PLG nanoparticles target fibroblasts and MARCO+ monocytes to reverse multiorgan fibrosis
Dan Xu, … , Stephen D. Miller, John Varga
Dan Xu, … , Stephen D. Miller, John Varga
Published February 1, 2022
Citation Information: JCI Insight. 2022;7(5):e151037. https://doi.org/10.1172/jci.insight.151037.
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Research Article Dermatology

PLG nanoparticles target fibroblasts and MARCO+ monocytes to reverse multiorgan fibrosis

Abstract

Systemic sclerosis (SSc) is a chronic, multisystem orphan disease with a highly variable clinical course, high mortality rate, and a poorly understood complex pathogenesis. We have identified an important role for a subpopulation of monocytes and macrophages characterized by surface expression of the scavenger receptor macrophage receptor with collagenous structure (MARCO) in chronic inflammation and fibrosis in SSc and in preclinical disease models. We show that MARCO+ monocytes and macrophages accumulate in lesional skin and lung in topographic proximity to activated myofibroblasts in patients with SSc and in the bleomycin-induced mouse model of SSc. Short-term treatment of mice with a potentially novel nanoparticle, poly(lactic-co-glycolic) acid (PLG), which is composed of a carboxylated, FDA-approved, biodegradable polymer and modulates activation and trafficking of MARCO+ inflammatory monocytes, markedly attenuated bleomycin-induced skin and lung inflammation and fibrosis. Mechanistically, in isolated cells in culture, PLG nanoparticles inhibited TGF-dependent fibrotic responses in vitro. Thus, MARCO+ monocytes are potent effector cells of skin and lung fibrosis and can be therapeutically targeted in SSc using PLG nanoparticles.

Authors

Dan Xu, Swati Bhattacharyya, Wenxia Wang, Igal Ifergan, Ming-Yi Alice Chiang Wong, Daniele Procissi, Anjana Yeldandi, Swarna Bale, Roberta Goncalves Marangoni, Craig Horbinski, Stephen D. Miller, John Varga

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Figure 2

Prophylactic PLG nanoparticle treatment attenuates pulmonary fibrosis in BLM-injected mice.

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Prophylactic PLG nanoparticle treatment attenuates pulmonary fibrosis in...
(A) Schema of experimental setup and treatment regimen. (B) Masson’s trichrome stain (top). Scale bar: 25 μm. Representative images of immunofluorescence staining using Abs to ASMA (green) and MARCO (red) (bottom). Nuclei were identified by DAPI (blue). Scale bar: 200 μm. (C) Lung hydroxyproline (hypro) content. P values determined via 1-way ANOVA followed by the Šidák’s multiple comparison test. *P < 0.05; **P < 0.01. (D) Hubner score. Results are reported as mean ± SD from 5 high-power fields per mouse from at least 5 mice per experimental group. ***P < 0.01. (E) Total number of myofibroblasts (live singlets/CD45/PDGFR+/CD90+) and α-SMA+ myofibroblasts per whole left lung per mouse (n = 4–5 with 3 independent experiments) measured by flow cytometry. *P < 0.05; **P < 0.01. (F) MicroCT of the lungs. Representative cross-sectional (left- and middle-column panels) and 3D images (right-column panels) (G) Quantitative lung FI (n = 4–5 mice/group with two independent repeats). ****P < 0.0001. (H) Correlative comparison between CT-measured FI and half-lung collagen content by hypro assay. Ctrl, control.