Quantitative evaluation of tumor-specific T cells in tumors and lymphoid tissues.

Homing of tumor-specific cytotoxic T lymphocytes (CTLs) to the tumor tissues represents a vital step in procuring an effective anti-tumor immune response. Intratumoral accumulation of tumor-specific CTLs can be supported through local chemokine modulation using immune adjuvants or viral vectors, as well as vaccination, using peptide, protein or cell-based vaccines, including dendritic cell (DC) vaccines. Clinical and pre-clinical studies demonstrate that the current immunotherapy regimens are only effective when high numbers of CTLs are present within the tumor microenvironment (TME). Notably, many types of cancer take advantage of this principle and restrict T cell migration into the tumor, subverting the anti-tumor immune response and allowing uncontrolled tumor growth. This chapter discusses the mechanisms involved in the migration of CTLs into tumors and describes the feasible method of evaluating treatment-induced changes in the numbers of polyclonal tumor-specific CTLs in the TME and lymphoid tissues. The described method is widely applicable to multiple tumor models with wild-type antigen expression patterns, without the need for genetically-manipulated cancer cells or animals expressing defined T cell receptors.