34 research outputs found
Hematopoietic Cell Transplantation Cures Adenosine Deaminase 2 Deficiency: Report on 30 Patients
PURPOSE: Deficiency of adenosine deaminase 2 (DADA2) is an inherited inborn error of immunity, characterized by autoinflammation (recurrent fever), vasculopathy (livedo racemosa, polyarteritis nodosa, lacunar ischemic strokes, and intracranial hemorrhages), immunodeficiency, lymphoproliferation, immune cytopenias, and bone marrow failure (BMF). Tumor necrosis factor (TNF-α) blockade is the treatment of choice for the vasculopathy, but often fails to reverse refractory cytopenia. We aimed to study the outcome of hematopoietic cell transplantation (HCT) in patients with DADA2.
METHODS: We conducted a retrospective study on the outcome of HCT in patients with DADA2. The primary outcome was overall survival (OS).
RESULTS: Thirty DADA2 patients from 12 countries received a total of 38 HCTs. The indications for HCT were BMF, immune cytopenia, malignancy, or immunodeficiency. Median age at HCT was 9 years (range: 2-28 years). The conditioning regimens for the final transplants were myeloablative (n = 20), reduced intensity (n = 8), or non-myeloablative (n = 2). Donors were HLA-matched related (n = 4), HLA-matched unrelated (n = 16), HLA-haploidentical (n = 2), or HLA-mismatched unrelated (n = 8). After a median follow-up of 2 years (range: 0.5-16 years), 2-year OS was 97%, and 2-year GvHD-free relapse-free survival was 73%. The hematological and immunological phenotypes resolved, and there were no new vascular events. Plasma ADA2 enzyme activity normalized in 16/17 patients tested. Six patients required more than one HCT.
CONCLUSION: HCT was an effective treatment for DADA2, successfully reversing the refractory cytopenia, as well as the vasculopathy and immunodeficiency.
CLINICAL IMPLICATIONS: HCT is a definitive cure for DADA2 with > 95% survival
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Homozygous DBF4 mutation as a cause for severe congenital neutropenia
Background
Severe congenital neutropenia presents with recurrent infections early in life due to arrested granulopoiesis. Multiple genetic defects are known to block granulocyte differentiation, however a genetic cause remains unknown in approximately 40% of cases.
Objective
We aimed to characterize a patient with severe congenital neutropenia and syndromic features without a genetic diagnosis. METHODS: Whole exome sequencing results were validated using flow cytometry, Western blotting, co-immunoprecipitation, quantitative PCR, cell cycle and proliferation analysis of lymphocytes and fibroblasts and granulocytic differentiation of primary CD34+ and HL-60 cells.
Results
We identified a homozygous missense mutation in DBF4 in a patient with mild extra-uterine growth retardation, facial dysmorphism and severe congenital neutropenia. DBF4 is the regulatory subunit of the CDC7 kinase, together known as DBF4-dependent kinase (DDK), the complex essential for DNA replication initiation. The variant allele demonstrated impaired ability to bind CDC7, resulting in decreased DDK-mediated phosphorylation, defective S phase entry and progression and impaired differentiation of granulocytes associated with activation of the p53-p21 pathway. The introduction of WT DBF4 into patient CD34+ cells rescued the promyelocyte differentiation arrest.
Conclusion
Hypomorphic DBF4 mutation causes autosomal recessive severe congenital neutropenia with syndromic features
Correction to: Hematopoietic cell transplantation cures adenosine deaminase 2 deficiency: report on 30 patients
Correction to: Journal of Clinical Immunology (2021) 41:1633–164
Inherited and acquired errors of type I interferon immunity govern susceptibility to COVID-19 and multisystem inflammatory syndrome in children
: Since the beginning of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)/coronavirus disease 2019 (COVID-19) pandemic, global sequencing efforts have led in the field of inborn errors of immunity, and inspired particularly by previous research on life-threatening influenza, they have revealed that known and novel inborn errors affecting type I interferon immunity underlie critical COVID-19 in up to 5% of cases. In addition, neutralizing autoantibodies against type I interferons have been identified in up to 20% of patients with critical COVID-19 who are older than 80 years and 20% of fatal cases, with a higher prevalence in men and individuals older than 70 years. Also, inborn errors impairing regulation of type I interferon responses and RNA degradation have been found as causes of multisystem inflammatory syndrome in children, a life-threatening hyperinflammatory condition complicating otherwise mild initial SARS-CoV-2 infection in children and young adults. Better understanding of these immunologic mechanisms can aid in designing treatments for severe COVID-19, multisystem inflammatory syndrome in children, long COVID, and neuro-COVID
Patients with Primary lmmunodeficiencies: How Are They at Risk for Fungal Disease ?
© 2018, Springer Science+Business Media, LLC, part of Springer Nature. Purpose of Review: In this review, we focus on the inborn errors of immunity known to render the host susceptible to fungal infections, including candidias, aspergillosis, dermatophytosis, phaeohyphomycosis, pneumocystosis, fusariosis, cryptococcosis, and endemic mycoses. Recent Findings: Classically, the burden of fungal disease in humans is believed to be carried by patients with a secondary immunodeficiency, either due to malignancy, to chemotherapy, to an immunocompromised state post hematopoietic stem cell transplantation, or to treatment with anti-cytokine therapies. However, in the last decade, the study of patients affected by fungal infections without any overt risk factors has led to the unraveling of several monogenic defects of human immunity to fungi. The study of these inborn errors of immunity has added vastly to our comprehension of antifungal immunity. For example, the role of IL-17 immunity in human defense against mucocutaneous candidiasis has been extensively characterized through the analysis of IL-17F, IL-17RA, IL-17Rc, ACT1, RORγT and, indirectly, CARD9 deficiency. Summary: Many monogenic causes of susceptibility to superficial and/or invasive fungal infections have been recently unraveled. Most of these inborn errors of immunity associate with a specific type of fungal infection, and such a defect should always be suspected and sought in patients affected by fungal infection in the absence of predisposing factors.status: publishe
A Novel Kindred with MyD88 Deficiency
SCOPUS: le.jDecretOANoAutActifinfo:eu-repo/semantics/publishe
Whole exome sequencing in inborn errors of immunity: use the power but mind the limits
Next-generation sequencing, especially whole exome sequencing (WES), has revolutionized the molecular diagnosis of inborn errors of immunity. This review summarizes the generation and analysis of next-generation sequencing data.status: publishe
Human inborn errors of the actin cytoskeleton affecting immunity: way beyond WAS and WIP
Inherited defects in genes encoding for proteins that are involved in the assembly and dynamics of the actin skeleton have increasingly been identified in patients presenting with primary immunodeficiencies. In this review, we summarize a subset of the recently described conditions, emphasizing the clinical features as well as the immunophenotype and pathophysiology.status: publishe