AI Article Synopsis
- T cell activation is typically triggered by antigen receptor stimulation, leading to the activation of various signaling pathways, but muscarinic receptors can bypass some of this to activate T cells directly when paired with PLCβ1.
- When primary mouse T cells expressing both hM3Dq and PLCβ1 were preactivated, they showed increased responses to the drug clozapine, including high expression of certain activation markers, but surprisingly had reduced IL-2 production.
- The activation of muscarinic receptors negatively impacted IL-2 production by decreasing its mRNA stability, and further inhibited the pAKT pathway, indicating the importance of this pathway for proper IL-2 release in T cells.
Article Abstract
T cell antigen receptor stimulation induces tyrosine phosphorylation of downstream signaling molecules and the phosphatidylinositol, Ras, MAPK, and PI3 kinase pathways, leading to T cell activation. Previously, we reported that the G-protein-coupled human muscarinic receptor could bypass tyrosine kinases to activate the phosphatidylinositol pathway and induce interleukin-2 production in Jurkat leukemic T cells. Here, we demonstrate that stimulating G-protein-coupled muscarinic receptors (M1 and synthetic hM3Dq) can activate primary mouse T cells if PLCβ1 is coexpressed. Resting peripheral hM3Dq+PLCβ1 (hM3Dq/β1) T cells did not respond to clozapine, an hM3Dq agonist, unless they were preactivated by TCR and CD28 stimulation which increased hM3Dq and PLCβ1 expression. This permitted large calcium and phosphorylated ERK responses to clozapine. Clozapine treatment induced high IFN-γ, CD69, and CD25 expression, but surprisingly did not induce substantial IL-2 in hM3Dq/β1 T cells. Importantly, costimulation of both muscarinic receptors plus the TCR even led to reduced IL-2 expression, suggesting a selective inhibitory effect of muscarinic receptor costimulation. Stimulation of muscarinic receptors induced strong nuclear translocation of NFAT and NFκB and activated AP-1. However, stimulation of hM3Dq led to reduced IL-2 mRNA stability which correlated with an effect on the IL-2 3'UTR activity. Interestingly, stimulation of hM3Dq resulted in reduced pAKT and its downstream pathway. This may explain the inhibitory impact on IL-2 production in hM3Dq/β1T cells. Moreover, an inhibitor of PI3K reduced IL-2 production in TCR-stimulated hM3Dq/β1 CD4 T cells, suggesting that activating the pAKT pathway is critical for IL-2 production in T cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10288620 | PMC |
| http://dx.doi.org/10.1073/pnas.2300987120 | DOI Listing |
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