Ex vivo reprogramming of tumor-reactive immune cells from FVBN202 mice bearing lung metastatic mammary carcinoma: an immunotherapeutic opportunity revealed against recurrence

Hall, Charles

23 July 2013

Metastatic breast cancer treatment has seen few advances in recent years, yet treatment resistance continues to rise, causing disease recurrence. A pilot study was performed to determine the efficacy of ex vivo expansion and reprogramming of tumor-reactive immune cells from experimental metastatic tumor-sensitized mice. Also, phenotypic changes in tumors due to metastasis or tumor microenvironment influences were characterized. Metastatic neu+ mouse mammary carcinoma (mMMC) and its distant relapsing neu-antigen-negative variant (mANV) were investigated in FVBN202 mice. Tumor-reactive central memory CD8+ T cells and activated NK/NKT cells were successfully reprogrammed and expanded during 6-day expansion from mMMC- and/or mANV-sensitized mice, resulting in tumor-specific cytotoxicity. mMMC exhibited a flexible neu-expression pattern and acquired stem-like, tumorigenic phenotype following metastasis while mANV remained stable except decreased tumorigenicity. Myeloid-derived suppressor cell (MDSC) levels were not increased. Adoptive cellular therapy (ACT) with reprogrammed tumor-reactive immune cells may prove effective prophylaxis against metastatic or recurrent breast cancer.

Metastatic breast cancer

Immunotherapy

Her2/neu

IFN-γ

CD44+CD24-/low stem-like phenotype

Tumorigenicity

Mouse mammary carcinoma

Invasion

Common gamma-chain cytokines

Central memory T cells

Natural Killer cells

Natural Killer T cells

Tumor Microenvironment

Tumor-specific cytotoxicity

Prophylactic adoptive cellular therapy

Medicine and Health Sciences