Early Consequences of 2,3,7,8-Tetrachlorodibenzo-p-dioxin Exposure on the Activation and Survival of Antigen-Specific T Cells

doi:10.1093/toxsci/kfh245

ToxSci Advance Access originally published online on August 13, 2004
Toxicological Sciences 2004 82(1):129-142; doi:10.1093/toxsci/kfh245

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Early Consequences of 2,3,7,8-Tetrachlorodibenzo-p-dioxin Exposure on the Activation and Survival of Antigen-Specific T Cells

Castle J. Funatake^*, Erica A. Dearstyne^*, Linda B. Steppan^*, David M. Shepherd^*^,1, Elena S. Spanjaard, Ann Marshak-Rothstein and Nancy I. Kerkvliet^*^,2

^* Department of Environmental and Molecular Toxicology, Oregon State University, Corvallis, Oregon 97331, and Department of Microbiology, Boston University School of Medicine, Boston, Massachusetts 02118

Received January 29, 2004; accepted July 30, 2004

TCDD is a potent immunotoxicant that suppresses adaptive immunityby mechanisms that are not well defined. To gain insight atthe level of the T cell, we used the DO11.10 transgenic T-cellreceptor (TCR) mouse model in an adoptive transfer approachto characterize the influence of TCDD on the responsivenessof antigen-specific CD4⁺ T cells in vivo. Flow cytometry wasused to track the response of the OVA-specific transgenic CD4⁺T cells in syngeneic recipients using an antibody specific forthe transgenic TCR (KJ1-26 [KJ]). Consistent with a previousreport, exposure of the recipient mice to TCDD (15 µg/kgpo) did not alter the initial expansion of the CD4⁺KJ⁺ T cellsin the spleen following immunization with OVA but resulted ina significant decline in the number of cells present on andafter day 4. The degree of decline was dependent on the doseof TCDD. On day 3 after OVA injection, a higher percentage ofthe CD4⁺KJ⁺ T cells in the spleens of TCDD-treated mice haddown-regulated the expression of CD62L, a phenotype associatedwith T-cell activation. Also on day 3, an increased number ofCD4⁺KJ⁺ T cells were found in the blood of TCDD-treated mice.However, as in the spleen, the number of CD4⁺KJ⁺ T cells inthe blood rapidly declined on day 4. CD4⁺KJ⁺ T cells in boththe spleen and blood of TCDD-treated mice failed to up-regulateCD11a, an adhesion molecule important for sustained interactionbetween T cells and DC whereas the up-regulation of the adhesionmolecule CD49d was not altered. Based on analysis of cell divisionhistory, CD4⁺KJ⁺ T cells in vehicle-treated mice continued todivide through day 4 whereas CD4⁺KJ⁺ T cells in TCDD-treatedmice showed no further division after day 3. Increased annexinV staining on CD4⁺KJ⁺ T cells in TCDD-treated mice was alsoobserved but not until days 5 and 6. Fas-deficient CD4⁺KJ⁺ Tcells were depleted from the spleen of TCDD-treated mice ina manner similar to wild-type CD4⁺KJ⁺ T cells, suggesting thatFas signaling does not play a critical role in this model. Onthe other hand, gene array analysis of purified CD4⁺KJ⁺ T cellson day 3 showed that the expression of several genes associatedwith cell survival/death were altered by TCDD. Taken together,the results are consistent with our hypothesis that TCDD providesan early but inappropriate activation signal to the antigen-specificT cells that allows, and possibly enhances, the initial activationand proliferation of the T cells, yet at the same time, interfereswith the vital expression of certain adhesion/costimulatorymolecules that serve to enhance the survival of the T cells.These changes result in truncated proliferation, increased T-celldeath, and suppression of the adaptive immune response.

Key Words: TCDD; T cell; activation; apoptosis; CD11a; CD62L.

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