1) Chronic granulomatous disease (CGD) is a primary immunodeficiency caused by mutations in the multicomponent NADPH oxidase (phagocyte oxidase, NOX2) complex. During FY14, through collaboration with the Neutrophil Monitoring Laboratory (NML) managed by Douglas Kuhns, PhD ( Leidos, Inc.), we have provided molecular diagnoses of at least 16 new CGD patients. Immunodetection of components of the NADPH oxidase was used to identify 16 subjects with CGD (out of 27 screened). Nucleic acid sequencing determined the mutations in 50 patients and family members representing all major CGD genotypes. This year, a patient with p40phox-deficiency (one of two known patients with this mutation world-wide) was identified by the NML. Ongoing studies of the role of p40phox in the stimulus-specific activation of NOX2 are underway. During FY 2014, the NML made significant progress in developing methods to differentiate mutations in the coding gene for p47phox with those occurring in two known pseudogenes for this protein. In addition to CGD, the NML identified the mutations in 45 previously undiagnosed patients with WHIM disease, Leukocyte adhesion deficiency, neutropenia, and myeloperoxidase deficiency. During FY14, we have also collaborated with the Genetic Immunotherapy Section of the LHD to evaluate novel gene therapy approaches to correct stem cells from CGD patients and with the (Su) to evaluate a patient with a mutation in a previously unrecognized factor that regulates innate immune function in phagocytes. 2) Our group continues its clinical and laboratory studies of the emerging Gram-negative CGD pathogen, Granulibacter bethesdensis. During FY14, we screened 59 CGD samples and 97 normal samples for seropositivity toward G. bethesdensis methanol dehydrogenase, an immunodominant antigen. We continue to monitor seropositivity in culture-confirmed patients to evaluate our hypothesis that this organism can establish persistent, clinically unapparent infections. 3) During FY14, we continued to accrue subjects for NIH Protocol #10-I-0029 Non-invasive Assessment of Atherosclerosis in Patients with CGD and other Disorders of the Immune System (current total = 85 subjects). Atherosclerosis, the major cause of heart disease, is thought to relate to dysregulated inflammation in the cardiac blood vessels and over production of reactive oxygen species (ROS) has been implicated. We hypothesized that CGD patients, who have deficient production of reactive oxygen species by their phagocytes and other cells, may be protected from developing atherosclerosis. The primary endpoint of this study was the assessment of atherosclerotic plaque formation/calcium deposition by CT, MRI and other imaging methodologies, in these and other patients with in-born disorders of immune function. We found significant differences in the incidences of pre-clinical signs of atherosclerosis in CGD patients and a manuscript describing these findings is currently under review. Through collaboration with the National Center for Advancing Translational Sciences (NCATS), we are evaluating chemical inhibitors of the enzyme responsible for ROS production, specifically the NADPH oxidase that is mutated in CGD. 4) Several years ago, two patients with an undiagnosed disease characterized by increased infections and neutropenia were seen at the NIH. These subjects bore similarities to 2 other families of patients seen over a time frame of 30 years by the LHD. Cellular studies indicated an abnormal neutrophil morphology with frequent nuclear herniations, subnormal chemotaxis, and aberrant cytoskeletal structure. We have identified, by biochemical and molecular approaches, the molecular defect in this disease and have submitted this paper for publication. (5) In normal PMN, activation of NOX2 results in a rapid (within seconds to minutes) depletion of NADPH and hypoxia. Given the central roles of oxygen and NAPDH in metabolism, we compared the metabolomes of PMN before and after activation of NOX2 in a pilot study and found unexpected alterations in PMN metabolism. We are repeating these studies in PMN from patients with CGD to determine the exact role of ROS in these processes.

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39
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2014
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Myles, Ian A; Anderson, Erik D; Earland, Noah J et al. (2018) TNF overproduction impairs epithelial staphylococcal response in hyper IgE syndrome. J Clin Invest 128:3595-3604
Wingfield, L R; Liu, J; Hu, M et al. (2018) Nine patients with chronic granulomatous disease having selective neck dissection for severe cervical lymphadenitis. Clin Otolaryngol 43:335-340
Straughan, David M; McLoughlin, Kaitlin C; Mullinax, John E et al. (2018) The Changing Paradigm of Management of Liver Abscesses in Chronic Granulomatous Disease. Clin Infect Dis 66:1427-1434
van de Geer, Annemarie; Nieto-Patlán, Alejandro; Kuhns, Douglas B et al. (2018) Inherited p40phox deficiency differs from classic chronic granulomatous disease. J Clin Invest 128:3957-3975
Chu, Jessica; Smelkinson, Margery G; Dorward, David W et al. (2017) Early Intracellular Trafficking of Granulibacter bethesdensis in Human Macrophages. Infect Immun 85:
Marciano, Beatriz E; Zerbe, Christa S; Falcone, E Liana et al. (2017) X-linked carriers of chronic granulomatous disease: Illness, lyonization, and stability. J Allergy Clin Immunol :
Violi, Francesco; Carnevale, Roberto; Loffredo, Lorenzo et al. (2017) NADPH Oxidase-2 and Atherothrombosis: Insight From Chronic Granulomatous Disease. Arterioscler Thromb Vasc Biol 37:218-225
Ognibene, Frederick P; Gallin, John I; Baum, Bruce J et al. (2016) Outcomes From the NIH Clinical Research Training Program: A Mentored Research Experience to Enhance Career Development of Clinician-Scientists. Acad Med 91:1684-1690
Kuhns, Douglas B; Fink, Danielle L; Choi, Uimook et al. (2016) Cytoskeletal abnormalities and neutrophil dysfunction in WDR1 deficiency. Blood 128:2135-2143
Feingold, Paul L; Quadri, Humair S; Steinberg, Seth M et al. (2016) Thoracic Surgery in Chronic Granulomatous Disease: a 25-Year Single-Institution Experience. J Clin Immunol 36:677-83

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