Jeanette Baker scite author profile

Purpose The goals of the study were to elucidate the immune mechanisms that contribute to desirable complete remissions of murine colon tumors treated with single radiation dose of 30 Gy. This dose is at the upper end of the ablative range used clinically to treat advanced or metastatic colorectal, liver, and non-small cell lung tumors. Experimental design Changes in the tumor immune microenvironment of single tumor nodules exposed to radiation were studied using 21 day (>1 cm in diameter) CT26 and MC38 colon tumors. These are well-characterized weakly immunogenic tumors. Results We found that the high dose radiation transformed the immunosuppressive tumor microenvironment resulting in an intense CD8+ T cell tumor infiltrate, and a loss of myeloid derived suppressor cells (MDSCs). The change was dependent on antigen cross-presenting CD8+ dendritic cells, secretion of IFN-γ, and CD4+ T cells expressing CD40L. Anti-tumor CD8+ T cells entered tumors shortly after radiotherapy, reversed MDSC infiltration, and mediated durable remissions in an IFN-γ dependent manner. Interestingly, extended fractionated radiation regimen did not result in robust CD8+ T cell infiltration. Conclusion For immunologically sensitive tumors, these results indicate that remissions induced by a short course of high dose radiation therapy depend on the development of anti-tumor immunity that is reflected by the nature and kinetics of changes induced in the tumor cell microenvironment. These results suggest that systematic examination of the tumor immune microenvironment may help in optimizing the radiation regimen used to treat tumors by adding a robust immune response.

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In vivo analyses of early events in acute graft-versus-host disease reveal sequential infiltration of T-cell subsets

Beilhack

et al. 2005

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Graft-versus-host disease (GVHD) is a major obstacle in allogeneic hematopoietic cell transplantation. Given the dynamic changes in immune cell subsets and tissue organization, which occur in GVHD, localization and timing of critical immunological events in vivo may reveal basic pathogenic mechanisms. To this end, we transplanted luciferase-labeled allogeneic splenocytes and monitored tissue distribution by in vivo bioluminescence imaging. High-resolution analyses showed initial proliferation of donor CD4 ؉ T cells followed by CD8 ؉ T cells in secondary lymphoid organs with subsequent homing to the intestines, liver, and skin. Transplantation of purified naive T cells caused GVHD that was initiated in secondary lymphoid organs followed by target organ manifestation in gut, liver, and skin. IntroductionAllogeneic hematopoietic cell transplantation (HCT) has proven to be an effective therapy for a variety of life-threatening malignancies. 1 The beneficial effects of HCT are due to the graft-versustumor reaction, which is capable of destroying residual tumor cells that persist after chemotherapy or radiation therapy. 2 However, allogeneic HCT is limited by the immunologic recognition and destruction of host tissues, termed graft-versus-host disease (GVHD). Acute GVHD continues to be a major source of morbidity and mortality following HCT, which limits treatment of a broader spectrum of diseases, such as autoimmune diseases or organ transplant rejection. 3,4 Tissue-specific destruction of GVHD target organs, as gastrointestinal tract, liver, and skin, underlines the importance of migration capacities of alloreactive T lymphocytes. 5,6 In the current study we aimed to determine the time points of organ infiltration and focused on the role of different lymphoid organs in initiating acute GVHD. We used in vivo bioluminescence imaging (BLI) to analyze the migration pattern of whole splenocytes after transplantation into allogeneic recipients. BLI has already proven to be a sensitive and accurate means of characterizing engraftment patterns of hematopoietic stem cells, of monitoring tumor cell growth, and of assessing response to conventional and biological therapies. [7][8][9] We also aimed to clarify the role of different T-cell subsets during GVHD development. It is reported in the literature [10][11][12] that CD4 ϩ effector memory T (T EM ) cells do not cause GVHD. This prompted us to characterize their trafficking and proliferation pattern in vivo, while comparing it to purified naive CD4 ϩ T lymphocytes. Materials and methods MiceFVB/N (H-2 q , Thy1.1) mice and Balb/c mice (H-2 d , Thy1.2) were purchased from Jackson Laboratory (Bar Harbor, ME). The luciferaseexpressing (luc ϩ ) transgenic FVB/N line was generated as previously described. 9 Female heterozygous luc ϩ offspring of the transgenic founder line FVB-L2G85 were used for all transplantation experiments. All animal studies were performed under institutional approval. Flow cytometric cell purification and analysisThe following antibodies were purchased from...

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NK cells mediate reduction of GVHD by inhibiting activated, alloreactive T cells while retaining GVT effects

et al. 2010

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Exogenous TNFR2 activation protects from acute GvHD via host T reg cell expansion

et al. 2016

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Jeanette Baker

Inhibition of CD4+CD25+ regulatory T-cell function by calcineurin-dependent interleukin-2 production

Ablative Tumor Radiation Can Change the Tumor Immune Cell Microenvironment to Induce Durable Complete Remissions

In vivo analyses of early events in acute graft-versus-host disease reveal sequential infiltration of T-cell subsets

NK cells mediate reduction of GVHD by inhibiting activated, alloreactive T cells while retaining GVT effects

Exogenous TNFR2 activation protects from acute GvHD via host T reg cell expansion

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