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MRC2-mediated collagen internalization is reduced in fibrotic lung fibroblasts and increased upon phenotypic dedifferentiation
Natalie M. Walker, Sean M. Fortier, Jennifer Speth, Steven K. Huang, Sergey Gutor, Timothy S. Blackwell, Marc Peters-Golden
Natalie M. Walker, Sean M. Fortier, Jennifer Speth, Steven K. Huang, Sergey Gutor, Timothy S. Blackwell, Marc Peters-Golden
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Research Article Cell biology Pulmonology

MRC2-mediated collagen internalization is reduced in fibrotic lung fibroblasts and increased upon phenotypic dedifferentiation

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Abstract

Idiopathic pulmonary fibrosis (IPF) is characterized by parenchymal scarring reflecting an imbalance between collagen deposition by myofibroblasts (MFs) and its turnover. Although collagen clearance is essential for fibrosis resolution, this process and its potential for therapeutic modulation in IPF are poorly understood. Here we evaluated internalization of degraded collagen and the role of its requisite endocytic receptor mannose receptor C-type 2 (MRC2), in lung tissue and MFs from patients with IPF and bleomycin-injured mice. Fibrotic human and murine lung tissue exhibited an accumulation of degraded collagen, highlighting a failure of its clearance. MFs from fibrotic lung demonstrated a reduced capacity to internalize extracellular degraded collagen, with a concomitant reduction in MRC2 expression and endolysosomal activity. Both diminished collagen uptake and MRC2 expression recovered to baseline levels during spontaneous resolution of bleomycin fibrosis. In vitro treatment of IPF or TGF-β–elicited MFs with a variety of mechanistically distinct agents known to effect phenotypic dedifferentiation restored defective collagen internalization. Although enhanced uptake was MRC2 dependent, it involved increased endolysosomal activity rather than increased MRC2 expression. These results implicate defective MRC2-dependent collagen internalization and endolysosomal function in MFs as important factors contributing to fibrosis that may be therapeutically targeted to promote resolution.

Authors

Natalie M. Walker, Sean M. Fortier, Jennifer Speth, Steven K. Huang, Sergey Gutor, Timothy S. Blackwell, Marc Peters-Golden

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Figure 1

Degraded collagen is increased in IPF lung tissue and bleomycin-injured murine lungs.

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Degraded collagen is increased in IPF lung tissue and bleomycin-injured ...
(A) Representative images of CHP fluorescent colocalization with CD206 (left panels) to label macrophages or PDGFR-α (right panels) to label fibroblasts in normal (top) and IPF (bottom) human lungs. In all figures, arrows denote colocalized collagen fragments and cell-specific markers. Quantified volumetric ratio of CHP to total parenchyma and mean intensity of CHP+ areas where (B) macrophages and (C) fibroblasts are present. (D) CHP fluorescent colocalization with CD68 (left panels) to label macrophages or tdTomato (right panels) to label fibroblasts in saline, day 21, day 42, and day 63 bleomycin-injured lungs. Images are representative of an n of 4 mice for each treatment group. Scale bars: 50 μm (A and D). Histomorphometric data points represent values from tissues of independent patients and significance in B and C was determined by 2-tailed t test. *P < 0.05, ***P < 0.001.

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