TLR4 maintains Treg-mediated protection against adverse outcomes in a model of hepatic surgical stress
Hongji Zhang, Yunwei Zhang, Tianxing Ren, Carolyn Tsung, Peng Song, Peng Xu, Guoliang Wang, Chunyan Cao, Changyan Wang, Ping Sun, Qi Zhang, Yanhong Zhu, Xin Zhong, Yong Guan, Xiaofei Zhang, Han Wang, Jinxiang Zhang, Hui Wang
Hongji Zhang, Yunwei Zhang, Tianxing Ren, Carolyn Tsung, Peng Song, Peng Xu, Guoliang Wang, Chunyan Cao, Changyan Wang, Ping Sun, Qi Zhang, Yanhong Zhu, Xin Zhong, Yong Guan, Xiaofei Zhang, Han Wang, Jinxiang Zhang, Hui Wang
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Research Article Hepatology Immunology Inflammation

TLR4 maintains Treg-mediated protection against adverse outcomes in a model of hepatic surgical stress

Abstract

Surgical stress, such as hepatic ischemia-reperfusion (I/R) injury, induces excessive inflammation and adversely affects liver surgery outcomes. Regulatory T cells (Tregs) are crucial for immune homeostasis, yet their protective mechanisms against liver I/R injury remain unclear. In this study, we demonstrated that decreased hepatic Treg abundance correlates with increased liver injury in patients undergoing hepatic hemangioma resections. In murine models, Treg depletion worsened liver I/R injury. Bulk RNA-seq of hepatic Tregs showed enrichment of Toll-like receptor (TLR) signaling pathways, with flow cytometry identifying TLR4 as the most increased TLR after I/R. Treg-specific Tlr4 knockout mice (Treg-Tlr4–/– mice) exhibited exacerbated liver injury following I/R. Adoptive transfer of WT Tregs, but not Tlr4-deficient Tregs, alleviated liver injury in both Treg-depleted and Treg-Tlr4–/– mice. Transcriptomic analysis revealed that IL-10 production was impaired in Tlr4-deficient Tregs. Mechanistically, Tlr4-deficient Tregs showed reduced activation of the MyD88/ERK/CREB pathway, resulting in diminished IL-10 production. Myd88–/– and IL-10–/– Tregs failed to confer protection against liver I/R injury, whereas exogenous IL-10 administration rescued the hepatic dysfunction in Treg-Tlr4–/– mice. Our findings implicate the vital role of TLR4 in Tregs to mitigate liver I/R injury and offer a potential therapeutic option to reduce postoperative complications following liver surgery.

Authors

Hongji Zhang, Yunwei Zhang, Tianxing Ren, Carolyn Tsung, Peng Song, Peng Xu, Guoliang Wang, Chunyan Cao, Changyan Wang, Ping Sun, Qi Zhang, Yanhong Zhu, Xin Zhong, Yong Guan, Xiaofei Zhang, Han Wang, Jinxiang Zhang, Hui Wang

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Figure 6

Tlr4 deficiency in Tregs impairs Il10 production by disrupting the Myd88/cAMP signaling pathway following liver I/R.

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Tlr4 deficiency in Tregs impairs Il10 production by disrupting the Myd8...
(A) GO analysis of biological processes in WT Tregs before and after liver I/R. (B) Quantitative PCR analysis of Myd88 and Mapk1 mRNA expression in Tregs from sham and I/R WT mice (n = 5 per group). (C) GO analysis of molecular functions of DEGs in hepatic Tregs isolated from Tlr4fl/fl mice and Treg-Tlr4–/– mice following liver I/R. (D) GO analysis of biological processes of DEGs in hepatic Tregs isolated from Tlr4fl/fl mice and Treg-Tlr4–/– mice following liver I/R. (E) Quantitative PCR analysis of Il10 and Tgfb1 mRNA expression in Tregs from Tlr4fl/fl mice and Treg-Tlr4–/– mice (n = 5 per group). (F) KEGG pathway enrichment analysis of DEGs in hepatic Tregs isolated from Tlr4fl/fl mice and Treg-Tlr4–/– mice following liver I/R. Statistical analyses were performed using unpaired, 2-tailed t tests (B) and 2-way ANOVA with Šidák’s post test (E). *P < 0.05, ***P < 0.001. DEGs, differentially expressed genes; GO, Gene Ontology; KEGG, Kyoto Encyclopedia of Genes and Genomes.