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  2. Activated Blood Coagulation Factor X (FXa) Contributes to the Development of Traumatic PVR Through Promoting RPE Epithelial-Mesenchymal Transition

Activated Blood Coagulation Factor X (FXa) Contributes to the Development of Traumatic PVR Through Promoting RPE Epithelial-Mesenchymal Transition

  • Invest Ophthalmol Vis Sci. 2021 Jul 1;62(9):29. doi: 10.1167/iovs.62.9.29.
Han Han 1 Xiao Zhao 1 Mengyu Liao 1 Yinting Song 1 Caiyun You 1 Xue Dong 1 2 Xueli Yang 1 3 Xiaohong Wang 2 Bo Huang 4 Mei Du 2 Hua Yan 1
Affiliations

Affiliations

  • 1 Department of Ophthalmology, Tianjin Medical University General Hospital, Tianjin, China.
  • 2 Laboratory of Molecular Ophthalmology, Department of Pharmacology and Tianjin Key Laboratory of Inflammation Biology, School of Basic Medical Sciences, Tianjin Medical University, Tianjin, China.
  • 3 Department of Ophthalmology, The First Affiliated Hospital of Dali University, Yunnan, China.
  • 4 Department of Ophthalmology, University of Mississippi Medical Center, Jackson, Mississippi, United States.
Abstract

Purpose: Uncontrolled coagulation reactions contribute to pathological fibroproliferation in several organs, and yet their role in proliferative vitreoretinopathy (PVR) remains to be elucidated. In this study, we evaluated the profibrotic effects of FXa in RPE cells and in a mouse model of PVR.

Methods: FXa levels in the eyes of traumatic PVR patients and rabbit models of mechanical ocular trauma was measured by ELISA and immunohistochemistry. FXa-induced RPE EMT was assessed by examining cell proliferation, migration, tight junction changes, and expression of fibrotic markers. For in vivo study, FXa was injected into dispase-injured eyes, then intraocular fibrosis was evaluated by histological analysis and Western blotting. The therapeutic effect of FXa inhibitor was also examined in PVR mouse models.

Results: Vitreous FXa were higher in patients with traumatic PVR compared to patients with macular hole. Moreover, expressions of FXa and PAR1 were found in the epiretinal membranes from traumatic PVR patients. Vitreous FXa were markedly increased after mechanical ocular trauma in rabbits. In vitro, FXa stimulated RPE EMT characterized as ZO-1 disruption, compromised cell polarity, and increased fibronectin expressions. Co-injection of FXa and dispase in mice induced more severely damaged retinal structures, and increased α-SMA expressions than FXa or dispase treatment alone. Oral FXa or Thrombin inhibitors significantly blocked intraocular fibrosis in PVR mouse models. FXa promoted phospho-activation of p38 in ARPE19 cells, which was dependent on PAR1. Moreover, TGF-βR inhibitor also significantly alleviated FXa-induced intraocular fibrosis in mice.

Conclusions: FXa promotes intraocular fibrosis in mice via mechanisms involving RPE activation.

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