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https://dora.health.qld.gov.au/qldresearchjspui/handle/1/3240| Title: | Hyper-IgE Syndrome due to an Elusive Novel Intronic Homozygous Variant in DOCK8 | Authors: | Burnett, L. Campbell, D. E. Sullivan, A. Peake, J. Tangye, S. G. Gray, P. E. Pillay, B. A. Yap, J. Y. Figgett, W. A. Reeves, J. Kummerfeld, S. K. Stoddard, J. Uzel, G. Jing, H. Su, H. C. Ma, C. S. |
Issue Date: | 2022 | Source: | 42, (1), 2022, p. 119-129 | Pages: | 119-129 | Journal: | Journal of Clinical Immunology | Abstract: | Rare, biallelic loss-of-function mutations in DOCK8 result in a combined immune deficiency characterized by severe and recurrent cutaneous infections, eczema, allergies, and susceptibility to malignancy, as well as impaired humoral and cellular immunity and hyper-IgE. The advent of next-generation sequencing technologies has enabled the rapid molecular diagnosis of rare monogenic diseases, including inborn errors of immunity. These advances have resulted in the implementation of gene-guided treatments, such as hematopoietic stem cell transplant for DOCK8 deficiency. However, putative disease-causing variants revealed by next-generation sequencing need rigorous validation to demonstrate pathogenicity. Here, we report the eventual diagnosis of DOCK8 deficiency in a consanguineous family due to a novel homozygous intronic deletion variant that caused aberrant exon splicing and subsequent loss of expression of DOCK8 protein. Remarkably, the causative variant was not initially detected by clinical whole-genome sequencing but was subsequently identified and validated by combining advanced genomic analysis, RNA-seq, and flow cytometry. This case highlights the need to adopt multipronged confirmatory approaches to definitively solve complex genetic cases that result from variants outside protein-coding exons and conventional splice sites.L20140098632021-10-28 | DOI: | 10.1007/s10875-021-01152-x | Resources: | https://www.embase.com/search/results?subaction=viewrecord&id=L2014009863&from=exporthttp://dx.doi.org/10.1007/s10875-021-01152-x | | Keywords: | case report;CD4+ T lymphocyte;CD8+ T lymphocyte;chest infection;child;clinical article;clinical feature;consanguineous marriage;controlled study;Corynebacterium urealyticum;crackle;cytokine production;cytomegalovirus infection;dermatitis;digital clubbing;dock8 deficiency;ear infection;eczema;Epstein Barr virus infection;exon;face;failure to thrive;family;father;female;flow cytometry;food allergy;gene deletion;genetic variability;group A streptococcal infection;Haemophilus influenzae;hepatosplenomegaly;homozygote;human;human cell;hyper IgE syndrome;hypereosinophilia;immunoglobulin blood level;intron;iron deficiency anemia;lymphocytopenia;male;medical history;molecular diagnosis;mother;multiomics;nail dystrophy;parent;peripheral blood mononuclear cell;peripheral blood stem cell;preschool child;protein deficiency;recurrent disease;respiratory distress;RNA sequencing;RNA splice site;RNA splicing;sibling;skin abscess;Staphylococcus aureus infection;thrombocytosis;viremia;virus reactivation;whole genome sequencing;x-ray computed tomography;HiSeq X;NextSeq;skin ulcer;central venous cathetergenetic analyzer;high throughput sequencer;nucleic acid library preparation kit;TruSeq Nano DNA Library Preparation Kit;TruSeq Stranded mRNA Library Preparation Kit;C reactive protein;CD28 antigen;CD4 antigen;CD57 antigen;CD8 antigen;dedicator of cytokinesis 8 protein;genomic DNA;guanine nucleotide exchange factor;immunoglobulin A;immunoglobulin E;immunoglobulin G;immunoglobulin M;interleukin 7 receptor;messenger RNA;tumor necrosis factor receptor superfamily member 6;unclassified drug;adult;Afghan;alopecia;article;aspergillosis;bacterial infection;bronchiectasis | Type: | Article |
| Appears in Sites: | Children's Health Queensland Publications |
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