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  • Rare FLG mutation associated with severe atopy
    LymphoSign Journal • Vol. 11 • No. 1 • pp. 19 - 25
    Background: The prevalence of atopic disease, which consists of conditions such as atopic dermatitis, allergies, and asthma, has been on the rise in recent decades. In children, atopic dermatitis often acts as an initial manifestation of atopic disease and frequently precedes the development of food allergies, asthma, and allergic rhinitis. Mutations in the FLG gene, encoding the fillagrin precursor profillagrin, serve as a genetic risk factor for these diseases. Approximately 25%–50% of individuals with atopic dermatitis carry FLG mutations. It has been proposed that FLG mutations exhibit variations specific to different populations, indicating distinct patterns within each population.Severe allergic symptoms could indicate the presence of an underlying immunodeficiency or immune dysregulation and in patients with severe, early-onset, or simultaneous allergic conditions, these could be suggestive of an underlying Primary Atopic Disorder. Specifically, the allergic triad characterized by elevated IgE levels, eosinophilia, and eczema is a common feature in various inborn errors of immunity that could be mistakenly diagnosed as severe allergic conditions.Method: Our patient’s medical record was analyzed retrospectively, including her medical history, as well as results from immune laboratory tests and genetic analyses.Results: We present a 9-year-old female of mixed ethnicity with a history severe eczematous rash diagnosed with atopic dermatitis. Whole exome sequencing analysis revealed an initially novel heterozygous variant in the FLG gene (NM_002016: EXON3:c.C2218T: p.R740X).Conclusion: Healthcare providers caring for patients with atopic dermatitis and recurrent staphlococcus infections should be aware of the significant link between filaggrin gene mutations and the development of severe, persistent atopic dermatitis that begins in childhood, as well as its association with recurring staphlococcus infections. Additionally, they should keep in mind that certain inborn errors of immunity may predominantly manifest as severe and treatment-resistant atopic disorders.Statement of novelty: We have identified a rare variant in the FLG gene associated with severe atopic dermatitis and allergies.
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    Identification of novel compound heterozygous LRBA mutations associated with recurrent hemophagocytic lymphohistiocytosis and CNS manifestations
    LymphoSign Journal • Vol. 10 • No. 1 • pp. 20 - 26
    Background: Lipopolysaccharide-responsive beige-like anchor (LRBA) is an intracellular protein that regulates the recycling of cytotoxic T lymphocyte-associated protein 4 (CTLA4), an immune checkpoint molecule which prevents ongoing activation of T cells. Deficiency of LRBA results in increased trafficking and degradation of CTLA4, and consequently, uncontrolled T cell responses. The phenotypic spectrum of LRBA deficiency arising from biallelic loss-of-function typically includes recurrent infections, autoimmunity, lymphoproliferation, chronic diarrhea, hypogammaglobulinemia, and cytopenia.Aim: To report an atypical presentation of LRBA deficiency arising from a set of compound heterozygous LRBA variants, encompassing recurrent hemophagocytic lymphocytosis (HLH) and neurological manifestations.Methods: Clinical data was gathered through retrospective chart review. Expanded genetic analysis including whole exome sequencing was performed.Results: Our patient initially presented at age 15 months with fever, seizures, and encephalopathy. HLH-work-up showed bicytopenia, elevated ferritin and triglyceride, and low fibrinogen, however, he did not yet meet the diagnostic criteria for HLH. MRI brain and EEG at diagnosis was suggestive of acute necrotizing encephalopathy of childhood. He responded to pulsed IV methylprednisolone treatment with minimal residual neurological deficit on follow-up. At 36 months of age, he had a repeat presentation and rapidly deteriorated. He developed severe encephalopathy with fixed dilated pupils. Whole exome sequencing revealed a set of compound heterozygous missense variants in the LRBA gene, a novel c.2206A>T (p.R736W) and c.5989C>T (p.R1997C) variant.Conclusion: Compound heterozygous mutations in the LRBA gene caused an atypical presentation of recurrent HLH with central nervous system (CNS) manifestations in our patient.Statement of Novelty: We herein report a novel set of compound heterozygous mutations in LRBA with atypical presentation of recurrent HLH with CNS manifestations, thus expanding the known phenotypic spectrum of LRBA deficiency.
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    A novel STAT3 splice-site variant in a kindred with autosomal dominant hyper IgE syndrome
    LymphoSign Journal • Vol. 10 • No. 1 • pp. 15 - 19
    Background: Dominant negative STAT3 loss-of-function is the most common genetic cause of hyper-IgE syndrome (HIES). Patients may present with a host of both immune and non-immune manifestations, including connective tissue abnormalities, recurrent infections, malignant predisposition, and biochemical evidence of elevated serum IgE or eosinophilia.Aim: To describe a novel splice-site variant in STAT3 resulting in HIES.Methods: Case report of two family members with HIES.Results: A proband and his son presented with neonatal-onset pustular rash, recurrent skin and sinopulmonary infections and elevated serum IgE and were diagnosed with AD-HIES. They were identified to harbor a novel splice-site variant in the DNA-binding domain (DBD) of STAT3: c.1110-3C>G, predicted to result in defective splicing in exon 12. Interestingly, a number of other patients with AD-HIES have mutations affecting the same splice-site, suggesting this may be a hot-spot for mutagenesis.Conclusion: Splice-site mutations in the DBD of STAT3 are increasingly identified as a cause of AD-HIES. Future work is required to delineate whether patients with splice-site mutations have unique clinical characteristics, supporting efforts for genotype-phenotype correlation in this disease.Statement of Novelty: We present a novel splice-site mutation in the DNA-binding domain of STAT3 leading to autosomal dominant hyper-IgE syndrome.
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    CTLA4 haploinsufficiency caused by a novel heterozygous splice site mutation
    LymphoSign Journal • Vol. 9 • No. 2 • pp. 40 - 44
    Background: Cytotoxic T lymphocyte-associated antigen-4 (CTLA4) haploinsufficiency is characterized by a variety of phenotypes, ranging from autoimmune disorders, enteropathy, fatal combined immunodeficiency, as well as lymphoproliferation and malignancy.Aim: To broaden the genotypic spectrum and clinical presentations of patients with CTLA4 variants.Methods: We evaluated a female patient with autoimmunity and lymphopenia. Immune workup and whole exome sequencing (WES) were performed.Results: The proband presented at 11 years of age with hypothyroidism and later developed Evans syndrome, alopecia, eczema, and lymphocytic interstitial pneumonia. Immune evaluation revealed T, B, and NK lymphopenia with normal humoral immunity. Following a negative genetic panel for autoimmune lymphoproliferative syndrome (ALPS), WES analysis identified a novel heterozygous intronic variant predicted in-silico to cause skipping of exon 2 of the CTLA4 gene.Conclusion: A novel heterozygous mutation in CTLA4 caused variable presentations of immune dysregulation, one of the hallmarks of CTLA4 haploinsufficiency.Statement of Novelty: We herein report a novel mutation in CTLA4 resulting in various features of autoimmunity.
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    Novel mutation in PIK3CD affecting the Ras-binding domain
    LymphoSign Journal • Vol. 9 • No. 1 • pp. 11 - 16
    Introduction: The phosphoinositide 3-kinase (PI3K) pathway plays critical roles in diverse cellular processes, including differentiation, proliferation, motility, survival, and growth. PI3Kδ, comprised of the catalytic subunit p110δ and regulatory subunit p85α, is essential for normal lymphocyte and myeloid development and function. Gain-of-function mutations in PIK3CD (encoding p110δ) cause a combined immunodeficiency known as activated PI3Kδ syndrome (APDS), in which patients frequently present with recurrent respiratory infections, severe recurrent (or persistent) infections with herpes family viruses, and lymphadenopathy.Aim: To describe the clinical presentation, immune evaluation, and genetic work-up of 2 patients (daughter and mother) with recurrent sinopulmonary, soft tissue, and skin infections.Results: Both daughter and mother presented with recurrent sinopulmonary and soft tissue infections. Immune evaluation of the daughter revealed intermittent hypogammaglobulinemia and abnormal specific vaccine responses, while immune parameters of her mother were normal. Whole exome sequencing identified a novel mutation in PIK3CD (NM_005026), c.C719T, resulting in p.T240M. Western blot analysis of downstream AKT levels revealed increased basal phosphorylation, in line with gain-of-function mutations of PIK3CD.Conclusion: The novel missense mutation in PIK3CD occurs in the region encoding the Ras-binding domain (RBD) of p110δ, and likely alters the structural configuration of the domain. To date, pathogenic mutations targeting the RBD of p110δ have not yet been described. Our results expand on the genotypic spectrum of APDS.Statement of Novelty: We describe a novel mutation in the Ras-binding domain of PIK3CD leading to a presentation of recurrent sinopulmonary and soft tissue infections in the context of APDS.
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    A novel splice site variant in FOXN1 in a patient with abnormal newborn screening for severe combined immunodeficiency and congenital lymphopenia
    LymphoSign Journal • Vol. 8 • No. 1 • pp. 1 - 4
    Background: The Forkhead box protein N1 (FOXN1) is a key regulator of thymic epithelial development, and its complete deficiency leads to a nude-severe combined immunodeficiency (SCID) phenotype. More recently, heterozygous mutations in FOXN1 have been linked with a syndrome of congenital lymphopenia and a wide clinical spectrum, with most cases being caused by missense mutations.Aim: To broaden the genotypic and phenotypic spectrum of heterozygous FOXN1 deficiency.Methods: Case report of a patient with FOXN1 haploinsufficiency due to a novel splice-site mutation.Results: Our patient was identified at 3 weeks of life given an abnormal newborn screen (NBS) for SCID, and was found to have congenital lymphopenia preferentially affecting CD8+ T-cells. Her cellular and humoral function were both excellent, and she has remained entirely asymptomatic and thriving for the first 3 years of her life. The patient was found on whole exome sequencing to carry a heterozygous splice-site mutation in the FOXN1 gene, affecting the Forkhead domain. The mutation was also identified in her asymptomatic mother.Conclusion: Heterozygous FOXN1 mutations are an increasingly-recognized cause of congenital lymphopenia. Our experience suggests most patients remain clinically well, with main manifestation including T-lymphopenia, mostly affecting CD8+ cells. Identification of the same variant in an asymptomatic parent suggests age-dependent improvement in T-cell counts and an overall benign course, while provides impetus for diligent conservative management with regular follow-up.Statement of novelty: Heterozygous FOXN1 deficiency is a relatively new entity, attributed in most cases to missense mutations in FOXN1. To further expand the knowledge basis regarding this emerging disorder, as well as its genotypic repertoire, we herein report a case of heterozygous FOXN1 deficiency caused by a splice site mutation.
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    Identification of a novel RAG1 hypomorphic mutation in a child presenting with disseminated vaccine-strain varicella
    LymphoSign Journal • Vol. 8 • No. 1 • pp. 5 - 10
    Background: Recombination-activating gene 1 (RAG1) and recombination-activating gene 2 (RAG2) encode unique lymphocyte endonuclease proteins that are crucial in T and B cell development through V(D)J recombination. RAG1 gene defects lead to variable phenotypes, ranging from immunocompetent to severe combined immunodeficiency (SCID). Curative therapy for severe manifestations can be achieved through hematopoietic stem cell transplantation (HSCT). Advances in genomic sequencing have led to the discovery of new variants and it is recognized that the level of recombinase activity correlates with disease severity.Aim: To report the clinical presentation, immunological work-up, decision process to undergo HSCT, and confirmatory genetic diagnosis in a patient who was well until her initial presentation with disseminated vaccine-strain varicella.Methods: Clinical data was gathered through retrospective chart review. Immunological investigations, targeted gene sequencing, and thymic biopsy results were reviewed. Further genetic analysis, including whole exome and whole genome sequencing was performed.Results: Whole exome sequencing identified a single missense mutation in RAG1, R474C (c.1420C>T), which would not account for the clinical presentation. Healthy individuals with only 1 mutation have been reported. Subsequently, whole genome sequencing revealed a novel second heterozygous missense variant, H945D (c.2833G>T) in the RAG1 gene.Conclusion: Hypomorphic RAG1 mutations with residual activity have a diverse phenotypic expression. Identifying and understanding the implications of these mutations is crucial for disease prognostication and tailoring management.Statement of novelty: We present a novel RAG1 missense variant, with likely complete or partial loss of function, in a patient with significant impairment in cellular immunity.
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    A novel mutation in LIG4 in an infant presenting with severe combined immunodeficiency with thymic medullary dysplasia
    LymphoSign Journal • Vol. 4 • No. 1 • pp. 31 - 41
    Background: DNA ligase IV deficiency is a rare autosomal recessive condition resulting from mutations in LIG4, an essential component of the non-homologous end-joining pathway that prevents mutagenesis and apoptosis. Patients with LIG4 deficiency present with varying degrees of combined immunodeficiency, or less commonly, severe combined immunodeficiency (SCID). Assessment of thymus pathology has been instrumental in defining a growing number of T cell deficiencies. In this case report, we present thymic histopathology of a LIG4 deficient patient who presented with SCID.Methods: Whole exome sequencing and Sanger confirmation were used to identify a novel mutation in LIG4. Standard immune work up and histopathology were completed to characterize deficits in immune function and dysplastic thymic architecture in our patient.Results: Next generation sequencing techniques identified a homozygous c.1102G>T, resulting in amino acid change D368Y in the adenylation domain of LIG4. Histopathology revealed a distinct absence of Hassall’s corpuscles, lack of cortico-medullary demarcation, as well as lack of T cells and Langerhans histiocytes in the thymic medulla.Conclusion: We have identified a novel mutation in LIG4 resulting in a SCID phenotype. Underdevelopment of the thymus, characterized by a lack of Hassall’s corpuscles and competent thymocytes, likely contributes to the immune defects observed in patients with mutations in LIG4.Statement of novelty: We report here a novel mutation in LIG4 as well as the first description of detailed thymus pathology in this condition.
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