Peculiar T-cell signaling does not preclude positive selection in the diabetes-prone BB rat.

Various studies have provided evidence that peripheral T-cells from the diabetes-prone BB-DP rat are abnormal in function and cell surface phenotype. These characteristics have often been interpreted as indicators of immaturity and/or short life span. In this study, we describe a CD4-dependent signaling abnormality in BB-DP peripheral T-cells. In spite of the fact that CD4 plays a critical role in thymocyte development, the abnormal signaling does not appear to influence thymocyte development at the stage when the T-cell receptor is rearranged and the recombinase enzymes RAG-1 and RAG-2 transcripts are downregulated. Therefore, if a maturation defect leading to the seeding of the periphery with immature T-cells occurs in the BB-DP rat, it does not preclude the initial selection of the self major histocompatibility complex-restricted T-cell repertoire.

Allogeneic tumor-specific cytotoxic T lymphocytes.

We report the development of cytotoxic T lymphocytes specific for an allogeneic brain tumor in a rat model. DA strain cytotoxic T cell precursors stimulated by an allogeneic tumor (9L gliosarcoma) from the Fischer rat could generate a population of cytotoxic T lymphocytes that lysed the allogeneic 9L tumor but failed to lyse other targets, including Fischer concanavalin-A(ConA)-stimulated lymphoid blast targets. DA T cells depleted of reactivity to the Fischer haplotype (DA-F) retained reactivity to the 9L tumor, demonstrating that T cell precursors with specificity for normal Fischer alloantigens were not required for the generation of a response to the 9L Fischer tumor. The preferential lysis of the tumor target did not simply reflect a higher density of Fischer target antigens on the tumor than that found on normal Fischer ConA blast targets. First, the relative densities of class I antigen on the 9L tumor and normal Fischer ConA blasts were comparable. Second, cytotoxic T cells could not be generated from DA-F precursors when Fischer ConA blasts were used as stimulators. If DA-F T cells were simply responding to the higher density of Fischer antigen found on 9L tumor, it would have been expected that the ConA blasts expressing comparable levels of antigen to that found on the tumor would have generated cytotoxicity for both the 9L and ConA targets. We conclude that the cytotoxic T cells are specific for a determinant expressed only by the tumor. Such tumor-specific cytotoxic T cells could be useful in vivo for adoptive immunotherapy of brain tumors.

A 9L gliosarcoma transplantation model for studying adoptive immunotherapy into the brains of conscious rats.

A rat model for brain tumor immunotherapy is described that closely mimics the type of treatment that could be administered to humans. It involves surgical implantation of a permanent cannula in the brain, through which tumor cells and various effector cells and/or cytokines can be injected. The advantage of this system over more conventional animal surgical procedures is that conscious animals can be treated multiple times while avoiding morbidity and mortality associated with reoperative procedures. Using this system to study adoptive immunotherapy for brain tumors, we provide evidence that the 9L gliosarcoma tumor from the Fischer rat strain can be reduced or destroyed in situ following adoptive immunotherapy with specifically activated cytotoxic T lymphocytes.