Adenosine deaminase deficiency increases thymic apoptosis and causes defective T cell receptor signaling
Sergey G. Apasov, … , Patrick T. Smith, Michail V. Sitkovsky
Sergey G. Apasov, … , Patrick T. Smith, Michail V. Sitkovsky
Published July 1, 2001
Citation Information: J Clin Invest. 2001;108(1):131-141. https://doi.org/10.1172/JCI10360.
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Article

Adenosine deaminase deficiency increases thymic apoptosis and causes defective T cell receptor signaling

Abstract

Adenosine deaminase (ADA) deficiency in humans results in a severe combined immunodeficiency (SCID). This immunodeficiency is associated with severe disturbances in purine metabolism that are thought to mediate lymphotoxicity. The recent generation of ADA-deficient (ADA–/–) mice has enabled the in vivo examination of mechanisms that may underlie the SCID resulting from ADA deficiency. We demonstrate severe depletion of T and B lymphocytes and defects in T and B cell development in ADA–/– mice. T cell apoptosis was abundant in thymi of ADA–/– mice, but no increase in apoptosis was detected in the spleen and lymph nodes of these animals, suggesting that the defect is specific to developing thymocytes. Studies of mature T cells recovered from spleens of ADA–/– mice revealed that ADA deficiency is accompanied by TCR activation defects of T cells in vivo. Furthermore, ex vivo experiments on ADA–/– T cells demonstrated that elevated adenosine is responsible for this abnormal TCR signaling. These findings suggest that the metabolic disturbances seen in ADA–/– mice affect various signaling pathways that regulate thymocyte survival and function. Experiments with thymocytes ex vivo confirmed that ADA deficiency reduces tyrosine phosphorylation of TCR-associated signaling molecules and blocks TCR-triggered calcium increases.

Authors

Sergey G. Apasov, Michael R. Blackburn, Rodney E. Kellems, Patrick T. Smith, Michail V. Sitkovsky

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ADA deficiency is accompanied with defects in TCR signaling pathways in ...
ADA deficiency is accompanied with defects in TCR signaling pathways in vivo and in vitro. (a) Partial phosphorylation of CD3 ζ chain is notably reduced in nonactivated ex vivo thymocytes from ADA–/– mice, whereas ZAP-70 levels are shown to be the same in parallel samples of immunoprecipitates from ex vivo thymocytes harvested from ADA–/– and ADA+/+ littermates. (b) Intracellular Ca2+ mobilization upon ConA stimulation is inhibited by adenosine in normal thymocytes in the presence of the ADA inhibitor EHNA. Thymocytes from ADA+/+ or ADA–/– mice were used for isolation of ZAP-70 immunocomplexes followed by immunoblotting analysis of TCR ζ chain phosphorylation with an anti phosphotyrosine mAb as described in Methods. Anti ZAP-70 mAb’s were used in control immunoblotting. For measurements of calcium flux ADA+/+ thymocytes were preloaded with indo-1 and analyzed on a FACSVantage flow cytometer as described in Methods. The percentages of cells that increase intracellular calcium after stimulation with Concanavalin A are shown on the graphs. Adenosine (100 μΜ) alone or in combination with EHNA (10 μM) was added a minute before the ConA stimulation. Arrow indicates time of injection of T cell–activating stimuli.