Nicotinic acid adenine dinucleotide phosphate plays a critical role in naive and effector murine t cells but not natural regulatory t cells

Nicotinic acid adenine dinucleotide phosphate (NAADP), the most potent Ca²⁺mobilizing second messenger discovered to date, has been implicated in Ca²⁺ signaling in some lymphomas and T cell clones. In contrast, the role ofNAADPin Ca²⁺ signaling or the identity of the Ca²⁺ stores targeted by NAADP in conventional naive T cells is less clear. In the current study, we demonstrate the importance of NAADP in the generation of Ca²⁺ signals in murine naive T cells. Combining live-cell imaging methods and a pharmacological approach using theNAADP antagonist Ned-19, we addressed the involvement of NAADP in the generation of Ca²⁺ signals evoked by TCR stimulation and the role of this signal in downstream physiological end points such as proliferation, cytokine production, and other responses to stimulation. We demonstrated that acidic compartments in addition to the endoplasmic reticulum were the Ca²⁺ stores that were sensitive to NAADP in naive T cells. NAADP was shown to evoke functionally relevant Ca²⁺ signals in both naive CD4 and naive CD8 T cells. Furthermore, we examined the role of this signal in the activation, proliferation, and secretion of effector cytokines by Th1, Th2, Th17, and CD8 effector T cells. Overall, NAADP exhibited a similar profile in mediating Ca²⁺ release in effector T cells as in their counterpart naive T cells and seemed to be equally important for the function of these different subsets of effector T cells. This profile was not observed for natural T regulatory cells.