Jun Wang scite author profile

Foxp3 plays a key role in CD4 + CD25 + T reg cell function in mice and represents a specific marker for these cells. Despite the strong association between FOXP3 expression and regulatory function in fresh human T cells, little is known about the dynamics of endogenous FOXP3 expression and its relation to the suppressive function in activated human T cells. Here, we addressed the dynamics of FOXP3 expression during human CD4 + T cell activation by plate-bound anti-CD3 Ab as well as the relationship between its expression and regulatory function at the single-cell level. Our data show that FOXP3 is expressed in a high percentage of activated T cells after in vitro stimulation of human CD4 + CD25 -cells. FOXP3 expression is strongly associated with hyporesponsiveness of activated T cells, but is not directly correlated with their suppressive capabilities, as we demonstrate that it is also expressed in activated nonsuppressive T cells. However, in this nonsuppressive T cell population, FOXP3 expression is transient, while it is stably expressed in activated T cells that do display suppressive function, and in natural CD4 + CD25 ++ T reg cells. These data indicate that expression of endogenous FOXP3, in humans, is not sufficient to induce regulatory T cell activity or to identify T reg cells.

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Induction of regulatory T cells by macrophages is dependent on production of reactive oxygen species

Kraaij¹,

Savage²,

Kooij³

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

234

178

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The phagocyte NAPDH-oxidase complex consists of several phagocyte oxidase (phox) proteins, generating reactive oxygen species (ROS) upon activation. ROS are involved in the defense against microorganisms and also in immune regulation. Defective ROS formation leads to chronic granulomatous disease (CGD) with increased incidence of autoimmunity and disturbed resolution of inflammation. Because regulatory T cells (Tregs) suppress autoimmune T-cell responses and are crucial in down-regulating immune responses, we hypothesized that ROS deficiency may lead to decreased Treg induction. Previously, we showed that in p47 phox -mutated mice, reconstitution of macrophages (Mph) with ROSproducing capacity was sufficient to protect the mice from arthritis. Now, we present evidence that Mph-derived ROS induce Tregs. In vitro, we showed that Mph ROS-dependently induce Treg, using an NADPH-oxidase inhibitor. This finding was confirmed genetically: rat or human CGD Mph with mutated p47 phox or gp91 phox displayed hampered Treg induction and T-cell suppression. However, basal Treg numbers in these subjects were comparable to those in controls, indicating a role for ROS in induction of peripheral Tregs. Induction of allogeneic delayed-type hypersensitivity with p47 phox -mutated Mph confirmed the importance of Mph-derived ROS in Treg induction in vivo. We conclude that NAPDH oxidase activity in Mph is important for the induction of Tregs to regulate T cell-mediated inflammation.chronic granulomatous disease | NADPH oxidase | neutrophil cytosolic oxidase 1 | redox

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Heterogeneous clinical presentation in ICF syndrome: correlation with underlying gene defects

et al. 2013

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Immunodeficiency with centromeric instability and facial anomalies (ICF) syndrome is a primary immunodeficiency, predominantly characterized by agammaglobulinemia or hypoimmunoglobulinemia, centromere instability and facial anomalies. Mutations in two genes have been discovered to cause ICF syndrome: DNMT3B and ZBTB24. To characterize the clinical features of this syndrome, as well as genotype-phenotype correlations, we compared clinical and genetic data of 44 ICF patients. Of them, 23 had mutations in DNMT3B (ICF1), 13 patients had mutations in ZBTB24 (ICF2), whereas for 8 patients, the gene defect has not yet been identified (ICFX). While at first sight these patients share the same immunological, morphological and epigenetic hallmarks of the disease, systematic evaluation of all reported informative cases shows that: (1) the humoral immunodeficiency is generally more pronounced in ICF1 patients, (2) B-and T-cell compartments are both involved in ICF1 and ICF2, (3) ICF2 patients have a significantly higher incidence of intellectual disability and (4) congenital malformations can be observed in some ICF1 and ICF2 cases. It is expected that these observations on prevalence and clinical presentation will facilitate mutation-screening strategies and help in diagnostic counseling.

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Glycan profiling of anti–citrullinated protein antibodies isolated from human serum and synovial fluid

Scherer¹,

Woude²,

Ioan‐Facsinay³

et al. 2010

Arthritis & Rheumatism

191

153

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Objective. Anti-citrullinated protein antibodies (ACPA) exhibit unique specificity for rheumatoid arthritis. However, it is incompletely understood whether and how ACPA contribute to disease pathogenesis. The Fc part of human IgG carries 2 N-linked glycan moieties that are crucial for the structural stability of the antibody and that modulate both its binding affinity to Fc␥ receptors and its ability to activate complement. We undertook this study to analyze Fc glycosylation of IgG1 ACPA in serum and synovial fluid (SF) in order to further characterize the immune response to citrullinated antigens.Methods. ACPA were isolated by affinity purification using cyclic citrullinated peptides as antigen. IgG1 Fc glycosylation was analyzed by mass spectrometry. ACPA IgG1 glycan profiles were compared with glycan profiles of total serum IgG1 obtained from 85 wellcharacterized patients. Glycan profiles of paired SF and serum samples were available from 11 additional patients.Results. Compared with the pool of serum IgG1, ACPA IgG1 lacked terminal sialic acid residues. In SF, ACPA were highly agalactosylated and lacked sialic acid residues, a feature that was not detected for total SF IgG1. Moreover, differential ACPA glycan profiles were detected in rheumatoid factor (RF)-positive and RFnegative patients.Conclusion. ACPA IgG1 exhibit a specific Fclinked glycan profile that is distinct from that of total serum IgG1. Moreover, Fc glycosylation of ACPA differs markedly between SF and serum. Since Fc glycosylation directly affects the recruitment of Fc-mediated effector mechanisms, these data could further our understanding of the contribution of ACPA to disease pathogenesis.Antibodies relevant to tissue pathology in autoimmune diseases are identified based on antigen-binding specificity of the variable region. Only very few autoantibodies, however, mediate pathology by direct interaction with the antigen. In most other cases, the constant region (Fc part) determines antibody-mediated effector functions, such as complement activation, antibodydependent cell-mediated cytotoxicity (ADCC), and engagement of activating or inhibitory Fc receptors (FcR). These Fc-mediated effects are influenced by the amino acid sequence of the Fc part (i.e., antibody isotype and subclass) and by Fc-linked carbohydrate structures. The latter are located in the C␥2 domain of the heavy chain in close proximity to amino acids that interact with FcR and the complement system. Accordingly, Fc-linked carbohydrate structures have recently received increasing attention, since modification of Fc-linked glycan residues of therapeutic antibodies has been shown to strongly influence the therapeutic potential of the antibodies (1-6).

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Jun Wang

Transient expression of FOXP3 in human activated nonregulatory CD4⁺ T cells

Induction of regulatory T cells by macrophages is dependent on production of reactive oxygen species

Heterogeneous clinical presentation in ICF syndrome: correlation with underlying gene defects

Glycan profiling of anti–citrullinated protein antibodies isolated from human serum and synovial fluid

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Jun Wang

Transient expression of FOXP3 in human activated nonregulatory CD4+ T cells

Induction of regulatory T cells by macrophages is dependent on production of reactive oxygen species

Heterogeneous clinical presentation in ICF syndrome: correlation with underlying gene defects

Glycan profiling of anti–citrullinated protein antibodies isolated from human serum and synovial fluid

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Transient expression of FOXP3 in human activated nonregulatory CD4⁺ T cells