Ashley E. Mahne scite author profile

Agonistic monoclonal antibodies (mAb) targeting the T-cell receptor coregulatory molecule GITR exert potent therapeutic activities in preclinical tumor models. Although anti-GITR mAb are thought to act by depleting and destabilizing the intratumoral T regulatory cell (Treg) population, the precise mechanism of action is obscure. Here, we addressed this issue using a Treg fate-mapping approach, which revealed that Treg loss was primarily due to cell depletion, with minimal evidence of Treg conversion to a non-Foxp3-expressing population.

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Antigen Recognition in the Islets Changes with Progression of Autoimmune Islet Infiltration

Lindsay

Corbin

Mahne

et al. 2015

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In type 1 diabetes, the pancreatic islets are an important site for therapeutic intervention since immune infiltration of the islets is well established at diagnosis. Therefore, understanding the events that underlie the continued progression of the autoimmune response and islet destruction is critical. Islet infiltration and destruction is an asynchronous process, making it important to analyze the disease process on a single islet basis. To understand how T cell stimulation evolves through the process of islet infiltration we analyzed the dynamics of T cell movement and interactions within individual islets of spontaneously autoimmune non-obese diabetic (NOD) mice. Using both intra-vital and explanted 2-photon islet imaging, we defined a correlation between increased islet infiltration and increased T cell motility. Early T cell arrest was antigen dependent and due, at least in part, to antigen recognition through sustained interactions with CD11c+ antigen presenting cells (APCs). As islet infiltration progressed, T cell motility became antigen-independent, with a loss of T cell arrest and sustained interactions with CD11c+ APCs. These studies suggest that the autoimmune T cell response in the islets may be temporarily dampened during the course of islet infiltration and disease progression.

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GITR ligation enhances functionality of tumor‐infiltrating T cells in hepatocellular carcinoma

Beek

Zhou

Doukas

et al. 2019

Intl Journal of Cancer

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No curative treatment options are available for advanced hepatocellular carcinoma (HCC). Anti‐PD1 antibody therapy can induce tumor regression in 20% of advanced HCC patients, demonstrating that co‐inhibitory immune checkpoint blockade has therapeutic potential for this type of cancer. However, whether agonistic targeting of co‐stimulatory receptors might be able to stimulate anti‐tumor immunity in HCC is as yet unknown. We investigated whether agonistic targeting of the co‐stimulatory receptor GITR could reinvigorate ex vivo functional responses of tumor‐infiltrating lymphocytes (TIL) freshly isolated from resected tumors of HCC patients. In addition, we compared GITR expression between TIL and paired samples of leukocytes isolated from blood and tumor‐free liver tissues, and studied the effects of combined GITR and PD1 targeting on ex vivo TIL responses. In all three tissue compartments, CD4 + FoxP3 + regulatory T cells (Treg) showed higher GITR − expression than effector T‐cell subsets. The highest expression of GITR was found on CD4 + FoxP3 hi CD45RA − activated Treg in tumors. Recombinant GITR‐ligand as well as a humanized agonistic anti‐GITR antibody enhanced ex vivo proliferative responses of CD4 + and CD8 + TIL to tumor antigens presented by mRNA‐transfected autologous B‐cell blasts, and also reinforced proliferation, IFN‐γ secretion and granzyme B production in stimulations of TIL with CD3/CD28 antibodies. Combining GITR ligation with anti‐PD1 antibody nivolumab further enhanced tumor antigen‐specific responses of TIL in some, but not all, HCC patients, compared to either single treatment. In conclusion, agonistic targeting of GITR can enhance functionality of HCC TIL, and may therefore be a promising strategy for single or combinatorial immunotherapy in HCC.

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Therapeutic Regulatory T Cells Subvert Effector T Cell Function in Inflamed Islets To Halt Autoimmune Diabetes

Mahne

Klementowicz

Chou

et al. 2015

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Therapeutic regulatory T cells (Tregs) can reverse pre-established autoimmune pathology. In this study, we aimed to determine the means by which therapeutic Tregs control islet inflammation using a mouse model of autoimmune diabetes. Islet antigen-specific Tregs infiltrated inflamed islets soon after infusion into pre-diabetic mice, which was quickly followed by a selective reduction of mRNA associated with effector T cells in the islets. This change was partially due to decreased CD8+ T cell accumulation in the tissue. CD8+ T cells that remained in the islets after Treg treatment were able to engage dendritic cells in a manner similar to that found in untreated mice, consistent with the retention of an activated phenotype by islet dendritic cells shortly following Treg treatment. Nonetheless, Treg treatment abrogated IFNγ production by intra-islet CD8+ and CD4+ T cells at the protein level with minimal effect on IFNγ mRNA. Sustained expression of IFNγ protein by effector T cells was dependent on common γ chain cytokine activation of the mTOR pathway, which was suppressed in islet CD8+ T cells in vivo following Treg treatment. These multifaceted mechanisms underlie the efficacy of therapeutic Treg subversion of effector T cell functions at the site of inflammation to restore normal tissue homeostasis.

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Characterization and Comparison of GITR Expression in Solid Tumors

Vence

Bucktrout

Curbelo

et al. 2019

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Purpose: Determine the differential effect of a FcgR-binding, mIgG2a anti-GITR antibody in mouse tumor models, and characterize the tumor microenvironment for the frequency of GITR expression in T-cell subsets from seven different human solid tumors.Experimental Design: For mouse experiments, wild-type C57BL/6 mice were subcutaneously injected with MC38 cells or B16 cells, and BALB/c mice were injected with CT26 cells. Mice were treated with the anti-mouse GITR agonist antibody 21B6, and tumor burden and survival were monitored. GITR expression was evaluated at the single-cell level using flow cytometry (FC). A total of 213 samples were evaluated for GITR expression by IHC, 63 by FC, and 170 by both in seven human solid tumors: advanced hepatocellular carcinoma, non-small cell lung cancer (NSCLC), renal cell carcinoma, pancreatic carcinoma, head and neck carcinoma, melanoma, and ovarian carcinoma.Results: The therapeutic benefit of 21B6 was greatest in CT26 followed by MC38, and was least in the B16 tumor model. The frequency of CD8 T cells and effector CD4 T cells within the immune infiltrate correlated with response to treatment with GITR antibody. Analysis of clinical tumor samples showed that NSCLC, renal cell carcinoma, and melanoma had the highest proportions of GITR-expressing cells and highest per-cell density of GITR expression on CD4 þ Foxp3 þ T regulatory cells. IHC and FC data showed similar trends with a good correlation between both techniques.Conclusions: Human tumor data suggest that NSCLC, renal cell carcinoma, and melanoma should be the tumor subtypes prioritized for anti-GITR therapy development.

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Ashley E. Mahne

Dual Roles for Regulatory T-cell Depletion and Costimulatory Signaling in Agonistic GITR Targeting for Tumor Immunotherapy

Antigen Recognition in the Islets Changes with Progression of Autoimmune Islet Infiltration

GITR ligation enhances functionality of tumor‐infiltrating T cells in hepatocellular carcinoma

Therapeutic Regulatory T Cells Subvert Effector T Cell Function in Inflamed Islets To Halt Autoimmune Diabetes

Characterization and Comparison of GITR Expression in Solid Tumors

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