Pascale Alard scite author profile

The CD4+ CD25+ regulatory T cells play a critical role in controlling autoimmunity, but little is known about their development and maintenance. In this study, we investigated whether CD4+ CD25− cells can convert to CD4+ CD25+ regulatory T cells in vivo under natural conditions. CD4+ CD25− cells from CD45.1+ mice were sorted and transferred into congenic CD45.2+ mice. Converted CD4+ CD25+ cells could be detected in lymphoid organs as early as 1 wk after transfer and by 6 wk after transfer, 5–12% of transferred CD4+ cells expressed CD25. Converted CD4+ CD25+ cells themselves failed to proliferate after stimulation, but could suppress proliferation of responder cells in vitro, and also expressed high levels of Foxp3 mRNA. In addition, CD4+ CD25− cells transferred into thymectomized congenic mice converted to CD4+ CD25+ cells that also suppressed responder cell proliferation in vitro, and expressed high levels of Foxp3 mRNA. Finally, CD4+ CD25− cells transferred into B7−/− mice failed to convert into CD4+ CD25+ cells that exhibit the regulatory phenotype. These data indicate that CD4+ CD25− cells convert into CD4+ CD25+ regulatory T cells spontaneously in vivo and suggest that this conversion process could contribute significantly to the maintenance of the peripheral CD4+ CD25+ regulatory T cell population.

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Reversing Tumor Immune Suppression with Intratumoral IL-12: Activation of Tumor-Associated T Effector/Memory Cells, Induction of T Suppressor Apoptosis, and Infiltration of CD8+ T Effectors

Kilinc

et al. 2006

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A single intratumoral injection of IL-12 and GM-CSF-loaded slow-release microspheres induces T cell-dependent eradication of established primary and metastatic tumors in a murine lung tumor model. To determine how the delivery of cytokines directly to the microenvironment of a tumor nodule induces local and systemic antitumor T cell activity, we characterized therapy-induced phenotypic and functional changes in tumor-infiltrating T cell populations. Analysis of pretherapy tumors demonstrated that advanced primary tumors were infiltrated by CD4+ and CD8+ T cells with an effector/memory phenotype and CD4+CD25+Foxp3+ T suppressor cells. Tumor-associated effector memory CD8+ T cells displayed impaired cytotoxic function, whereas CD4+CD25+Foxp3+ cells effectively inhibited T cell proliferation demonstrating functional integrity. IL-12/GM-CSF treatment promoted a rapid up-regulation of CD43 and CD69 on CD8+ effector/memory T cells, augmented their ability to produce IFN-γ, and restored granzyme B expression. Importantly, treatment also induced a concomitant and progressive loss of T suppressors from the tumor. Further analysis established that activation of pre-existing effector memory T cells was short-lived and that both the effector/memory and the suppressor T cells became apoptotic within 4 days of treatment. Apoptotic death of pre-existing effector/memory and suppressor T cells was followed by infiltration of the tumor with activated, nonapoptotic CD8+ effector T lymphocytes on day 7 posttherapy. Both CD8+ T cell activation and T suppressor cell purge were mediated primarily by IL-12 and required IFN-γ. This study provides important insight into how local IL-12 therapy alters the immunosuppressive tumor milieu to one that is immunologically active, ultimately resulting in tumor regression.

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Gut Microbiota, Immunity, and Disease: A Complex Relationship

Kosiewicz¹,

Zirnheld²,

Alard³

2011

Front. Microbio.

175

123

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Our immune system has evolved to recognize and eradicate pathogenic microbes. However, we have a symbiotic relationship with multiple species of bacteria that occupy the gut and comprise the natural commensal flora or microbiota. The microbiota is critically important for the breakdown of nutrients, and also assists in preventing colonization by potentially pathogenic bacteria. In addition, the gut commensal bacteria appear to be critical for the development of an optimally functioning immune system. Various studies have shown that individual species of the microbiota can induce very different types of immune cells (e.g., Th17 cells, Foxp3+ regulatory T cells) and responses, suggesting that the composition of the microbiota can have an important influence on the immune response. Although the microbiota resides in the gut, it appears to have a significant impact on the systemic immune response. Indeed, specific gut commensal bacteria have been shown to affect disease development in organs other than the gut, and depending on the species, have been found to have a wide range of effects on diseases from induction and exacerbation to inhibition and protection. In this review, we will focus on the role that the gut microbiota plays in the development and progression of inflammatory/autoimmune disease, and we will also touch upon its role in allergy and cancer.

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On the mechanisms by which transforming growth factor‐β2 alters antigen‐presenting abilities of macrophages on T cell activation

et al. 1997

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Peritoneal exudate cells (PEC) incubated with antigen in the presence of transforming growth factor-(TGF)-beta 2 selectively suppress delayed hypersensitivity and IgG2a antibody production when injected intravenously into naive syngeneic recipients. In this study, we have examined in vitro the effects of TGF-beta 2 on the antigen presenting abilities of PEC to activate DO11.10 T cells that express a transgenic T cell receptor that recognizes ovalbumin peptide fragment 323-339 in the context of I-Ad. PEC were pretreated overnight with TGF-beta 2, washed extensively, then co-cultured with DO11.10 T cells in the presence of native OVA or P323-339. We found that TGF-beta 2-treated PEC induced the production of the T helper type 2 (Th2) cytokine, interleukin-4 (IL-4), but unlike untreated PEC, were unable to stimulate the Th1 cytokines, IL-2 and interferon-gamma (IFN-gamma). Furthermore, TGF-beta 2 was produced in an autocrine fashion by TGF-beta 2-treated PEC and was responsible for this shift to a Th2 response. This conclusion was supported by the following results. First, TGF-beta 2-treated PEC were found to express much more TGF-beta 1 and TGF-beta 2 mRNA than untreated PEC. Second, TGF-beta 2-treated PEC secreted large amounts of TGF-beta including its mature form. Third, addition of neutralizing anti-TGF-beta 2 antibodies, but not neutralizing anti-TGF-beta 1 antibodies, restored the ability of antigen-pulsed, TGF-beta 2-pretreated PEC to stimulate DO11.10 T cells to secrete IL-2 and IFN-gamma. These results indicate that antigen-presenting cells that encounter antigen in a TGF-beta-enriched environment (e.g., in the eye) shift responding native T cells toward Th2 responses by producing TGF-beta during antigen presentation.

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Pascale Alard

Conversion of CD4+ CD25− cells into CD4+ CD25+ regulatory T cells in vivo requires B7 costimulation, but not the thymus

Reversing Tumor Immune Suppression with Intratumoral IL-12: Activation of Tumor-Associated T Effector/Memory Cells, Induction of T Suppressor Apoptosis, and Infiltration of CD8+ T Effectors

Gut Microbiota, Immunity, and Disease: A Complex Relationship

On the mechanisms by which transforming growth factor‐β2 alters antigen‐presenting abilities of macrophages on T cell activation

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