Enhancing the Anti-Tumor Activity of Breast Cancer-Specific Cytotoxic T Lymphocytes

Abstract

Directing the immune system to attack tumors represents a potential powerful approach to treat breast cancer. Our goals were to engineer the interleukin-2-receptor (IL-2R) in cytotoxic T cells (CTL) to control signal transduction through this receptor and to improve the in vivo efficacy of adoptive CTL immunotherapy. Although we produced a large number of chimeric IL-2R, we were unsuccessful to induce T cells activation through these chimeric molecules upon transfection into T cells. However, we establish a sensitive animal tumor model system to study the interaction of a solid tumor with naive, effector and memory tumor-specific CTL. These studies indicate that naive T cells are ignorant of the tumor, but upon immunization of tumor-bearing mice with tumor-antigen peptide pulsed antigen presenting cells, the naive T cells were activated and mediated anti-tumor immune responses independent of CD4+ T helper cells. Similarly, adoptive transfer of CTL also inhibited tumor growth. Tumor-specific CTL memory T cells persisted in vivo for a long period after adoptive transfer in vivo provided the CTL were generated in vitro with IL-2. These memory CTL efficiently inhibited tumor growth suggesting that successful adoptive tumor therapy may depend on culture conditions that favor generation of memory CTL.

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 2001

Accession Number

ADA398065

Entities

Tags