Cerebral malaria is a severe complication of human malaria and may lead to death of Plasmodium falciparum-infected individuals. Cerebral malaria is associated with sequestration of parasitized red blood cells within the cerebral microvasculature resulting in damage of the blood–brain barrier and brain pathology. Although CD8+ T cells have been implicated in the development of murine experimental cerebral malaria (ECM), several other studies have shown that CD8+ T cells confer protection against blood-stage infections. Since the role of host deubiquitinating enzymes (DUBs) in malaria is yet unknown, we investigated how the DUB cylindromatosis (CYLD), an important inhibitor of several cellular signaling pathways, influences the outcome of ECM. Upon infection with Plasmodium berghei ANKA (PbA) sporozoites or PbA-infected red blood cells, at least 90% of Cyld−/− mice survived the infection, whereas all congenic C57BL/6 mice displayed signatures of ECM, impaired parasite control, and disruption of the blood–brain barrier integrity. Cyld deficiency prevented brain pathology, including hemorrhagic lesions, enhanced activation of astrocytes and microglia, infiltration of CD8+ T cells, and apoptosis of endothelial cells. Furthermore, PbA-specific CD8+ T cell responses were augmented in the blood of Cyld−/− mice with increased production of interferon-γ and granzyme B and elevated activation of protein kinase C-θ and nuclear factor “kappa light-chain enhancer” of activated B cells. Importantly, accumulation of CD8+ T cells in the brain of Cyld−/− mice was significantly reduced compared to C57BL/6 mice. Bone marrow chimera experiments showed that the absence of ECM signatures in infected Cyld−/− mice could be attributed to hematopoietic and radioresistant parenchymal cells, most likely endothelial cells that did not undergo apoptosis. Together, we were able to show that host deubiqutinating enzymes play an important role in ECM and that CYLD promotes ECM supporting it as a potential therapeutic target for adjunct therapy to prevent cerebral complications of severe malaria.
Chronic Granulomatous Disease (CGD) is an uncommon primary immunodeficiency caused by the absence or dysfunction of one of NADPH oxidase subunits, with heterogeneous genetic aetiologies. The aim of this study was the CGD patient registry in Greece, the identification of the responsible genotype and the potential correlation with the patient's clinical phenotype. Medical charts of 24 CGD patients, investigated by NBT test or DHR for NADPH oxidase activity, Western blot analysis for NADPH oxidase component expression and DNA sequencing (pyro- and cycle sequencing) for mutation analysis, were reviewed. All patients, but one, were classified into the different types of CGD. Sixteen patients from 14 unrelated families had X-linked CGD (66.7 %), four had mutations in the NCF1 gene (19 %), and three, from two unrelated families, had mutations in NCF2 (9.5 %) [Corrected]. Fifteen mutations were detected in the CYBB gene, including nonsense (53.8 %), splice site (30.8 %) and missense mutations (7.7 %), and deletions (7.7 %). Two novel mutations were identified; one in CYBB and one in NCF1. Carrier detection for X-CGD revealed that the de novo mutation rate was about 7 %. Prenatal diagnosis identified one affected male in three male fetuses tested. In both the X-linked and the autosomal recessive (AR-CGD) group, the gastrointestinal and respiratory manifestations were more common, followed by lympadenopathy in X-CGD and skin infections in the AR-CGD group. The patients with a mutation in CYBB had a wider variability of clinical manifestations and earlier diagnosis (4.6 years) compared to the AR-CGD group (12.9 years). The incidence of CGD in Greece is estimated at 0.90 (95 % CI 0.89-0.91) per 100,000 live births for the last decade.
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