Myeloid-mesenchymal crosstalk drives ARG1-dependent profibrotic metabolism via ornithine in lung fibrosis
Preeti Yadav, Javier Gómez Ortega, Prerna Dabral, Whitney Tamaki, Charles Chien, Kai-Chun Chang, Nivedita Biswas, Sixuan Pan, Julia Nilsson, Xiaoyang Yin, Aritra Bhattacharyya, Kaveh Boostanpour, Tanay Jujaray, Jasper T. Wang, Tatsuya Tsukui, Christopher J. Molina, Vincent C. Auyeung, Dean Sheppard, Baosheng Li, Mazharul Maishan, Hiroki Taenaka, Michael A. Matthay, Rieko Muramatsu, Lenka Maliskova, Arnab Ghosh, Walter L. Eckalbar, Ari B. Molofsky, Stanley J. Tamaki, Trever G. Bivona, Adam R. Abate, Allon Wagner, Satish K. Pillai, Paul J. Wolters, Kevin M. Tharp, Mallar Bhattacharya
Preeti Yadav, Javier Gómez Ortega, Prerna Dabral, Whitney Tamaki, Charles Chien, Kai-Chun Chang, Nivedita Biswas, Sixuan Pan, Julia Nilsson, Xiaoyang Yin, Aritra Bhattacharyya, Kaveh Boostanpour, Tanay Jujaray, Jasper T. Wang, Tatsuya Tsukui, Christopher J. Molina, Vincent C. Auyeung, Dean Sheppard, Baosheng Li, Mazharul Maishan, Hiroki Taenaka, Michael A. Matthay, Rieko Muramatsu, Lenka Maliskova, Arnab Ghosh, Walter L. Eckalbar, Ari B. Molofsky, Stanley J. Tamaki, Trever G. Bivona, Adam R. Abate, Allon Wagner, Satish K. Pillai, Paul J. Wolters, Kevin M. Tharp, Mallar Bhattacharya
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Research Article Immunology Pulmonology

Myeloid-mesenchymal crosstalk drives ARG1-dependent profibrotic metabolism via ornithine in lung fibrosis

Abstract

Idiopathic pulmonary fibrosis (IPF) is a disease of progressive lung remodeling and collagen deposition that leads to respiratory failure. Myeloid cells are abundant in IPF lung and in murine lung fibrosis, but their functional effects are incompletely understood. Using mouse and human lung models, we show that ornithine produced by myeloid cells expressing arginase 1 (ARG1) serves as a substrate for proline and collagen synthesis by lung fibroblasts. The predominant ARG1-expressing myeloid cells in mouse lung were macrophages, but in IPF lung, high-dimensional imaging revealed ARG1 was expressed mainly in neutrophils. Small-molecule ARG1 inhibition suppressed both ornithine levels and collagen expression in cultured, precision-cut IPF lung slices and in murine lung fibrosis. These results were confirmed in macrophage-specific Arg1-KO mice. Furthermore, we found that this pathway is regulated by cell-to-cell crosstalk, starting with purinergic signaling: extracellular ATP receptor P2RX4 was necessary for fibroblast IL-6 expression, which, in turn, was necessary for ARG1 expression by myeloid cells. Taken together, our findings define an immune-mesenchymal circuit that governs profibrotic metabolism in lung fibrosis.

Authors

Preeti Yadav, Javier Gómez Ortega, Prerna Dabral, Whitney Tamaki, Charles Chien, Kai-Chun Chang, Nivedita Biswas, Sixuan Pan, Julia Nilsson, Xiaoyang Yin, Aritra Bhattacharyya, Kaveh Boostanpour, Tanay Jujaray, Jasper T. Wang, Tatsuya Tsukui, Christopher J. Molina, Vincent C. Auyeung, Dean Sheppard, Baosheng Li, Mazharul Maishan, Hiroki Taenaka, Michael A. Matthay, Rieko Muramatsu, Lenka Maliskova, Arnab Ghosh, Walter L. Eckalbar, Ari B. Molofsky, Stanley J. Tamaki, Trever G. Bivona, Adam R. Abate, Allon Wagner, Satish K. Pillai, Paul J. Wolters, Kevin M. Tharp, Mallar Bhattacharya

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Figure 4

IL-6 is necessary for ARG1 expression after bleomycin injury in mice.

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IL-6 is necessary for ARG1 expression after bleomycin injury in mice. (A...
(A) Left: Ingenuity Pathways Analysis of predicted upstream regulators for macrophages cultured with WT relative to P2rx4-KO fibroblasts (fib). Right: CellChat plot comparing WT and P2rx4-KO conditions. Significance was determined by Wilcoxon’s test, with P < 0.05 being statistically significant. Data represent 2 separate cocultures. (B) Violin plot for Il6 expression in WT relative to P2rx4-KO fibroblasts from cocultures. Line shows median values. Data represent 2 separate cocultures. (C) ARG1 ELISA of cell lysates and conditioned media collected from mouse lung macrophage (mac) monoculture 72 hours after IL-6 treatment. n = 3 biological replicates per condition. ***P < 0.001, ****P < 0.0001 by Student’s t test. (D) Left: ARG1 ELISA of BAL fluid normalized to lung CD11B+CD64+ macrophage count taken at day 14 from bleomycin-injured WT or Il6-KO mice. Right: Arg1 qPCR of CD11B+CD64+ macrophages. n = 5 mice per condition. **P < 0.01 by Student’s t test. (E) Quantification of Il6 expression by cell type in cells that underwent scRNA-Seq directly after isolation from the lung at steady state and multiple time points after injury: reanalysis of merged data from Strunz et al. (6) and Tsukui et al. (29) normalized by Sctransform (62). (F) UMAP of fibroblast subtypes (left) and Il6 feature plots at steady state (center) and 7 days after bleomycin injury (right), from Tsukui et al. (29). (C, D, and F) Data are reported as mean ± SEM.