Genotype-Phenotype Correlations in Chronic Granulomatous Disease: Insights From a Large National Cohort.

Neutrophils are the first line of defense against invading pathogens. Neutrophils execute and modulate immune responses by generating reactive oxygen species (ROS). Chronic Granulomatous Disease (CGD) is a primary immune deficiency disorder of phagocytes, caused by inherited mutations in the genes of the NADPH oxidase enzyme. These mutations lead to failure of ROS generation followed by recurrent bacterial and fungal infections, frequently associated with hyper-inflammatory manifestations. We report a multi-center cumulative experience in diagnosing and treating patients with CGD. From 1986 to 2021, 2,918 patients suffering from frequent infections were referred for neutrophil evaluation. Among them, 110 patients were diagnosed with CGD, 56 of Jewish ancestry, 48 of Arabic ancestry and 6 non-Jewish/non-Arabic. As opposed to other Western countries, the autosomal recessive (AR) CGD subtypes were predominant in Israel (71/110 patients). Thirty-nine patients had X-linked CGD, in most patients associated with severe infections (clinical severity score ≥3) and poor outcomes, presenting at a significantly earlier age than AR-CGD subtypes. The full spectrum of infections and hyper-inflammatory manifestations are described. Six patients had hypomorphic mutations with significantly milder phenotype, clinical severity score ≤2, and better outcomes. Hematopoietic stem cell transplantation was implemented in 39/110 patients (35.5%). Successful engraftment was achieved in 92%, with 82% long-term survival and 71% full clinical recovery. CGD is a complex disorder requiring a multi-professional team. Early identification of the genetic mutation is essential for prompt diagnosis, suitable management and prevention.

Legionella pneumophila Pneumonia in Two Infants Treated with Adrenocorticotropic Hormone.

Patients with infantile spasms, an intractable epileptic disorder, often are treated with adrenocorticotropic hormone. Legionella pneumophila is a rare cause of pneumonia in children. We describe 2 infants with Legionella pneumonia whose infection occurred within 1 month after starting adrenocorticotropic hormone.

MHC class I and II deficiencies.

Deficiencies of MHC complex class I or II are rare primary immunodeficiencies, both of which are inherited in an autosomal recessive pattern. MHC class II deficiency is a prototype of a disease of gene regulation. Defects in transacting regulatory factors required for expression of MHC class II genes, rather than the genes themselves, are responsible for the disease phenotype. The affected genes are known to encode 4 distinct regulatory factors controlling transcription of MHC class II genes. These transacting factors are the class II transactivator and 3 subunits of regulatory factor X (RFX): RFX containing ankyrin repeats (RFXANK), the fifth member of the RFX family (RFX5), and RFX-associated protein (RFXAP). Mutations in one of each define 4 distinct complementation groups termed A, B, C, and D, respectively. MHC class I deficiency is extremely rare and has been reported in less than 30 patients worldwide. Here we review the clinical, genetic, and molecular features that characterize these primary immunodeficiencies and discuss therapy options. Beyond the description of MHC class I and II deficiencies, their discovery has fascinated scientists and clinicians because of their ability to reveal the molecular basis of MCH regulation.

New host defense mechanisms against Candida species clarify the basis of clinical phenotypes.

Chronic Candida species infection of the skin and mucosal membranes is viewed as a group of disorders all sharing a similar clinical condition, the susceptibility to localized fungal infections, which can be isolated or as a feature associated with various other entities. Although the pathogenesis underlying such a tendency had previously been poorly understood, the last decade has witnessed significant progress in revealing the molecular and immunologic mechanisms involved in antifungal immunity. T(H)17 cells and their specific cytokines (IL-17A and IL-17F cytokines and IL-22) are the main players in conferring antifungal protection. Autoimmune polyendocrinopathy and ectodermal dystrophy and hyper-IgE syndrome are 2 entities caused by different genetic mutations affecting distinct immune pathways but eventually share a similar clinical phenotype of Candida species infection. Impaired T(H)17 responses, although mediated by different mechanisms, seem to underlie this common feature: neutralizing autoantibodies against IL-17A and 1L-22 are involved in patients with autoimmune polyendocrinopathy and ectodermal dystrophy syndrome, whereas abnormal T(H)17 proliferation and IL-17 production are observed in the latter. Although various degrees of T(H)17 dysfunction were also observed in most cases of isolated chronic mucocutaneous candidiasis, only in very few families was a distinct mutation detected (caspase recruitment domain family, member 9 [CARD9]), thus indicating certain forms of chronic mucocutaneous candidiasis as monogenic with a Mendelian pattern of inheritance. Hopefully, these data will open the way for further searches for other genes and for introducing new treatment modalities.