Tania Gajardo scite author profile

Tania Gajardo

2Publications

64Citation Statements Received

138Citation Statements Given

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127

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Imagine Institute for Genetic Diseases, University of Chile, Universidad de Los Andes, Chile

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Exogenous interleukin‐33 targets myeloid‐derived suppressor cells and generates periphery‐induced Foxp3⁺ regulatory T cells in skin‐transplanted mice

et al. 2015

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SummaryInterleukin-33 (IL-33) has been a focus of study because of its variety of functions shaping CD4 + T-cell biology. In the present work, we evaluated the modulatory effect of IL-33 on suppressor cells in an in vivo transplantation model. C57BL/6 wild-type mice were grafted with syngeneic or allogeneic skin transplants and treated with exogenous IL-33 daily. After 10 days of treatment, we analysed draining lymph node cellularity and found in allogeneic animals an increment in myeloid-derived suppressor cells, which co-express MHC-II, and become enriched upon IL-33 treatment. In line with this observation, inducible nitric oxide synthase and arginase 1 expression were also increased in allogeneic animals upon IL-33 administration. In addition, IL-33 treatment up-regulated the number of favours an anti-inflammatory or tolerogenic state by skewing cytokine production. Therefore, our data suggest a potential use of IL-33 to prevent allograft rejection, bringing new therapeutics to the transplantation field.

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Neuropilin‐1⁺ regulatory T cells promote skin allograft survival and modulate effector CD4⁺ T cells phenotypic signature

et al. 2014

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During allograft rejection, several immune cell types, including dendritic cells, CD4(+) and CD8(+) T cells among others, recirculate between the graft and the nearest draining lymph node, resulting in immunity against the 'foreign' tissue. Regulatory CD4(+) T cells are critical for controlling the magnitude of the immune response and may act to promote or maintain tolerance. They are characterized by the expression of CD25 and Foxp3, and more recently, Neuropilin-1 (Nrp1). The role of these suppressor cells during allograft rejection is not well understood. Our work shows that during graft rejection, there is an increase in the frequency of total CD4(+) T cells expressing Nrp1, but the expression of this molecule is downregulated in the regulatory CD4(+) T-cell compartment. Interestingly, the expression of the transcription factor Eos, which renders cell function stability, is also reduced. In adoptive transfer experiments, we observed that during allograft rejection: (i) natural regulatory CD4(+) T cells maintain high levels of Nrp1 expression, (ii) effector CD4(+) T cells (Nrp1(-)) become Nrp1(+)Eos(+) and (iii) the transfer of regulatory CD4(+) T cells (Nrp1(+)) can promote allograft survival, and also enhance the gain of Nrp1 and Eos on T-effector cells. Together, these data suggest that rejection occurs, at least in part, through the loss of Nrp1 expression on regulatory CD4(+) T cells, their stability or both. Additionally, the transfer of regulatory CD4(+) T cells (based on Nrp1 expression) permits the acceptance of the allograft, placing Nrp1 as a new target for immune therapy.

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Tania Gajardo

Exogenous interleukin‐33 targets myeloid‐derived suppressor cells and generates periphery‐induced Foxp3⁺ regulatory T cells in skin‐transplanted mice

Neuropilin‐1⁺ regulatory T cells promote skin allograft survival and modulate effector CD4⁺ T cells phenotypic signature

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Tania Gajardo

Exogenous interleukin‐33 targets myeloid‐derived suppressor cells and generates periphery‐induced Foxp3+ regulatory T cells in skin‐transplanted mice

Neuropilin‐1+ regulatory T cells promote skin allograft survival and modulate effector CD4+ T cells phenotypic signature

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Exogenous interleukin‐33 targets myeloid‐derived suppressor cells and generates periphery‐induced Foxp3⁺ regulatory T cells in skin‐transplanted mice

Neuropilin‐1⁺ regulatory T cells promote skin allograft survival and modulate effector CD4⁺ T cells phenotypic signature