In vivo rejection of tumor cells dependent on CD8 cells that kill independently of perforin and FasL

Lee, Sung-Hyung; Bar-Haim, Erez; Machlenkin, Arthur; Goldberger, Ofir; Volovitz, Ilan; Vadai, Ezra; Tzehoval, Esther; Eisenbach, Lea

doi:10.1038/sj.cgt.7700678

Cited by 22 publications

(13 citation statements)

References 44 publications

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“…Although a CCL19-induced TH1-polarized immune response could Cr-release cytotoxicity assay in splenocytes from CCL19-treated mice did not show any enhancement of cytotoxic activity compared with splenocytes from mice vaccinated with pDNA (b-gal) alone. Given the fact that a CCL19-induced increase of tumor rejection was observed in vivo, there are different possible explanations for this discrepancy: (1) chromium release assay does not necessarily detect all cytotoxic mechanisms displayed by effector cells 15 and in vivo rejection of tumor cells by CD8 þ T cells that kill independently of perforin and FasL have been described, 16 (2) CCL19-induced antitumor effects could be mediated (in part) by cells other than T cells. Finally, weak cytotoxic activity might be inherent to the b-gal mouse model and has previously been described.…”

Section: Discussionmentioning

confidence: 99%

CCL19 (ELC) as an adjuvant for DNA vaccination: induction of a TH1-type T-cell response and enhancement of antitumor immunity

et al. 2007

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Coexpression of tumor antigens together with immunomodulatory molecules is a strategy in DNA vaccination aiming at an amplification of the antitumor immune response. Epstein-Barr virus-induced-molecule-1-ligand-chemokine (ELC/CCL19) is a CC chemokine that binds to the chemokine receptor CCR7. CCR7 is expressed on mature dendritic cells (DC) and distinct T-and B-cell subpopulations. CCL19 (ELC) is mainly expressed in secondary lymphoid organs and plays a central role in regulating the encounters between DC and T cells. We asked whether CCL19 is able to augment immunogenicity of a DNA vaccine in a C57BL/6 mouse model with syngeneic MCA205 (b-gal) tumor cells. Mice were vaccinated twice intramuscularly on days 1 and 15 and tumor challenge was performed subcutaneously on day 25. Coadministration of plasmid DNA (pDNA) (b-gal) plus pDNA (CCL19) was compared with pDNA (b-gal), pDNA (CCL19), mock vector and phosphate-buffered saline (PBS) alone. Coexpression of CCL19 resulted in enhancement of a Th1-polarized immune response with substantial improvement of the protective effect of the DNA vaccine. Immunohistochemical staining revealed an increased CD8 þ T-cell infiltration in the tumor tissue of mice that had been immunized with pDNA (b-gal) plus pDNA (CCL19). We conclude that CCL19 is an attractive adjuvant for DNA vaccination able to augment antitumor immunity and that this effect is partially caused by enhanced CD8 þ T-cell recruitment.

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Section: Discussionmentioning

confidence: 99%

CCL19 (ELC) as an adjuvant for DNA vaccination: induction of a TH1-type T-cell response and enhancement of antitumor immunity

et al. 2007

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“…Dobrzanski et al (11) reported that although tumor cytolysis was predominantly perforin-dependent in vitro, the therapeutic effects of CTL-based immunotherapy were dependent, in part, on effector cell -derived LTa in a B16 lung metastasis model. Furthermore, it has been shown that both D122 Lewis lung carcinoma and melanoma were rejected by tumor-specific CTLs through a cytolytic mechanism that was independent of both perforin and Fas pathways in vivo (12,13). These studies suggest that other cytotoxic effector pathways, in addition to perforin and Fas/FasL, play significant roles in the inhibition of tumor growth.…”

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confidence: 86%

Targeting Lymphotoxin β Receptor with Tumor-Specific T Lymphocytes for Tumor Regression

Yang

Din

Browning

et al. 2007

Clinical Cancer Research

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Purpose: One of the impediments of immunotherapy against cancer is the suppression of tumorspecific CTLs in the tumor microenvironment, partly due to the selective inhibition of the perforin pathway and the emergence of Fas-resistant tumors. Therefore, we sought to identify perforinand Fas-independent cytotoxic pathways and explored the potential of targeting LThR with tumor-specific CTLs to induce tumor rejection in vivo. Experimental Design: Fas-resistant tumors were examined for their susceptibility to perforindeficient (pfp) CTLs via CTL adoptive transfer in mouse models of experimental lung metastasis. The specificity of LThR, a cell surface death receptor, in causing tumor rejection by CTLs was analyzed by LThR-specific neutralizing monoclonal antibody in vitro. The specificity and efficacy of LThR in the suppression of established tumors was further investigated by silencing LThR in tumor cells in vivo. Results: pfp CTLs exhibited significant cytotoxicity against Fas-resistant tumors in vivo. The perforin-and Fas-independent cytotoxicity was directly mediated, at least in part, by the adoptively transferred CTLs. It was observed that LThR was expressed on the tumor cell surface, and LTa, LTh, and LIGHT, all of which are ligands for LThR, were either constitutively expressed or activated in the tumor-specific CTLs and primary CD8 + Tcells. Blocking LThR with LThR-specific neutralizing monoclonal antibody decreased CTL cytotoxicity in vitro. Silencing LThR using LThR-specific short hairpin RNA reduced the ability of pfp CTLs to induce tumor rejection in vivo. Conclusion: LThR directly mediates CTL-directed tumor rejection in vivo. Targeting LThR with tumor-specific CTLs is a potential therapeutic approach.

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“…Perforin-deficient mice were reported to be more susceptible to tumor development in some models [5][6][7][8], while other studies found that perforin-deficient CTL were fully capable of exerting anti-tumor activity in vivo [9][10][11][12][13]. Similarly, CD95L-dependent effector mechanisms have been shown to be important in some models [14][15][16] but not in others [9,13,17]. The release of soluble factors represents an additional mechanism by which CD8 T cells could exert anti-tumor activity.…”

Section: Introductionmentioning

confidence: 99%

Solid tumors “melt” from the inside after successful CD8 T cell attack

Blohm¹,

Potthoff²,

Kogel³

et al. 2006

Eur J Immunol

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Adoptive transfer of tumor-specific T cells represents a promising approach for cancer immunotherapy. Here, we visualized the anti-tumor response of CD8 T cells from P14 TCR-transgenic mice specific for the model antigen GP33 by immunohistology. P14 T cells, adoptively transferred into tumor-bearing hosts, induced regression of established 3LL-A9 GP33 and MCA102 GP33 tumors that express GP33 as a tumor-associated model antigen. Strikingly, the visible effects of P14 T cell attack, such as the destruction of the tumor vasculature and accumulation of granulocytes, were predominantly detected inside the tumor mass. In regressing tumors, P14 T cells were found in the intact rim zone but not in central areas that were infiltrated with granulocytes and lacked CD31 + endothelial cells. The rim of P14 T cell-treated tumors showed an increase in vascular density and decrease in hypoxia compared to untreated tumors. Hypoxic areas of tumors are known to exhibit decreased sensitivity to radiation therapy or chemotherapy. Thus, our data also imply that adoptive transfer of tumor-specific CD8 T cells might synergize with radiation therapy or chemotherapy in the elimination of solid tumors in vivo.

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In vivo rejection of tumor cells dependent on CD8 cells that kill independently of perforin and FasL

Cited by 22 publications

References 44 publications

CCL19 (ELC) as an adjuvant for DNA vaccination: induction of a TH1-type T-cell response and enhancement of antitumor immunity

CCL19 (ELC) as an adjuvant for DNA vaccination: induction of a TH1-type T-cell response and enhancement of antitumor immunity

Targeting Lymphotoxin β Receptor with Tumor-Specific T Lymphocytes for Tumor Regression

Solid tumors “melt” from the inside after successful CD8 T cell attack

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