Adenosine A3 agonists reverse neuropathic pain via T cell–mediated production of IL-10
Mariaconcetta Durante, … , Kenneth A. Jacobson, Daniela Salvemini
Mariaconcetta Durante, … , Kenneth A. Jacobson, Daniela Salvemini
Published February 23, 2021
Citation Information: J Clin Invest. 2021;131(7):e139299. https://doi.org/10.1172/JCI139299.
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Concise Communication Neuroscience

Adenosine A3 agonists reverse neuropathic pain via T cell–mediated production of IL-10

Abstract

The A3 adenosine receptor (A3AR) has emerged as a therapeutic target with A3AR agonists to tackle the global challenge of neuropathic pain, and investigation into its mode of action is essential for ongoing clinical development. Immune cell A3ARs, and their activation during pathology, modulate cytokine release. Thus, the use of immune cells as a cellular substrate for the pharmacological action of A3AR agonists is enticing, but unknown. The present study discovered that Rag-KO mice lacking T and B cells, as compared with WT mice, are insensitive to the anti-allodynic effects of A3AR agonists. Similar findings were observed in interleukin-10 and interleukin-10 receptor knockout mice. Adoptive transfer of CD4+ T cells from WT mice infiltrated the dorsal root ganglion (DRG) and restored A3AR agonist-mediated anti-allodynia in Rag-KO mice. CD4+ T cells from Adora3-KO or Il10-KO mice did not. Transfer of CD4+ T cells from WT mice, but not Il10-KO mice, into Il10-KO mice or Adora3-KO mice fully reinstated the anti-allodynic effects of A3AR activation. Notably, A3AR agonism reduced DRG neuron excitability when cocultured with CD4+ T cells in an IL-10–dependent manner. A3AR action on CD4+ T cells infiltrated in the DRG decreased phosphorylation of GluN2B-containing N-methyl-D-aspartate receptors at Tyr1472, a modification associated with regulating neuronal hypersensitivity. Our findings establish that activation of A3AR on CD4+ T cells to release IL-10 is required and sufficient evidence for the use of A3AR agonists as therapeutics.

Authors

Mariaconcetta Durante, Silvia Squillace, Filomena Lauro, Luigino Antonio Giancotti, Elisabetta Coppi, Federica Cherchi, Lorenzo Di Cesare Mannelli, Carla Ghelardini, Grant Kolar, Carrie Wahlman, Adeleye Opejin, Cuiying Xiao, Marc L. Reitman, Dilip K. Tosh, Daniel Hawiger, Kenneth A. Jacobson, Daniela Salvemini

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Figure 3

Functional effects of IL-10 on cell firing in DRG neurons, and CD4+ T cell infiltration in mouse DRG neurons.

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Functional effects of IL-10 on cell firing in DRG neurons, and CD4+ T ce...
(A) Original current-clamp traces recorded by whole-cell patch-clamp technique in a typical naive mouse DRG neuron where IL-10 (0.5 μg/mL) reversibly inhibits AP firing evoked by a depolarizing ramp current injection (1 second; 30 pA; lower inset) once every 30 seconds. Dotted lines indicate the 0 mV level. The number of APs elicited by the current ramp was plotted as a function of time in the same cell (B) or was expressed as pooled data (mean ± SEM) in the bar graph (C, n = 6). *P = 0.0018, paired Student’s t test; scale bars: 300 ms; 50 mV (C). CD4+ T cells (arrow) (magnification ×40) are present in the ipsilateral DRG of the Rag-KO mice reconstituted with CD4+ T cells from WT GFP mice (green, GFP; blue, DAPI) (D, E; n = 7). MRS5980 reduced Tyr1472 phosphorylation of GluN2B in the DRG of Rag-KO mice after adoptive transfer of CD4+ T cells from WT mice (F, n = 9). Density of each p-Tyr1472GluN2B band was calculated relative to α-tubulin. Data are mean ± SEM (E) or mean ± SD (F). *P < 0.05. WT+veh or ipsilateral; P < 0.05 vs. Rag-KO+veh by 2-tailed Student’s t test (E) or 1-way ANOVA (F) with Dunnett’s pair-wise comparisons.