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| [Paper Type: Novel mutation and VUS] AND [Author: Upton, Julia] (4) | 26 Mar 2025 |
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- OPEN ACCESSBackground: Wiskott-Aldrich syndrome (WAS) is an X-linked recessive disorder associated with combined immunodeficiency, microthrombocytopenia, eczema, and an increased risk of autoimmunity and cancer.Aim: To report the clinical presentation, immune features, and genetic mutation in a patient with a novel mutation in the Wiskott-Aldrich syndrome (WAS) gene, causing a mild phenotype of WAS.Methods: The patient’s chart was reviewed. We report the phenotypical and laboratory characteristics of a patient with a mild phenotype of WAS identified by WAS gene sequence analysis.Results: Our patient presented with thrombocytopenia and 3 episodes of otitis media at 24 months of age, with no other significant manifestations suggestive of immunodeficiency or immune dysregulation. A missense mutation was found in exon 12 of the WAS gene, C1498>T, leading to a Trp500Arg amino acid change. Currently, he is 15 years old and remains in good health, free of infections or other complications to date.Conclusion: Genetic analysis is helpful for the diagnosis of WAS; our patient’s mutation was found to cause a mild phenotype.Statement of novelty: We describe a patient with a mild phenotype of WAS with a novel mutation in the WAS gene, thus, expanding the spectrum of WAS gene mutations.
- OPEN ACCESSIntroduction: Chronic granulomatous disease (CGD) is an inherited primary immunodeficiency caused by mutations in the NADPH complex characterized by recurrent infections, inflammation and autoimmunity. While autosomal recessive forms exist, X-linked CGD makes up the majority of cases, which is caused by mutations in the CYBB gene. Patients are at high risk for infections with catalase positive bacteria and fungi. The prognosis has improved significantly with improvements in disease detection and management, including prophylactic antibiotic and antifungal therapy. Hematopoietic stem cell transplantation (HSCT) is a curative option for patients with a suitable donor.Aim: To report the clinical presentation, immune features and genetic mutations in 2 patients with novel mutations in the CYBB gene causing X-linked CGD who underwent HSCT.Results: Case 1: Patient 1 is a 14-year-old patient who initially presented with disseminated aspergillosis at the age of 3. He was noted to have an abnormal neutrophil oxidative burst index (NOBI) and genetic testing revealed a mutation in the CYBB gene (c.883_87dupGTGGT) consistent with CGD. He successfully underwent HSCT at age 4. At age 10 he developed a primary intracranial rhabdomyosarcoma in the posterior cranial fossa. Case 2: Patient 2 is a 4-year-old male who was worked up for CGD after developing a perianal abscess at 1 month of age followed by Moraxella bacteremia at 2 months of age. He had 2 abnormal NOBIs and genetic testing identified a novel mutation in the CYBB gene that was thought to explain his phenotype (c.941delA). He underwent an HSCT (10/10 HLA matched unrelated donor). Both patients have had normalization of their NOBI post-transplant and remain free of significant infections.Discussion: We report the clinical presentation, immune features and genetic mutations in 2 patients with novel mutations in the CYBB gene causing X-linked CGD. Identifying pathogenic mutations causing CGD is important for a better understanding of genotype–phenotype associations and disease course in this patient population.Statement of novelty: We describe 2 pediatric patients diagnosed with X-linked chronic granulomatous disease due to novel mutations in the CYBB gene.
- OPEN ACCESSBackground: Ataxia telangiectasia typically presents in early pre-school years with progressive cerebellar ataxia and oculocutaneous telangiectasias. Referral to Immunology is often made after diagnosis has been established, as patients are prone to both humoral and cellular immune abnormalities.Case presentation: We herein report a 10-year old boy, previously undiagnosed, who presented with recurrent pneumonias. On history, frequent falls and speech difficulty were reported, with no telangiectasias on exam. Screening with alpha-fetoprotein was abnormal, followed by ATM gene sequencing, showing a homozygous intronic mutation. Over the next 3 years the patient deteriorated neurologically, and developed appreciable telangiectasias.Conclusion: A review of the literature demonstrates that intronic/splicing mutations may result in atypical ataxia telangiectasia phenotypes and delayed presentations. We advise immunologists to have a high index of suspicion for ataxia telangiectasia when assessing a patient with immunodeficiency and neurologic regression, regardless of age, and even in the absence of telangiectasias.Statement of novelty: We present a case of phenotypically atypical (“leaky”) ataxia telangiectasia resulting from a novel homozygous splice-site mutation in the ATM gene. Given high reported prevalence of intronic and splice-site mutations in ATM, we recommend full gene sequencing in patients suspected to have ataxia telangiectasia, especially in those with late onset or unusual manifestations.
- OPEN ACCESS
- Luis Murguia-Favela,
- Vy Hong-Diep Kim,
- Julia Upton,
- Paul Thorner,
- Brenda Reid,
- Adelle Atkinson, and
- Eyal Grunebaum
Immune dysregulation, polyendocrinopathy, enteropathy, X-linked (IPEX) syndrome is a rare primary immunodeficiency caused by inherited defects in the FOXP3 gene that impair regulatory T cells. IPEX syndrome can be cured by hematopoietic stem cell transplantation (HSCT) from HLA-matched unrelated donors (MUD); however, the best conditioning prior to HSCT for IPEX syndrome is not known.Here we report on a patient suffering from IPEX syndrome, including immune-mediated colitis and membranous nephropathy, without polyendocrinopathy, caused by a novel mutation in the Forkhead domain of the FOXP3 gene. The patient's symptoms resolved following MUD HSCT after myeloablative conditioning performed at 16 months of age. The patient is clinically well, 3 years after HSCT, with robust immune reconstitution and fully engrafted. The lack of extensive autoimmune damage might have contributed to the patient's favourable outcome following MUD HSCT with myeloablative conditioning.Statement of novelty: We describe a novel mutation in the FOXP3 gene causing IPEX syndrome and the correction of IPEX syndrome with bone marrow transplant from a HLA-matched unrelated donor following myeloablative conditioning.
