β1-Integrin– and KV1.3 channel–dependent signaling stimulates glutamate release from Th17 cells
Katharina Birkner, … , Frauke Zipp, Stefan Bittner
Katharina Birkner, … , Frauke Zipp, Stefan Bittner
Published October 29, 2019
Citation Information: J Clin Invest. 2020;130(2):715-732. https://doi.org/10.1172/JCI126381.
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Research Article Autoimmunity Neuroscience Article has an altmetric score of 14

β1-Integrin– and KV1.3 channel–dependent signaling stimulates glutamate release from Th17 cells

Abstract

Although the impact of Th17 cells on autoimmunity is undisputable, their pathogenic effector mechanism is still enigmatic. We discovered soluble N-ethylmaleimide–sensitive factor attachment receptor (SNARE) complex proteins in Th17 cells that enable a vesicular glutamate release pathway that induces local intracytoplasmic calcium release and subsequent damage in neurons. This pathway is glutamine dependent and triggered by binding of β1-integrin to vascular cell adhesion molecule 1 (VCAM-1) on neurons in the inflammatory context. Glutamate secretion could be blocked by inhibiting either glutaminase or KV1.3 channels, which are known to be linked to integrin expression and highly expressed on stimulated T cells. Although KV1.3 is not expressed in CNS tissue, intrathecal administration of a KV1.3 channel blocker or a glutaminase inhibitor ameliorated disability in experimental neuroinflammation. In humans, T cells from patients with multiple sclerosis secreted higher levels of glutamate, and cerebrospinal fluid glutamine levels were increased. Altogether, our findings demonstrate that β1-integrin– and KV1.3 channel–dependent signaling stimulates glutamate release from Th17 cells upon direct cell-cell contact between Th17 cells and neurons.

Authors

Katharina Birkner, Beatrice Wasser, Tobias Ruck, Carine Thalman, Dirk Luchtman, Katrin Pape, Samantha Schmaul, Lynn Bitar, Eva-Maria Krämer-Albers, Albrecht Stroh, Sven G. Meuth, Frauke Zipp, Stefan Bittner

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Figure 5

Th17 cells produce glutamate in a KV1.3-mediated manner.

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Th17 cells produce glutamate in a KV1.3-mediated manner. (A) Kcna3 mRNA ...
(A) Kcna3 mRNA expression was upregulated after 4 hours and 24 hours of TCR stimulation with anti-CD3 and anti-CD28 (n = 17). Patch-clamp experiments were performed on Th17 cells and showed blockade of KV1.3 currents after application of MgTX (n = 9). (B) Western blot staining for KCNA3 and GAPDH was performed in Th17 cells (1 representative example of 4 is shown). (C) Glutamate levels after 24 hours in culture media were assessed, comparing TCR-stimulated Th17 cells with or without MgTX treatment (n = 6 per group). (D) Th17-differentiated cells were transfected with the GFP-based glutamate sensor iGluSnFR. Staining for CD4 was also performed, and GFP intensity was analyzed with ImageJ software. Scale bars: 5 μm (top row) and 10 μm (bottom row). Data indicate the mean ± SEM. (E) Glutamate levels were not significantly different between stimulated Th17 cells from WT and KCNA3–/– mice treated with MgTX (n = 3–4 per group). Data indicate the mean ± SEM. *P < 0.05, by 1-way ANOVA with Dunnett’s post hoc test (A, C, and D) or Mann-Whitney U test (E).