Direct Expansion of Functional CD25+ CD4+ Regulatory T Cells by Antigen-processing Dendritic Cells

Yamazaki, Sayuri; Iyoda, Tomonori; Tarbell, Kristin V.; Olson, Katherine E.; Velinzon, Klara; Inaba, Kayo; Steinman, Ralph M.

doi:10.1084/jem.20030422

Cited by 795 publications

(742 citation statements)

References 54 publications

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“…Interactions with the microbiota may provide a constant activation of T cells and induce continuous production of IL-2 by nonregulatory T cells as originally proposed by Papiernik et al [46]. IL-2 has proven crucial for the expansion and survival of Treg [47,48]. This concept is further supported by the observation that mice deficient of IL-2 develop colitis and autoimmune manifestations [46,[49][50][51].…”

Section: Discussionmentioning

confidence: 89%

“…Studies have shown that TLR-activated DC can reverse Treg anergy, suggesting that this could override suppression and permit protective immunity towards pathogens [52,53]. However, it has been demonstrated that Treg proliferation is transient, that Treg can return to their anergic and suppressive state, and that the proliferation expands the Treg population [47]. Other studies have reported that CD4 + T cells [54] and CD4 + CD25 + express several TLR and can be activated by LPS [55], which suggests a more direct influence of bacteria or bacterial products on Treg.…”

Section: Discussionmentioning

confidence: 99%

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Impaired regulatory T cell function in germ‐free mice

et al. 2006

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Regulatory T cells (Treg) are crucial for the maintenance of tolerance to auto-antigens and harmless exogenous antigens. Here, we studied the role of the commensal microbiota for the development and function of Treg. CD4 + CD25 + T cells were obtained from peripheral lymph nodes (PLN) and mesenteric lymph nodes (MLN) of germ-free (GF) and conventional (conv) NMRI mice and tested for phenotype and functional suppressive capacity. CD4 + CD25 + T cells from GF mice showed a lower relative gene expression of fork head box p3 gene (Foxp3) and were not as potent suppressors in vitro as CD4 + CD25 + T cells from conv animals. Intracellular staining for Foxp3 and CTLA-4 revealed proportional and regional differences in putative Treg subsets between conv and GF mice. Fewer of the CD4 + CD25 + T cells in GF MLN expressed Foxp3 and CTLA-4, while the expression of these markers was similar amongst the CD4 + CD25 + T cells in PLN of conv and GF mice. The largest difference between conv and GF Treg was observed in the liver draining celiac lymph node, where GF mice had fewer putative Treg as compared to conv mice. We propose that the presence of a microbial flora favors the development of a fully functional Treg population. IntroductionRegulatory T cells down-regulate unwanted and exaggerated immune reactions to auto-antigens as well as innocuous environmental antigens. Different subsets of Treg have been defined. Natural CD4 + CD25 + Treg are positively selected for tissue-specific self-Ag in the thymus and exert their suppressive effect by cell-cell contact-dependent mechanisms [1]. Deficiency in the Treg population or neonatal thymectomy result in multiorgan autoimmune diseases [2][3][4][5][6][7][8]. Treg are characterized by a dense surface expression of CD25 (the a-chain of the IL-2-receptor), glucocorticoidinduced TNF receptor (GITR) and intracellular CTLA-4, however, these markers may be present on activated T cells. CD4 + CD25 + Tregs appear to be unique in transcribing the fork head box p3 gene (Foxp3) transcription factor [6,9], which enable their identification either with PCR are or newly developed mAb to the Foxp3 protein. Lack of a functional Foxp3 gene result in the severe autoimmune syndrome IPEX (immune dysregulation, polyendocrinopathy, enteropathy, X-linked syndrome), characterized by organ-specific autoimmunity, colitis and high IgE levels [10,11]. Mice with spontaneous or induced mutations in the Foxp3 gene that impair Foxp3 expression fail to develop CD4 + CD25 + Treg and exhibit a syndrome similar to IPEX [5,6].Other subsets of Treg are induced in the periphery and are referred to as Th3 [12][13][14] and Tr1 cells [15][16][17][18][19] can also generate Treg. This implies that the state of the APC and the local cytokine milieu, e.g. in the normal gut where both IL-10 and TGF-b are abundant, can determine the outcome of an immune reaction, and that Treg are induced under these circumstances.The aim of this study was to investigate the phenotype and functionality of CD4 + CD25 + Treg from germ-free (GF) ...

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Section: Discussionmentioning

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Impaired regulatory T cell function in germ‐free mice

et al. 2006

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“…Due to the possible role of DC in sustaining T reg proliferation [10] we tested whether BM-derived DC from CD40KO differ from those of BALB/c mice in such function. T reg proliferation was 60% less when Ab to CD3 was presented by mature DC from CD40KO than wt mice (Fig.…”

Section: Lacking Cd40 Are Defective In Sustaining T Reg Proliferationmentioning

confidence: 99%

CD40/CD40L interaction regulates CD4⁺CD25⁺ T reg homeostasis through dendritic cell‐produced IL‐2

et al. 2005

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CD4 + CD25 + regulatory T cells (T reg) development and homeostasis require IL-2 and costimulation through same TNF-receptor family members. CD40KO mice have reduced number of T reg in peripheral blood, thymus and spleen. Herein we show that naive T reg express low basal level of CD40L that is upregulated upon TCR-triggered mediated activation. Treatment of wt mice with Ab blocking CD40/CD40L interaction results in a fast decrease in T reg number that rapidly recovers upon Ab withdrawal. CFSE-labeled T reg from wt mice injected into CD40KO, but not wild-type (wt) mice, showed reduced survival and proliferation in homeostatic setting. In vitro, dendritic cells from CD40KO mice but not wt mice produce diminished amount of IL-2 upon T reg encounter and are impaired in expanding T reg, a defect corrected by the addition of rIL-2. Accordingly, four daily IL-2 administrations to CD40KO mice normalize T reg number by promoting both their survival and homeostatic proliferation. Such IL-2 effect is transient since T reg number returns to the low constitutive level described in CD40KO mice within 5 days upon IL-2 withdrawal thus suggesting that IL-2 is persistently needed to assure T reg homeostasis.

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“…In agreement with this, importantly, we showed that such a defect in the MRL/lpr DC function could be fully restored by exogenous IL-2. IL-2 has been shown to be essential in the Treg induction by DC in various systems, both in an antigen-specific and nonspecific manner [50][51][52], although different findings were also reported [53]. It remains to be determined as to whether the T cells upon stimulation by the DC [51], or DC themselves, or both of the cell types together, could be the direct source of IL-2.…”

Section: Discussionmentioning

confidence: 95%

“…IL-2 has been shown to be essential in the Treg induction by DC in various systems, both in an antigen-specific and nonspecific manner [50][51][52], although different findings were also reported [53]. It remains to be determined as to whether the T cells upon stimulation by the DC [51], or DC themselves, or both of the cell types together, could be the direct source of IL-2. In addition, DC can also produce IL-15 [48,49,54], but whether or not and how this cytokine is involved in Treg induction is still to be clarified [53,55].…”

Section: Discussionmentioning

confidence: 95%

Immunological mechanisms and clinical implications of regulatory T cell deficiency in a systemic autoimmune disorder: Roles of IL‐2 versus IL‐15

et al. 2008

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Regulatory T cell deficiency is evident in patients with lupus, but the casual relationship and underlying mechanism leading to Treg deficiency are unclear. We analyzed the Treg profile, induction and functions of Treg in a lupus mouse model. A characteristic agedependent biphasic change of Treg frequency was observed in the MRL/lpr mice, which developed a spontaneous lupus-like disease. After an early increase, Treg frequency in the peripheral lymphoid organs rapidly declined with age. Functionally, Treg from both young and old MRL/lpr mice were fully competent in suppressing the wild-type MRL/+ T effector cell (Teff) responses. Adoptive transfer of MRL/+ Treg markedly suppressed clinical disease in the MRL/lpr mice. We demonstrated that the reduced Treg frequency was a result of insufficient peripheral Treg expansion due to defective MRL/lpr Teff in IL-2 production, and the associated defects in dendritic cells, which could be fully restored by exogenous IL-2. In the absence of IL-2, MRL/lpr Teff but not MRL/lpr Treg were highly responsive to IL-15 and could expand rapidly due to enhanced IL-15R expression and IL-15 synthesis. These findings thus provide a clear causal relationship and immunological mechanism underlying Treg deficiency and systemic autoimmunity.

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Direct Expansion of Functional CD25+ CD4+ Regulatory T Cells by Antigen-processing Dendritic Cells

Cited by 795 publications

References 54 publications

Impaired regulatory T cell function in germ‐free mice

Impaired regulatory T cell function in germ‐free mice

CD40/CD40L interaction regulates CD4⁺CD25⁺ T reg homeostasis through dendritic cell‐produced IL‐2

Immunological mechanisms and clinical implications of regulatory T cell deficiency in a systemic autoimmune disorder: Roles of IL‐2 versus IL‐15

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Direct Expansion of Functional CD25+ CD4+ Regulatory T Cells by Antigen-processing Dendritic Cells

Cited by 795 publications

References 54 publications

Impaired regulatory T cell function in germ‐free mice

Impaired regulatory T cell function in germ‐free mice

CD40/CD40L interaction regulates CD4+CD25+ T reg homeostasis through dendritic cell‐produced IL‐2

Immunological mechanisms and clinical implications of regulatory T cell deficiency in a systemic autoimmune disorder: Roles of IL‐2 versus IL‐15

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CD40/CD40L interaction regulates CD4⁺CD25⁺ T reg homeostasis through dendritic cell‐produced IL‐2