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- FREE ACCESSBackground: The cell cytoskeleton is regulated by the ezrin-radixin-moesin (ERM) family of proteins, forming links between transmembrane proteins and the underlying actin cytoskeleton. Phosphorylation and activation of these proteins enable interactions with partners critically involved in shape regulation, such as actin filaments, transmembrane proteins, and scaffolding proteins. The MSN gene encodes moesin, which is ubiquitously expressed in lungs, spleen, kidney, endothelial cells of vessels, lymphocytes, and neutrophils. Deficiency or dysregulation of moesin, called X-linked moesin-associated immunodeficiency (X-MAID), is characterized by severe leukopenia affecting T cells, B cells, and neutrophils. To date, the clinical picture of patients with X-MAID is variable.Aim: We describe the presentation, immune-workup, and lung histopathology findings of a young male patient with X-MAID and multi-organ involvement, whose severe pulmonary vein stenosis necessitated a double lung transplant.Methods: A thorough review of the patient’s chart was performed.Results: The patient presented with a history of recurrent respiratory tract infections, oral thrush, and 3 major bacterial infections requiring admission and antibiotic therapy. His immune evaluation was remarkable for low T cells, and normal numbers of B and NK cells. At age 4 years he underwent a double lung transplant due to severe pulmonary vein stenosis and pulmonary hypertension. He further developed chronic kidney injury post-transplant. Clinical trio whole exome sequencing revealed a novel hemizygous variant in the MSN gene (c.278dupT; p.L93FfsX21), predicted to cause loss-of-function in moesin. Histologic evaluation of the lung tissue before transplantation identified profound abnormalities in alveoli formation.Conclusion: Patients with moesin deficiency may present during infancy or childhood with a severe form of the disease, including combined immunodeficiency with lymphopenia and neutropenia, while adults may have a milder clinical picture. The novel MSN mutation described here adds to the known spectrum of disease and highlights the non-redundant functions of moesin, particularly in the lung.Statement of Novelty: We report the first lung histopathological description of an X-MAID case, in a pediatric patient with recurrent infections, cytopenia, and autoimmunity who underwent a double lung transplant.
- OPEN ACCESSBackground: Interleukin-12 Receptor β1 (IL-12Rβ1) deficiency causes susceptibility to weakly virulent atypical mycobacteria and Salmonella. Genotype–phenotype correlations are weak and penetrance is not complete. Most of the culture-recovered Salmonella are with the non typhi types.Case report: We describe an 11 year old male patient with IL-12Rβ1 deficiency. He had an erythematous rash resembling Henoch Schonlein Purpura, and initially presented with slightly elevated CRP. Skin biopsy revealed leukocytoclastic vasculitis. Due to lack of evidence of an active infection, positive ANA, and positive direct Coombs test, an autoimmune lupus-like disease was suspected. In conjunction with rash flares, he showed progressively elevated inflammatory markers, chronic anemia, and hypoalbuminemia. Extensive investigations for an infectious etiology were negative, and without isolation of any pathogens. However, the last of a series of abdominal ultrasound examinations revealed enlarged peritoneal and retroperitoneal lymph-nodes, and biopsy yielded slow-growing bacteria, identified as Salmonella typhi. Prolonged treatment with 2 antimicrobial agents resulted in resolution of skin rash and normalization of laboratory results.Conclusions: We describe an IL-12Rβ1 deficient patient with a progressive inflammatory process with a unique immune dermatological manifestation which was probably triggered by an unexpected pathogen, Salmonella typhi. This patient’s case demonstrates the need for invasive procedures to identify an infectious etiology when routine cultures and serology tests are negative.Statement of novelty: In this case report, we describe a unique presentation of infection with Salmonella typhi in a patient with IL-12Rβ1 deficiency, manifesting with bouts of leucocytoclastic vasculitis. We also report in the same patient, recurrent infection with an unusual pathogen, Kocuria kristinae. Both phenomena have not been reported in such constellation, and we believe this to be a useful and important description that could alert physicians, immunologists, and pediatricians alike to such manifestations. Further, it may help in a rapid and successful diagnosis, therefore benefiting such patients.
