The neurokinin 1 receptor and its agonists recruited at the DC-T cell synapse are necessary to promote the survival of activated T cells in vivo

Abstract

Abstract Initiation of cellular immunity relies on T cell activation by Ag-presenting dendritic cells (DCs). By signaling via the neurokinin-1 receptor (NK1R), the neuropeptides hemokinin-1 (HK-1) and substance P (SP) potentiate cellular immunity by mechanisms not fully elucidated. Although SP is mainly secreted by sensory nerves, it is also synthesized and released by T cells. Here, we investigated the role of NK1R and autocrine SP and HK-1 on T cell activation. Using Imagestream flow cytometry (Amnis) to visualize couplets of OVA loaded WT or SP/HK1double KO DCs and responder OT-II CD4 T cells, we observed that the NK1R, SP and HK-1 colocalize with phalloidin at the site of DC-T cell contact. Following CD3/CD28 activation in vitro, we demonstrate that T cells express the full-length NK1R, and that NK1R signaling induces Ca2 flux, activation of calcineurin, NFAT1/2 and NFκB, which results in IL-2 secretion and survival of CD4 and CD8 T cells. These effects were abrogated in NK1RKO orSP/HK1double KO T cells, or by soluble NK1R antagonists. Addition of exogenous SP or HK-1 to CD3/CD28 activated WT T cells did not increase IL-2 secretion indicating that autocrine SP and HK1 released at the DC-T cell synapse suffice to promote T cell survival. In a model of skin DTH in NK1RKO or HK-1/SPdouble KOT cell chimeras, 73 ± 5% of activated (CD44high) CD4 and CD8 T cells die in the draining lymph nodes after priming, and 79%± 7% of the remaining T cells recruited to the skin die in situ following elicitation. In summary, NK1R signaling by autocrine SP and HK1 at the DC-T cell synapse is necessary for the survival of activated T cells and the development of potent cellular immunity.