Abstract
Fas ligand (FasL) mediates both apoptotic and inflammatory responses in the immune system. FasL function critically depends on the different forms of FasL; soluble Fas ligand lacking the transmembrane and cytoplasmic domains is a poor mediator of apoptosis, whereas full-length, membrane-associated FasL (mFasL) is pro-apoptotic. mFasL can be released from T lymphocytes, via the secretion of mFasL-bearing exosomes. mFasL in exosomes retains its activity in triggering Fas-dependent apoptosis, providing an alternative mechanism of cell death that does not necessarily imply cell-to-cell contact. Diacylglycerol kinase alpha (DGKalpha), a diacylglycerol (DAG)-consuming enzyme, is involved in the attenuation of DAG-derived responses initiated at the plasma membrane that lead to T lymphocyte activation. Here we studied the role of DGKalpha on activation-induced cell death on a T cell line and primary T lymphoblasts. The inhibition of DGKalpha increases the secretion of lethal exosomes bearing mFas ligand and subsequent apoptosis. On the contrary, the overactivation of the DGKalpha pathway inhibits exosome secretion and subsequent apoptosis. DGKalpha was found associated with the trans-Golgi network and late endosomal compartments. Our results support the hypothesis that the DGKalpha effect on apoptosis occurs via the regulation of the release of lethal exosomes by the exocytic pathway, and point out that the spatial orchestration of the different pools of DAG (plasma membrane and Golgi membranes) by DGKalpha is crucial for the control of cell activation and also for the regulation of the secretion of lethal exosomes, which in turn controls cell death.
Highlights
T cell receptor (TCR)1 stimulation triggers the generation of several second messengers such as calcium and diacylglycerol (DAG) (1)
The evidence showing that the Ras/ERK pathway is required for activation signals leading to positive selection of thymocytes but is irrelevant for activation-induced cell death (AICD) of thymocytes (8) supports the view that these antithetical responses to TCR stimulation are distinguishable
Constitutively active forms of Diacylglycerol kinases (DGKs)␣ located at the plasma membrane attenuate T lymphocyte activation (12), and the inhibition of DGK␣ induces prolonged activation signals (12) via sustained signaling through RasGRP (Ras guanyl nucleotide exchange factor) (13, 14)
Summary
T cell receptor (TCR)1 stimulation triggers the generation of several second messengers such as calcium and diacylglycerol (DAG) (1). Pretreatment with the DGK inhibitor increased CCh-induced apoptosis, whereas anti-Fas (Fig. 1B) or actinomycin D (not shown), which evoke death pathways that do not involve DAG metabolism (28), were refractory to DGK␣ inhibition.
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