Fibroblast-specific inhibition of TGF-β1 signaling attenuates lung and tumor fibrosis
Ying Wei, … , Bradley J. Backes, Harold A. Chapman
Ying Wei, … , Bradley J. Backes, Harold A. Chapman
Published September 5, 2017
Citation Information: J Clin Invest. 2017;127(10):3675-3688. https://doi.org/10.1172/JCI94624.
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Fibroblast-specific inhibition of TGF-β1 signaling attenuates lung and tumor fibrosis

Abstract

TGF-β1 signaling is a critical driver of collagen accumulation and fibrotic disease but also a vital suppressor of inflammation and epithelial cell proliferation. The nature of this multifunctional cytokine has limited the development of global TGF-β1 signaling inhibitors as therapeutic agents. We conducted phenotypic screens for small molecules that inhibit TGF-β1–induced epithelial-mesenchymal transition without immediate TGF-β1 receptor (TβR) kinase inhibition. We identified trihydroxyphenolic compounds as potent blockers of TGF-β1 responses (IC50 ~50 nM), Snail1 expression, and collagen deposition in vivo in models of pulmonary fibrosis and collagen-dependent lung cancer metastasis. Remarkably, the functional effects of trihydroxyphenolics required the presence of active lysyl oxidase–like 2 (LOXL2), thereby limiting effects to fibroblasts or cancer cells, the major LOXL2 producers. Mechanistic studies revealed that trihydroxyphenolics induce auto-oxidation of a LOXL2/3–specific lysine (K731) in a time-dependent reaction that irreversibly inhibits LOXL2 and converts the trihydrophenolic to a previously undescribed metabolite that directly inhibits TβRI kinase. Combined inhibition of LOXL2 and TβRI activities by trihydrophenolics resulted in potent blockade of pathological collagen accumulation in vivo without the toxicities associated with global inhibitors. These findings elucidate a therapeutic approach to attenuate fibrosis and the disease-promoting effects of tissue stiffness by specifically targeting TβRI kinase in LOXL2-expressing cells.

Authors

Ying Wei, Thomas J. Kim, David H. Peng, Dana Duan, Don L. Gibbons, Mitsuo Yamauchi, Julia R. Jackson, Claude J. Le Saux, Cheresa Calhoun, Jay Peters, Rik Derynck, Bradley J. Backes, Harold A. Chapman

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Figure 4

Corilagin inhibition of TGF-β1 signaling is dependent on LOXL2 activity.

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Corilagin inhibition of TGF-β1 signaling is dependent on LOXL2 activity....
(A) A549 cells pretreated with 1 μM corilagin for 0, 3, or 6 hours were stimulated with different doses of TGF-β1 (0, 0.2, or 1 ng/ml) for 30 minutes, and the cell lysates were blotted for p-Smad2, p-Smad3, Smad2, Smad3, and β-actin. (B) NMuMG cells transfected with human LOXL2 or empty vector were pretreated with 1 μM corilagin or DMSO for 6 hours and then incubated without or with TGF-β1 for 30 minutes. The cell lysates were blotted for LOXL2, p-Smad3, Smad3, and β-actin. (C and D) A549 cells transfected with siRNA to LOXL2 (C) and primary human lung fibroblasts transfected with siRNAs to LOXL1 or LOXL2 (D) were pretreated with 1 μM corilagin or DMSO for 6 hours before incubation without or with TGF-β1 for 30 minutes. The cell lysates were blotted for p-Smad3 and Smad3. The ratio of p-Smad3/Smad3 for each lane is shown. (E) Mouse lung epithelial cells, fibroblasts, and immune cells sorted from mice treated for 14 days with saline (S), bleomycin with vehicle control (BC), or bleomycin with 7 days oral EGCG (100 mg/kg) (BE) were immediately treated with TGF-β1 for 30 minutes and cell lysates blotted for p-Smad3, total Smad3, and β-actin. n = 5 for each group. (F) A549 cells were pretreated with 1 μM corilagin with or without 2 mM DPA for 6 hours before TGF-β1 stimulation for 30 minutes. The cell lysates were blotted for p-Smad3, Smad3, and β-actin. The data from AD and F are representative of at least 3 experiments with similar results.