Reprogramming alveolar macrophage responses to TGF-β reveals CCR2+ monocyte activity that promotes bronchiolitis obliterans syndrome
Zhiyi Liu, Fuyi Liao, Jihong Zhu, Dequan Zhou, Gyu Seong Heo, Hannah P. Leuhmann, Davide Scozzi, Antanisha Parks, Ramsey Hachem, Derek E. Byers, Laneshia K. Tague, Hrishikesh S. Kulkarni, Marlene Cano, Brian W. Wong, Wenjun Li, Howard J. Huang, Alexander S. Krupnick, Daniel Kreisel, Yongjian Liu, Andrew E. Gelman
Zhiyi Liu, Fuyi Liao, Jihong Zhu, Dequan Zhou, Gyu Seong Heo, Hannah P. Leuhmann, Davide Scozzi, Antanisha Parks, Ramsey Hachem, Derek E. Byers, Laneshia K. Tague, Hrishikesh S. Kulkarni, Marlene Cano, Brian W. Wong, Wenjun Li, Howard J. Huang, Alexander S. Krupnick, Daniel Kreisel, Yongjian Liu, Andrew E. Gelman
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Research Article Immunology Inflammation

Reprogramming alveolar macrophage responses to TGF-β reveals CCR2+ monocyte activity that promotes bronchiolitis obliterans syndrome

Abstract

Bronchiolitis obliterans syndrome (BOS) is a major impediment to lung transplant survival and is generally resistant to medical therapy. Extracorporeal photophoresis (ECP) is an immunomodulatory therapy that shows promise in stabilizing BOS patients, but its mechanisms of action are unclear. In a mouse lung transplant model, we show that ECP blunts alloimmune responses and inhibits BOS through lowering airway TGF-β bioavailability without altering its expression. Surprisingly, ECP-treated leukocytes were primarily engulfed by alveolar macrophages (AMs), which were reprogrammed to become less responsive to TGF-β and reduce TGF-β bioavailability through secretion of the TGF-β antagonist decorin. In untreated recipients, high airway TGF-β activity stimulated AMs to express CCL2, leading to CCR2+ monocyte-driven BOS development. Moreover, we found TGF-β receptor 2–dependent differentiation of CCR2+ monocytes was required for the generation of monocyte-derived AMs, which in turn promoted BOS by expanding tissue-resident memory CD8+ T cells that inflicted airway injury through Blimp-1–mediated granzyme B expression. Thus, through studying the effects of ECP, we have identified an AM functional plasticity that controls a TGF-β–dependent network that couples CCR2+ monocyte recruitment and differentiation to alloimmunity and BOS.

Authors

Zhiyi Liu, Fuyi Liao, Jihong Zhu, Dequan Zhou, Gyu Seong Heo, Hannah P. Leuhmann, Davide Scozzi, Antanisha Parks, Ramsey Hachem, Derek E. Byers, Laneshia K. Tague, Hrishikesh S. Kulkarni, Marlene Cano, Brian W. Wong, Wenjun Li, Howard J. Huang, Alexander S. Krupnick, Daniel Kreisel, Yongjian Liu, Andrew E. Gelman

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Figure 9

Gzmb+ TRM cells promote airway epithelial cell apoptosis and BOS through Blimp-1.

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Gzmb+ TRM cells promote airway epithelial cell apoptosis and BOS through...
FVB lung epithelial cells were cocultured in a 1:2 EpCAM+ cell–to–CD8+ T cell ratio for up to 18 hours with or without Serpin A3N pretreatment (25 nM) and assessed for mitochondrial membrane potential (MitoTracker Deep Red FM), mitochondrial superoxide production (MitoSOX), and DNA fragmentation (TUNEL). Data are shown as (A) a representative FACS plot result from 5 experiments and (B) 6-hour epithelial cell mitochondrial depolarization and TUNEL activity (n = 5/condition). Blimp-1fl/fl and Blimp-1Δ/Δ recipients of 3T-FVB allografts were analyzed for intragraft inflammation as shown by (C) representative FACS plot data of TRM cell markers, Gzmb expression, and AM abundance, with cell counts n ≥ 4/group. (D) Representative H&E and trichrome staining results for n ≥ 4/group and (E) airway inflammation and lesion grading (n ≥ 4 /group). Data are represented as mean ± SD. One-way ANOVA with Dunnett’s multiple-comparison test (B); 2-sided Mann-Whitney U test (C and E).*P < 0.05; **P < 0.01.