Resident fibroblast lineages mediate pressure overload–induced cardiac fibrosis
Thomas Moore-Morris, … , Ju Chen, Sylvia M. Evans
Thomas Moore-Morris, … , Ju Chen, Sylvia M. Evans
Published June 17, 2014
Citation Information: J Clin Invest. 2014;124(7):2921-2934. https://doi.org/10.1172/JCI74783.
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Research Article

Resident fibroblast lineages mediate pressure overload–induced cardiac fibrosis

Abstract

Activation and accumulation of cardiac fibroblasts, which result in excessive extracellular matrix deposition and consequent mechanical stiffness, myocyte uncoupling, and ischemia, are key contributors to heart failure progression. Recently, endothelial-to-mesenchymal transition (EndoMT) and the recruitment of circulating hematopoietic progenitors to the heart have been reported to generate substantial numbers of cardiac fibroblasts in response to pressure overload–induced injury; therefore, these processes are widely considered to be promising therapeutic targets. Here, using multiple independent murine Cre lines and a collagen1a1-GFP fusion reporter, which specifically labels fibroblasts, we found that following pressure overload, fibroblasts were not derived from hematopoietic cells, EndoMT, or epicardial epithelial-to-mesenchymal transition. Instead, pressure overload promoted comparable proliferation and activation of two resident fibroblast lineages, including a previously described epicardial population and a population of endothelial origin. Together, these data present a paradigm for the origins of cardiac fibroblasts during development and in fibrosis. Furthermore, these data indicate that therapeutic strategies for reducing pathogenic cardiac fibroblasts should shift from targeting presumptive EndoMT or infiltrating hematopoietically derived fibroblasts, toward common pathways upregulated in two endogenous fibroblast populations.

Authors

Thomas Moore-Morris, Nuno Guimarães-Camboa, Indroneal Banerjee, Alexander C. Zambon, Tatiana Kisseleva, Aurélie Velayoudon, William B. Stallcup, Yusu Gu, Nancy D. Dalton, Marta Cedenilla, Rafael Gomez-Amaro, Bin Zhou, David A. Brenner, Kirk L. Peterson, Ju Chen, Sylvia M. Evans

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Figure 2

Fibroblast markers in pressure overload associated with fibrosis.

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Fibroblast markers in pressure overload associated with fibrosis. (A) Co...
(A) Collagen1a1-GFP+ fibroblast accumulation was associated with collagen type I deposition, as evidenced by immunofluorescence staining against collagen type I and trichrome staining in adjacent sections. Similar results were observed following 28 days of TAC. (B) Double-positive CD45+FSP1+ cells within interstitial pathologic fibrotic lesions (arrows). The pathologic lesion is evident as an area rich in collagen-GFP+ cells and CD45+ leukocytes on the left of the images. No double-positive collagen1a1-GFP+CD45+ cells were observed. (C) Percentages of the total number of cells in interstitial fibrotic areas expressing collagen1a1-GFP, FSP1, and CD45 following 7 days of TAC. (D) αSMA expression in some collagen1a1-GFP+ fibroblasts (arrows) following 7 days of TAC. (E) Percentages of the total number of cells in interstitial fibrotic areas expressing collagen1a1-GFP, αSMA, and CD45 following 7 days of TAC. CD45+ cells were never collagen1a1-GFP+. (F) Overlap of collagen1a1-GFP and PDGFRα signals in sham and following 7 and 28 days of TAC. Histograms represent mean ± SD of 12 fields from 3 mice. Scale bars: 100 μm (A); 20 μm (B, D, and F).