.1182/blood-2019-128296 ◽

2019 ◽

Vol 134 (Supplement_1) ◽

pp. 2326-2326

Author(s):

Ido Somekh ◽

Thomas Magg ◽

Alejandro Gallón Duque ◽

Tali Stauber ◽

Atar Lev ◽

...

Keyword(s):

T Cells ◽

Exome Sequencing ◽

Whole Exome Sequencing ◽

Immune Checkpoint ◽

Conflicts Of Interest ◽

Recombinant Expression ◽

Genetic Defect ◽

Primary Immune Deficiency ◽

Genetic Rescue ◽

Whole Exome

Background: Understanding genetic predisposition to cancer is of paramount importance to tailor therapeutic strategies. Several defects in immune checkpoint regulators have been discovered in patients with EBV-induced lymphoma (e.g. CD27, PRKCD, RASGRP1, MAGT1, SH2D1A, ITK). Here, we describe the clinical and immune phenotype of 2 unrelated patients from consanguineous families presenting with a primary immune deficiency (PID) and EBV-associated lymphoproliferation due to biallelic mutations in CD137 (TNFRSF9/4-1BB). Methods: One patient of Turkish origin (P1) and Palestinian origin (P2), respectively were evaluated. Genetic analysis using whole exome sequencing was conducted. Immunological and biochemical assays were performed on primary patient material. Results: Clinical findings included recurrent sinopulmonary and herpes virus infections from childhood on. One patient suffered from auto-immunity (AIHA and auto-immune thrombocytopenia). Abnormal immunoglobulin levels were documented (IgG 413-1670, IgM 105-714, IgA 49-68 mg/dL). Both patients developed EBV-associated lymphoproliferative disorders: P1 developed Burkitt lymphoma and was treated according to NHL-BFM2000 regimen in combination with rituximab. He is currently in remission. P2 had monoclonal EBV-positive lymphoproliferation and was successfully treated with immunosuppressive therapy (e.g. cellcept, glucocorticoids). To shed light on the underlying genetic etiology, we performed whole exome sequencing. A large homozygous deletion in CD137 (c.1_545+1716del) was identified for P1, while P2 harbored a homozygous missense mutation (c.C452T, p.Thr151Met). Impaired anti-CD3 T cell lymphocyte activation and proliferation were observed, amenable to correction upon addition of anti-CD28 monoclonal antibodies. In an attempt to provide definitive proof that the CD137 gene variant causes the activation defect of T-cells, we designed a genetic rescue experiment in patient T cells. Upon retrovirus-mediated recombinant expression of WT CD137, proliferation and activation defects in T cells were restored. Conclusions: In sum, we here show that a genetic defect in the immune checkpoint molecule CD137 causes a new primary immunodeficiency disorder with susceptibility to EBV-induced lymphomagenesis. Disclosures No relevant conflicts of interest to declare.

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