Abstract
BackgroundNY-BR-1 has been described as a breast cancer associated differentiation antigen with intrinsic immunogenicity giving rise to endogenous T and B cell responses. The current study presents the first murine tumor model allowing functional investigation of NY-BR-1-specific immune responses in vivo.MethodsA NY-BR-1 expressing tumor model was established in DR4tg mice based on heterotopic transplantation of stable transfectant clones derived from the murine H2 compatible breast cancer cell line EO771. Composition and phenotype of tumor infiltrating immune cells were analyzed by qPCR and FACS. MHC I binding affinity of candidate CTL epitopes predicted in silico was determined by FACS using the mutant cell line RMA-S. Frequencies of NY-BR-1 specific CTLs among splenocytes of immunized mice were quantified by FACS with an epitope loaded Db-dextramer. Functional CTL activity was determined by IFNγ catch or IFNγ ELISpot assays and statistical analysis was done applying the Mann Whitney test. Tumor protection experiments were performed by immunization of DR4tg mice with replication deficient recombinant adenovirus followed by s.c. challenge with NY-BR-1 expressing breast cancer cells.ResultsOur results show spontaneous accumulation of CD8+ T cells and F4/80+ myeloid cells preferentially in NY-BR-1 expressing tumors. Upon NY-BR-1-specific immunization experiments combined with in silico prediction and in vitro binding assays, the first NY-BR-1-specific H2-Db-restricted T cell epitope could be identified. Consequently, flow cytometric analysis with fluorochrome conjugated multimers showed enhanced frequencies of CD8+ T cells specific for the newly identified epitope in spleens of immunized mice. Moreover, immunization with Ad.NY-BR-1 resulted in partial protection against outgrowth of NY-BR-1 expressing tumors and promoted intratumoral accumulation of macrophages.ConclusionThis study introduces the first H2-Db-resctricted CD8+ T cell epitope-specific for the human breast cancer associated tumor antigen NY-BR-1. Our novel, partially humanized tumor model enables investigation of the interplay between HLA-DR4-restricted T cell responses and CTLs within their joint attack of NY-BR-1 expressing tumors.
Highlights
Breast cancer antigen 1 (NY-BR-1) has been described as a breast cancer associated differentiation antigen with intrinsic immunogenicity giving rise to endogenous T and B cell responses
Generation of a NY-BR-1 expressing breast cancer cell line In order to establish an ectopic NY-BR-1 expressing tumor model in HLA-DR4tg mice we used the mammary carcinoma cell line Murine breast cancer cell line (EO771) derived from Mouse strain (C57BL/6) mice, sharing a syngeneic H2 background with DR4tg mice (H2b)
EO771 cells were transfected with a NY-BR-1 encoding expression plasmid pcDNA3.1(−)zeo-NY-BR-1 and NY-BR-1 expression among the Zeocin selected bulk culture was verified by qRT-PCR and Western blot analysis (Additional file 1: Figure S1A, B)
Summary
NY-BR-1 has been described as a breast cancer associated differentiation antigen with intrinsic immunogenicity giving rise to endogenous T and B cell responses. New treatment strategies are needed in order to further improve the clinical outcome of breast cancer patients, since standard therapy approaches are often associated with severe side effects [2] or can even induce therapeutic resistance [3] At this point, immunological treatment strategies exploiting the activity of autologous tumor-reactive T cells might offer an attractive complement or alternative to classical treatment regimens. Adoptive T cell therapy, in combination with checkpoint inhibitors, has yielded promising results in various clinical settings [4, 5] The concept of this therapeutic approach relies on the notion that activated tumor antigen-specific T cells selectively attack tumor cells leaving healthy tissue unaffected. The breast cancer associated differentiation antigen NY-BR-1 meets this criterion as it was found to be strongly overexpressed in breast tumors originating from ductal epithelial cells [6]
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