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Combined single-cell transcriptome and immune repertoire analysis reveals hepatic and renal immune injury by heat stroke
Min Zhang, Bin Wang, Ding Sun, Xizhao Chen, Yena Zhou, Jin Yao, Liwen Du, Zehao Zhang, Hao Li, Zeyu Qu, Lu Chen, Qing Luo, Jie Zhang, Xinye Jin, Xiaowei Cheng, Jingxue Niu, Qinrui Xing, Xuezeng Tan, Tao Wang, Jie Liu, Lei Li, Qing Song, Xiangmei Chen, Yizhi Chen
Min Zhang, Bin Wang, Ding Sun, Xizhao Chen, Yena Zhou, Jin Yao, Liwen Du, Zehao Zhang, Hao Li, Zeyu Qu, Lu Chen, Qing Luo, Jie Zhang, Xinye Jin, Xiaowei Cheng, Jingxue Niu, Qinrui Xing, Xuezeng Tan, Tao Wang, Jie Liu, Lei Li, Qing Song, Xiangmei Chen, Yizhi Chen
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Research Article Inflammation Nephrology

Combined single-cell transcriptome and immune repertoire analysis reveals hepatic and renal immune injury by heat stroke

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Abstract

Heat stroke (HS) is the most severe heat-related emergency, and its pathophysiology remains largely unknown, especially for exertional HS (EHS), which affects younger populations, athletes, and manual workers. Herein, we performed single-cell-transcriptomics, T cell receptor sequencing, and flow cytometry of PBMCs from 9 healthy control participants, 9 patients with heat exhaustion, and 9 patients with EHS to explore complex immunological responses associated with HS pathobiology. We showcased that granzyme-positive T cells and CD56dim NK cells with high cytotoxicity features and IL-1B+NLRP3+ monocytes with high inflammation and pyroptosis scores were enriched in HS, while the CD161+ T cells with innate immune-like, low cytotoxicity, and clonal expansion features were reduced in HS. Importantly, elevated granzyme-positive T and NK cells might interact with monocytes to induce pyroptosis of hepatic and renal cells and target organ injuries, and blocking the NLRP3 inflammasome pathway prior to the induction could alleviate organ injury in HS. This study offers deeper insights into the pathogenesis of HS, supporting the development of optimal treatment strategies.

Authors

Min Zhang, Bin Wang, Ding Sun, Xizhao Chen, Yena Zhou, Jin Yao, Liwen Du, Zehao Zhang, Hao Li, Zeyu Qu, Lu Chen, Qing Luo, Jie Zhang, Xinye Jin, Xiaowei Cheng, Jingxue Niu, Qinrui Xing, Xuezeng Tan, Tao Wang, Jie Liu, Lei Li, Qing Song, Xiangmei Chen, Yizhi Chen

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Figure 5

Characterization of HS-associated myeloid cells with prominent inflammasome and pyroptosis features.

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Characterization of HS-associated myeloid cells with prominent inflammas...
(A) Subclustering of myeloid cells identified 11 cell subclusters. (B) Dot plot illustrating the scaled expression of functional marker genes across each myeloid cell subcluster. (C) UMAP plot (left) and violin plot (right) displaying the expression of NLRP3 inflammasome feature scores in each myeloid cell subcluster. (D) UMAP plot (left) and violin plot (right) showing the expression of pyroptosis feature scores in each myeloid cell subcluster. (E) Bar plot illustrating the relative contribution of each of the 10 myeloid cell subclusters in different sample groups. P values were obtained using the 1-way Kruskal-Wallis test with post hoc Dunn’s test. (F) Dot plot showing the expression of inflammasome and pyroptosis features in myeloid cell subtypes derived from the HC, HE, and HS groups. (G) Ranking of significantly differentially expressed genes between HS-enriched and HC-enriched myeloid cells. (H) GSEA plot illustrating pathways enriched in HS-associated myeloid cell clusters compared with HC-associated clusters. NES, normalized enrichment score.

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ISSN 2379-3708

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