CAR-engineered cytolytic Tregs reverse pulmonary fibrosis and remodel the fibrotic niche with limited CRS
Yun-Han Jiang, Meng Zhou, Meng-Di Cheng, Sai Chen, Ying-Qiang Guo
Yun-Han Jiang, Meng Zhou, Meng-Di Cheng, Sai Chen, Ying-Qiang Guo
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Research Article Immunology Pulmonology Therapeutics

CAR-engineered cytolytic Tregs reverse pulmonary fibrosis and remodel the fibrotic niche with limited CRS

Abstract

Idiopathic pulmonary fibrosis (IPF) is a severe, diffuse, progressive, and fibrosing interstitial disease leading to respiratory failure and death in the absence of organ transplantation. Substantial evidence has confirmed the pivotal role of fibroblasts in the progression of IPF, yet effective therapeutic options are scarce. Single-cell transcriptomics profiling revealed that among the diverse fibroblast subsets, FAP1+ alveolar fibroblasts (AFs) were pivotal for the progression of IPF. On the basis of these findings, we developed FAP1-targeting chimeric antigen receptor cytotoxic effector regulatory T cells (CAR-cTregs), which leveraged the targeted killing advantage of the currently trending CAR-based immunotherapy for tumors and incorporated the immunosuppressive functions of Tregs to mitigate the inflammation caused by both the disease itself and CAR-T cell infusion. Accordingly, CAR-cTregs were constructed to effectively eliminate FAP1+ fibroblasts in vitro. This cytotoxic effect could be abrogated by inhibitors of the granzyme B/perforin pathway. In the bleomycin-induced PF model, CAR-cTregs were found to reverse fibrosis characterized by diminished recruitment of fibrocytes and improved remodeling of epithelial cells. Together, our results demonstrate that CAR-cTregs can serve as a promising therapeutic option for IPF and provide an alternative strategy for treating multiple chronic inflammatory diseases by inducing both cytotoxicity and immunosuppression.

Authors

Yun-Han Jiang, Meng Zhou, Meng-Di Cheng, Sai Chen, Ying-Qiang Guo

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Figure 4

Antifibrotic effect of CAR-cTregs against BLM-induced lung fibrosis.

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Antifibrotic effect of CAR-cTregs against BLM-induced lung fibrosis. (A)...
(A) Groups of 6- to 8-week-old C57BL/6J mice (n = 8) were intratracheally injected with 2.5 U/kg BLM and then adoptively intravenously (i.v.) injected with untransduced T cells (UT-Tc), CAR-Tc, untransduced Tregs (cTregs), or CAR-cTregs (2 × 106 total T cells) on day 14 after BLM infusion. (B) Changes in the relative body weight (BW) of mice after BLM infusion (n = 8 each group). (C) The ratio of lung weight (LW) to BW was also determined following CAR-cTreg treatment (n = 8 each group). (D) Images of lungs from all the groups are presented. (E) H&E staining of lung tissue after T cell infusion. Scale bars: 1 mm (gross views) and 100 μm (higher magnification). (F) Hydroxyproline (HYP) concentrations were measured in the presence or absence of CAR-cTreg infusion (n = 8 each group). (G) Inflammation was quantified by Ashcroft scores (n = 8 each group). (H) The fibrotic area was analyzed as shown in the bar chart (n = 8 each group). P values were determined using 2-way ANOVA with Tukey’s post hoc test (B) or 1-way ANOVA with Tukey’s post hoc test (C and FH). (B) *P < 0.05 for the comparison between the BLM + CAR-cTreg group and all other groups; #P < 0.05 for the comparison between the BLM + CAR-Tc group and all other groups. The data are presented as the mean ± SD (B, C, and FH). n = 5 (B), n = 8 (C and FH). CAR-cTreg, chimeric antigen receptor cytotoxic effector Treg cell; cTreg, cytotoxic effector Treg cell; CAR-Tc, chimeric antigen receptor cytotoxic T cell; UT-Tc, untransduced cytotoxic T cell.