Suppression of TGF-β pathway by pirfenidone decreases extracellular matrix deposition in ocular fibroblasts in vitro

Stahnke, Thomas; Kowtharapu, Bhavani S.; Stachs, Oliver; Schmitz, Klaus‐Peter; Wurm, Johannes; Wree, Andreas; Guthoff, Rudolf; Hovakimyan, Marina

doi:10.1371/journal.pone.0172592

Cited by 82 publications

(66 citation statements)

References 42 publications

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“…The same applies for PFD, where in vitro studies demonstrated inhibition of cell proliferation, myofibroblast differentiation, collagen contractility, cytokine suppression, decreased collagen and fibronectin expression, and migratory ability of cardiac, renal, lung, hepatic, and ocular fibroblasts [31,32,62–66]. An antifibrotic effect in vivo has also been described in a trabeculectomy model in rabbits, where postoperative application of PFD was associated with less scarring and improved bleb survival [67] and following GDI implantation in a rabbit model [68].…”

Section: Discussionmentioning

confidence: 99%

Development of a biodegradable antifibrotic local drug delivery system for glaucoma microstents

et al. 2018

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To prevent implant failure due to fibrosis is a major objective in glaucoma research. The present study investigated the antifibrotic effects of paclitaxel (PTX), caffeic acid phenethyl ester (CAPE), and pirfenidone (PFD) coated microstent test specimens in a rat model. Test specimens based on a biodegradable blend of poly(4-hydroxybutyrate) biopolymer and atactic poly(3-hydroxybutyrate) (at.P(3HB)) were manufactured, equipped with local drug delivery (LDD) coatings, and implanted in the subcutaneous white fat depot. Postoperatively, test specimens were explanted and analyzed for residual drug content. Fat depots including the test specimens were histologically analyzed. In vitro drug release studies revealed an initial burst for LDD devices. In vivo, slow drug release of PTX was found, whereas it already completed 1 week postoperatively for CAPE and PFD LDD devices. Histological examinations revealed a massive cell infiltration in the periphery of the test specimens. Compact fibrotic capsules around the LDD devices were detectable at 4–36 weeks and least pronounced around PFD-coated specimens. Capsules stained positive for extracellular matrix (ECM) components. The presented model offers possibilities to investigate release kinetics and the antifibrotic potential of drugs in vivo as well as the identification of more effective agents for a novel generation of drug-eluting glaucoma microstents.

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Section: Discussionmentioning

confidence: 99%

Development of a biodegradable antifibrotic local drug delivery system for glaucoma microstents

et al. 2018

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“…The systems comprise in situ polymerizing drug carriers, and will be applied by minimal invasive injection systems [11]. In parallel, in-depth understanding of fibrotic processes and drug distribution mechanisms is gained through extensive in vitro and ex vivo experimentation [12][13][14]. Restoration of near and far vision in cataract patients, or as an elective procedure in presbyopes, shall be achieved through reconstruction of the enucleated capsular bag.…”

Section: Ophthalmologic Implantsmentioning

confidence: 99%

Reconstruction of biological functions: novel implant concepts for cardiovascular, ophthal-mologic and otolaryngologic applications

Grabow

Schmitz

2017

Current Directions in Biomedical Engineering

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Biomedical engineering innovations towards the reconstruction of biological functions seek to improve the quality of patients' lives. The coordinated research project "RESPONSE -Partnership for Innovation in Implant Technology" (BMBF program Twenty20 -Partnership for Innovation, 2014 -2021) is focusing on the development of novel concepts for (i) cardiovascular scaffolds, glaucoma and ENT stents, (ii) transcatheter heart valves and venous valves, (iii) polymeric implants and polymer/drug formulations. Current clinical paradigm shifts, fostered by the progress in implant technology and a growing global demand, frame the background for the joint research efforts of academia and industry in the RESPONSE consortium.

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“…Increased growth factor activity not only leads to an increase in wound healing rate, but also a higher risk for scar formation. Therefore, TGF-β is one of the most potential targets for scarring intervention [8,9,10,11].…”

Section: Introductionmentioning

confidence: 99%

“…TGF-β1 is a major profibrotic cytokine and increased expression plays an important role in the deposition of collagen and extracellular matrix, wound healing and scar formation in the socket contracture tissue [6]. TGF-β1 is a key mediator that induce α-SMA [11,12]. Alpha-smooth muscle actin (α-SMA) may serve as a reliable marker for myofibroblast cells [12], although others considered it as not a consistent marker for contractile fibroblasts and lots of collagen [13].…”

Section: Introductionmentioning

confidence: 99%

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α-SMA Expression Increased Over Cell Passages and Decreased by Exogenous TGF-β1, In Vitro Studies on Myofibroblast Derived from Orbital Socket Contracture

Dewi

Chairinnisa²,

Sujuti³

et al. 2018

J.Trop.Life.Science

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ABSTRACTα-smooth muscle actin (α-SMA), a marker of myofibroblast, induces cytoskeleton reorganization, increases contractility and stimulates cell migration in TGF-β1 induced stress fibers. The aims of the present study were to determine the level of α-SMA expression and morphological cell changes in different passages of myofibroblasts with varied TGF-β1 concentrations. Myofibroblast cell cultures were derived from fibrotic tissues of fourth degree socket contracture. The α-SMA expression level was measured in myofibroblast cultures passage I, II, and III with and without 10 ng/mL TGF-β1, and in passage III with 2.5; 5; 10; and 20 ng/mL TGF-β1. Results: The levels of α-SMA expression level in passage I to III were I 31.42 ± 3.4; 40.34 ± 8.14 and 56.37 ± 7.57, respectively. Addition of 10 ng/mL TGF-β1 into passage I-III myofibroblast cultures resulted in α-SMA expression level of 31.24 ± 2.93; 36.81 ± 6.09; and 14.29 ± 2.72, respectively. Myoblasts passage III showed the lowest α-SMA expression level following exposure to TGF-β1 10 ng/mL (22.37 ± 12.86) and highest without TGF-β1 (48.34 ± 13.36), however no morphological changes detected. α-SMA expression level increased with cell passages, decreases with addition of TGF-β1 while not affecting morphology of myofibroblast derived from the orbital socket contracture.

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Suppression of TGF-β pathway by pirfenidone decreases extracellular matrix deposition in ocular fibroblasts in vitro

Cited by 82 publications

References 42 publications

Development of a biodegradable antifibrotic local drug delivery system for glaucoma microstents

Development of a biodegradable antifibrotic local drug delivery system for glaucoma microstents

Reconstruction of biological functions: novel implant concepts for cardiovascular, ophthal-mologic and otolaryngologic applications

α-SMA Expression Increased Over Cell Passages and Decreased by Exogenous TGF-β1, In Vitro Studies on Myofibroblast Derived from Orbital Socket Contracture

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