Neutrophils utilize immunoglobulins (Igs) to clear antigen, but their role in Ig production is unknown. Here we identified neutrophils around the marginal zone (MZ) of the spleen, a B cell area specialized in T-independent Ig responses to circulating antigen. Neutrophils colonized peri-MZ areas after post-natal mucosal colonization by microbes and enhanced their B-helper function upon receiving reprogramming signals from splenic sinusoidal endothelial cells, including interleukin 10 (IL-10). Splenic neutrophils induced Ig class switching, somatic hypermutation and antibody production by activating MZ B cells through a mechanism involving the cytokines BAFF, APRIL and IL-21. Neutropenic patients had fewer and hypomutated MZ B cells and less preimmune Igs to T-independent antigens, which indicates that neutrophils generate an innate layer of antimicrobial Ig defense by interacting with MZ B cells.
Until recently, thrombocytopenia 2 (THC2) was considered an exceedingly rare form of autosomal dominant thrombocytopenia and only 2 families were known. However, we recently identified mutations in the 5-untranslated region of the ANKRD26 gene in 9 THC2 families. Here we report on 12 additional pedigrees with ANKRD26 mutations, 6 of which are new. Because THC2 affected 21 of the 210 families in our database, it has to be considered one of the less rare forms of inherited thrombocytopenia. Analysis of all 21 families with ANKRD26 mutations identified to date revealed that thrombocytopenia and bleeding tendency were usually mild. Nearly all patients had no platelet macrocytosis, and this characteristic distinguishes THC2 from most other forms of inherited thrombocytopenia. In the majority of cases, platelets were deficient in glycoprotein Ia and ␣-granules, whereas in vitro platelet aggregation was normal. Bone marrow examination and serum thrombopoietin levels suggested that thrombocytopenia was derived from dysmegakaryopoiesis. Unexplained high values of hemoglobin and leukocytes were observed in a few cases. An unexpected finding that warrants further investigation was a high incidence of acute leukemia. Given the scarcity of distinctive characteristics, the ANKRD26-related thrombocytopenia has to be taken into consideration in the differential diagnosis of isolated thrombocytopenias. (Blood. 2011;117(24):6673-6680)
BackgroundImmunodysregulation polyendocrinopathy enteropathy x-linked(IPEX) syndromeis a monogenic autoimmune disease caused by FOXP3 mutations. Because it is a rare disease, the natural history and response to treatments, including allogeneic hematopoietic stem cell transplantation (HSCT) and immunosuppression (IS), have not been thoroughly examined.ObjectiveThis analysis sought to evaluate disease onset, progression, and long-term outcome of the 2 main treatments in long-term IPEX survivors.MethodsClinical histories of 96 patients with a genetically proven IPEX syndrome were collected from 38 institutions worldwide and retrospectively analyzed. To investigate possible factors suitable to predict the outcome, an organ involvement (OI) scoring system was developed.ResultsWe confirm neonatal onset with enteropathy, type 1 diabetes, and eczema. In addition, we found less common manifestations in delayed onset patients or during disease evolution. There is no correlation between the site of mutation and the disease course or outcome, and the same genotype can present with variable phenotypes. HSCT patients (n = 58) had a median follow-up of 2.7 years (range, 1 week-15 years). Patients receiving chronic IS (n = 34) had a median follow-up of 4 years (range, 2 months-25 years). The overall survival after HSCT was 73.2% (95% CI, 59.4-83.0) and after IS was 65.1% (95% CI, 62.8-95.8). The pretreatment OI score was the only significant predictor of overall survival after transplant (P = .035) but not under IS.ConclusionsPatients receiving chronic IS were hampered by disease recurrence or complications, impacting long-term disease-free survival. When performed in patients with a low OI score, HSCT resulted in disease resolution with better quality of life, independent of age, donor source, or conditioning regimen.
The chemokine receptor CXCR4 and its functional ligand, CXCL12, are essential regulators of development and homeostasis of hematopoietic and lymphoid organs. Heterozygous truncating mutations in the CXCR4 intracellular tail cause a rare genetic disease known as WHIM syndrome (warts, hypogammaglobulinemia, infections, myelokathexis), whose pathophysiology remains unclear. We report CXCR4 function in 3 patients with WHIM syndrome carrying heterozygous truncating mutations of CXCR4. We show that CXCR4 gene mutations in WHIM patients do not affect cell surface expression of the chemokine receptor and its internalization upon stimulation with CXCL12. Moreover, no significant differences in calcium mobilization in response to CXCL12 are found. However, the chemotactic response of both polymorphonuclear cells and T lymphocytes in response to CXCL12 is increased. IntroductionWHIM syndrome is a rare disease characterized by warts, hypogammaglobulinemia, recurrent respiratory bacterial infections, and myelokathexis, defined as the presence of an increased proportion of mature myeloid cells with degenerative changes in the bone marrow, associated with severe neutropenia in the peripheral blood. [1][2][3] This condition, most often inherited as an autosomal dominant trait, is caused by heterozygous truncating mutations in the C-terminus tail of the chemokine receptor CXCR4. 4 CXCR4 is the only cognate receptor for the CXC-chemokine L12 (CXCL12, or stromal-derived factor-1␣ ). 5 CXCL12 is constitutively produced by stromal and endothelial cells (ECs) ubiquitously; the highest concentrations of CXCL12 are found in bone marrow, spleen red pulp, and lymph node medulla. CXCR4-CXCL12 interaction plays a key role in regulating bone marrow homeostasis [6][7][8][9] and is involved in lymphocyte trafficking. 10,11 Chemotaxis and integrin-mediated adhesion are the main cellular responses to CXCL12 9,12-16 ; in addition, CXCR4 signaling participates in several cellular activation and proliferation processes. 17,18 Both CXCR4-and CXCL12-deficient mice display a lethal phenotype, with severe impairment of myeloid and B-cell generation, reduced proliferation of both triple-negative and doublepositive thymocytes, and developmental defects in cerebellum, heart, and gut vascularization. These abnormalities illustrate that this pair of molecules plays an indispensable role in controlling cell migration and influences (either directly or indirectly) survival/ proliferation of different cell types during embryogenesis. [19][20][21] Mice reconstituted with progenitor cells infected with CXCL12 intrakine (which prevents surface CXCR4 expression) suffer from impaired hematopoiesis that involves both myeloid and lymphoid cell lineages. 22 AMD3100, a pharmacologic CXCR4 antagonist, induces a rapid mobilization of hematopoietic progenitors and mature cells in a dose-dependent manner. 23 In contrast, overexpression of CXCR4 in transgenic T lymphocytes induces their accumulation in the bone marrow and causes a reduction of these cells in peripheral...
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