Mast cell–expressed Mrgprb2/MRGPRX2 mediates gout pain and inflammation via a neuroimmune axis
Lin Yang, Chengxi Liu, Jin Xiao, Yu Song, Huan Chen, Dan Li, Cong Zou, Tao Hong, Yinglan Liu, Dake Qi, Nathachit Limjunyawong, Wenjie Liu, Lintao Qu
Lin Yang, Chengxi Liu, Jin Xiao, Yu Song, Huan Chen, Dan Li, Cong Zou, Tao Hong, Yinglan Liu, Dake Qi, Nathachit Limjunyawong, Wenjie Liu, Lintao Qu
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Research Article Immunology Neuroscience

Mast cell–expressed Mrgprb2/MRGPRX2 mediates gout pain and inflammation via a neuroimmune axis

Abstract

Acute severe joint pain is a major symptom in gouty arthritis (GA), and its adequate treatment represents an unmet medical need. Mrgprb2, a specific mast cell receptor, has been implicated in the generation of chronic pain by mobilizing mast cell degranulation, yet its significance in GA pain and joint inflammation is still not well defined. Here, we found that Mrgprb2 was expressed in mouse synovial mast cells. In a murine model of GA, acute blockade or genetic deletion of Mrgprb2 significantly attenuated arthritis pain and hyperexcitability of joint nociceptors with significant reductions in innate immune cell recruitment in the synovium. Under naive conditions, activation of synovial Mrgprb2 was sufficient to excite peripheral terminals of joint nociceptors to induce acute joint hypernociception via the mobilization of mast cell degranulation. Additionally, the level of the neuropeptide substance P (SP) was elevated in the synovium of GA model mice. Using humanized MRGPRX2-knockin mice, we revealed that SP contributed to joint pain and inflammation by activating mast cells through Mrgprb2/MRGPRX2. These findings suggest that synovial mast cell–expressed Mrgprb2/MRGPRX2 merits consideration as a key neuroimmune player and a potential therapeutic target for treating GA pain and joint inflammation.

Authors

Lin Yang, Chengxi Liu, Jin Xiao, Yu Song, Huan Chen, Dan Li, Cong Zou, Tao Hong, Yinglan Liu, Dake Qi, Nathachit Limjunyawong, Wenjie Liu, Lintao Qu

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Figure 7

Activation of synovial Mrgprb2 by C48/80 activates peripheral terminals of joint sensory neurons in vivo.

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Activation of synovial Mrgprb2 by C48/80 activates peripheral terminals ...
(A) Schematic of in vivo DRG imaging in anesthetized mice. Figure created in BioRender (Qu L, 2026, https://BioRender.com/tvek5ah). (B) Left column: Representative DiI fluorescence (red) in cell bodies of L4 DRG in Pirt-Cre-GCamp6 mice that were retrogradely labeled with ankle joint injection of DiI into either Mrgprb2+/+ or Mrgprb2–/– mice (2 mg/mL, 10 μL). Right columns: GCamp6 signals (green) in the same view fields before and after stimulation of the receptive field of joint nociceptors with the indicated stimuli. Arrows point to joint nociceptors in Mrgprb2+/+ mice with increased GCamp6 fluorescence when the ankle was pressed with forceps, and 5 minutes after C48/80 (1.5 μg, 10 μL) was injected into the ankle joint, but not after vehicle (Veh; PBS; 10 μL) was injected. By contrast, no increase in GCamp6 fluorescence in joint sensory neurons from Mrgprb2–/– mice was observed after C48/80 injection. Scale bar: 100 μm. (C) Quantitative analysis of Ca2+ responses to vehicle and C48/80 in joint sensory neurons of WT mice (Veh: n = 8 mice; C48/80: n = 7 mice) and Mrgprb2–/– mice (Veh: n = 6 mice; C48/80: n = 6 mice). ***P < 0.001 vs. Veh; ###P < 0.001 vs. Mrgprb2+/+; 2-way ANOVA (repeated measures) followed by Bonferroni’s correction. (D) Size frequency distribution of joint sensory neurons of WT mice responding to vehicle (PBS; n = 8 mice) and C48/80 (n = 7 mice). ***P < 0.001 vs. Veh; unpaired 2-tailed Student’s t test.