Transplantation of mouse HSCs genetically modified to express a CD4-restricted TCR results in long-term immunity that destroys tumors and initiates spontaneous autoimmunity
Sung P. Ha, … , Hal E. Broxmeyer, Christopher E. Touloukian
Sung P. Ha, … , Hal E. Broxmeyer, Christopher E. Touloukian
Published November 15, 2010
Citation Information: J Clin Invest. 2010;120(12):4273-4288. https://doi.org/10.1172/JCI43274.
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Research Article Genetics

Transplantation of mouse HSCs genetically modified to express a CD4-restricted TCR results in long-term immunity that destroys tumors and initiates spontaneous autoimmunity

Abstract

The development of effective cancer immunotherapies has been consistently hampered by several factors, including an inability to instigate long-term effective functional antitumor immunity. This is particularly true for immunotherapies that focus on the adoptive transfer of activated or genetically modified mature CD8+ T cells. In this study, we sought to alter and enhance long-term host immunity by genetically modifying, then transplanting, mouse HSCs. We first cloned a previously identified tumor-reactive HLA-DR4–restricted CD4+ TCR specific for the melanocyte differentiation antigen tyrosinase-related protein 1 (Tyrp1), then constructed both a high-expression lentivirus vector and a TCR-transgenic mouse expressing the genes encoding this TCR. Using these tools, we demonstrated that both mouse and human HSCs established durable, high-efficiency TCR gene transfer following long-term transplantation into lethally irradiated mice transgenic for HLA-DR4. Recipients of genetically modified mouse HSCs developed spontaneous autoimmune vitiligo that was associated with the presence of a Th1-polarized memory effector CD4+ T cell population that expressed the Tyrp1-specific TCR. Most importantly, large numbers of CD4+ T cells expressing the Tyrp1-specific TCR were detected in secondary HLA-DR4–transgenic transplant recipients, and these mice were able to destroy subcutaneously administered melanoma cells without the aid of vaccination, immune modulation, or cytokine administration. These results demonstrate the creation of what we believe to be a novel translational model of durable lentiviral gene transfer that results in long-term effective immunity.

Authors

Sung P. Ha, Nicholas D. Klemen, Garrett H. Kinnebrew, Andrew G. Brandmaier, Jon Marsh, Giao Hangoc, Douglas C. Palmer, Nicholas P. Restifo, Kenneth Cornetta, Hal E. Broxmeyer, Christopher E. Touloukian

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Figure 8

Transplant recipients exhibit a TEM phenotype and react spontaneously to tumor ex vivo.

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Transplant recipients exhibit a TEM phenotype and react spontaneously to...
(A) PB samples at 6 months post-transplantation were obtained and stained with antibodies against CD4, Tyrp1 Ultimer, CD44, CD45RB, and CD62L. LV-TCR transplant CD4+Ultimer+ cells exhibited a TEM phenotype (CD45RBloCD62LloCD44hi), while the polyclonal CD4+Ultimer and CD4+ control population exhibited a more generalized effector profile (CD45RBhiCD62LintCD44hi), in contrast with naive CD4+Ultimer+ cells (CD45RBhiCD62LhiCD44lo) from endogenous nontransplanted TCR Tg. (B) Summary of activation status of all CD4+ subpopulations. (C) Gene-modified T cells exhibited a Th1-polarized cytokine profile in response to specific peptide and tumor. Splenocytes from 6-month-old LV-TCR and LV-GFP transplants were stimulated ex vivo for 24 hours with peptide (Tyrp1277–297 or HA306–318) or tumor (MC38-DR4 or B16-DR4). Cytokine release (IFN-γ) was measured by ELISA. Data (mean ± SEM; n = 5 per group) and flow cytometry are representative of 3 independent experiments.