IL-35 promotes CD4+Foxp3+ Tregs and inhibits atherosclerosis via maintaining CCR5-amplified Treg-suppressive mechanisms
Ying Shao, William Y. Yang, Fatma Saaoud, Charles Drummer IV, Yu Sun, Keman Xu, Yifan Lu, Huimin Shan, Ethan M. Shevach, Xiaohua Jiang, Hong Wang, Xiaofeng Yang
Ying Shao, William Y. Yang, Fatma Saaoud, Charles Drummer IV, Yu Sun, Keman Xu, Yifan Lu, Huimin Shan, Ethan M. Shevach, Xiaohua Jiang, Hong Wang, Xiaofeng Yang
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Research Article Cardiology Inflammation

IL-35 promotes CD4+Foxp3+ Tregs and inhibits atherosclerosis via maintaining CCR5-amplified Treg-suppressive mechanisms

Abstract

Tregs play vital roles in suppressing atherogenesis. Pathological conditions reshape Tregs and increase Treg-weakening plasticity. It remains unclear how Tregs preserve their function and how Tregs switch into alternative phenotypes in the environment of atherosclerosis. In this study, we observed a great induction of CD4+Foxp3+ Tregs in the spleen and aorta of ApoE–/– mice, accompanied by a significant increase of plasma IL-35 levels. To determine if IL-35 devotes its role in the rise of Tregs, we generated IL-35 subunit P35–deficient (IL-35P35–deficient) mice on an ApoE–/– background and found Treg reduction in the spleen and aorta compared with ApoE–/– controls. In addition, our RNA sequencing data show the elevation of a set of chemokine receptor transcripts in the ApoE–/– Tregs, and we have validated higher CCR5 expression in ApoE–/– Tregs in the presence of IL-35 than in the absence of IL-35. Furthermore, we observed that CCR5+ Tregs in ApoE–/– have lower Treg-weakening AKT-mTOR signaling, higher expression of inhibitory checkpoint receptors TIGIT and PD-1, and higher expression of IL-10 compared with WT CCR5+ Tregs. In conclusion, IL-35 counteracts hyperlipidemia in maintaining Treg-suppressive function by increasing 3 CCR5-amplified mechanisms, including Treg migration, inhibition of Treg weakening AKT-mTOR signaling, and promotion of TIGIT and PD-1 signaling.

Authors

Ying Shao, William Y. Yang, Fatma Saaoud, Charles Drummer IV, Yu Sun, Keman Xu, Yifan Lu, Huimin Shan, Ethan M. Shevach, Xiaohua Jiang, Hong Wang, Xiaofeng Yang

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Figure 7

Hyperlipidemia promotes Treg transcriptomic reprogramming into more activated status with enrichment of multiple immunosuppressive classes of genes.

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Hyperlipidemia promotes Treg transcriptomic reprogramming into more acti...
(A) RNA-Seq was performed in isolated CD4+Foxp3+ Tregs from ApoE–/– (n = 4) and WT mice (n = 3). (B) The Volcano plot shows that hyperlipidemia significantly modulates the transcriptomes of ApoE–/– splenic Tregs versus WT controls. The differentially expressed (DE) genes with –log10 P > 1.3 (P < 0.05), |log2FC| > 0.58 (fold change, |FC| > 1.5), are labeled in red. (C) Gene set enrichment assay(GSEA) was performed, and top 10 classes of genes enriched in ApoE–/– (red, with positive normalized enrichment score [NES]) and WT Tregs (blue, with negative NES) were shown. (D) Selected marker genes such as CD45Ra, CD62l (Sell), T-bet (Tbx21), Ror-γt (Rorc), CD25 (Il2ra), Ctla-4, and Helios (Ikzf2) were verified in Tregs by flow cytometry. (E) Heatmap shows the mapping results to the subsets transcriptomes of the best characterized 6 clusters identified by single-cell RNA-Seq recently reported (59) showed that the most similar patterns were found in the S100a4hiS100a6hi cluster 1 Tregs, which were with the most strongly activated phenotypes. Bar chart shows the frequencies of the expressions of Treg effector molecules from the RNA-Seq. FPKM, fragments per kilobase of transcript per million mapped reads (t test; * P < 0.05, ** P < 0.01).