Single-cell transcriptomics reveals variations in monocytes and Tregs between gout flare and remission
Hanjie Yu, Wen Xue, Hanqing Yu, Yaxiang Song, Xinying Liu, Ling Qin, Shu Wang, Hui Bao, Hongchen Gu, Guangqi Chen, Dake Zhao, Yang Tu, Jiafen Cheng, Liya Wang, Zisheng Ai, Dayong Hu, Ling Wang, Ai Peng
Hanjie Yu, Wen Xue, Hanqing Yu, Yaxiang Song, Xinying Liu, Ling Qin, Shu Wang, Hui Bao, Hongchen Gu, Guangqi Chen, Dake Zhao, Yang Tu, Jiafen Cheng, Liya Wang, Zisheng Ai, Dayong Hu, Ling Wang, Ai Peng
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Research Article Immunology Inflammation

Single-cell transcriptomics reveals variations in monocytes and Tregs between gout flare and remission

Abstract

Gout commonly manifests as a painful, self-limiting inflammatory arthritis. Nevertheless, the understanding of the inflammatory and immune responses underlying gout flares and remission remains ambiguous. Here, based on single-cell RNA-Seq and an independent validation cohort, we identified the potential mechanism of gout flare, which likely involves the upregulation of HLA-DQA1+ nonclassical monocytes and is related to antigen processing and presentation. Furthermore, Tregs also play an essential role in the suppressive capacity during gout remission. Cell communication analysis suggested the existence of altered crosstalk between monocytes and other T cell types, such as Tregs. Moreover, we observed the systemic upregulation of inflammatory and cytokine genes, primarily in classical monocytes, during gout flares. All monocyte subtypes showed increased arachidonic acid metabolic activity along with upregulation of prostaglandin-endoperoxide synthase 2 (PTGS2). We also detected a decrease in blood arachidonic acid and an increase in leukotriene B4 levels during gout flares. In summary, our study illustrates the distinctive immune cell responses and systemic inflammation patterns that characterize the transition from gout flares to remission, and it suggests that blood monocyte subtypes and Tregs are potential intervention targets for preventing recurrent gout attacks and progression.

Authors

Hanjie Yu, Wen Xue, Hanqing Yu, Yaxiang Song, Xinying Liu, Ling Qin, Shu Wang, Hui Bao, Hongchen Gu, Guangqi Chen, Dake Zhao, Yang Tu, Jiafen Cheng, Liya Wang, Zisheng Ai, Dayong Hu, Ling Wang, Ai Peng

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Figure 5

CellChat analysis highlighting the intercellular communication between acute gout flare and remission.

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CellChat analysis highlighting the intercellular communication between a...
(A) Comparison of the inferred interaction number (left) and interaction strength (right) in gout flare and remission. (B and C) Dot plots of the inferred interaction number (B) and interaction strength (C) between acute gout flare and remission. Blue lines indicate that the displayed communication is increased in gout remission, whereas red lines indicate its increase during gout flare. (D) Comparison of the significant ligand/receptor pairs between gout flare and remission, which contribute to signaling from classical monocytes (CM) and nonclassical monocytes (NCM) to DCs, intermediate monocytes (IM), and T cells (TC), including Treg, KLRB1+CD4+ TC, cytotoxic CD8+ TC, and B cells (BC). Dot color reflects communication probabilities, and dot size represents the computed P values. The empty space indicates a communication probability of zero. The P values were calculated based on 1-sided permutation test.