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Endocrine, Metabolic & Immune Disorders - Drug Targets

Editor-in-Chief

ISSN (Print): 1871-5303
ISSN (Online): 2212-3873

Epithelial-Mesenchymal Transition as a Therapeutic Target for Prevention of Ocular Tissue Fibrosis

Author(s): Shizuya Saika, Osamu Yamanaka, Kathleen C. Flanders, Yuka Okada, Takeshi Miyamoto, Takayoshi Sumioka, Kumi Shirai, Ai Kitano, Ken-ichi Miyazaki, Sai-ichi Tanaka and Kazuo Ikeda

Volume 8, Issue 1, 2008

Page: [69 - 76] Pages: 8

DOI: 10.2174/187153008783928343

Price: $65

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Abstract

Fibrotic diseases are characterized by the appearance of myofibroblasts, the key cell type involved in the fibrogenic reaction, and by excess accumulation of extracellular matrix with resultant tissue contraction and impaired function. Myofiborblasts are generated by fibroblast-myofibrobalst conversion, and in certain tissues through epithelialmesenchymal transition (EMT), a process through which an epithelial cell changes its phenotype to become more like a mesenchymal cell. Although inflammatory/fibrogenic growth factors/cytokines produced by injured tissues orchestrate the process of EMT, transforming growth factor β (TGFβ) is believed to play a central role in the process. Unlike fibrotic lesions in kidney or other tissues where myofibroblasts are generated from both fibroblasts and epithelial cells, fibrotic lesions in the eye crystalline lens are derived only from lens epithelial cells without contamination of fibroblast-derived myofibroblasts. Thus, this tissue is suitable to investigate detailed mechanisms of EMT and subsequent tissue fibrosis. EMT in retinal pigment epithelium is involved in the development of another ocular fibrotic disease, proliferative vitreoretinopathy, a fibrosis in the retina. EMT-related signal transduction cascades, i. e., TGFβ/Smad, are a target to prevent or treat unfavorable ocular tissue fibrosis, e. g., fibrotic diseases in the crystalline lens or retina, as well as possibly in other organs.

Keywords: Tissue fibrosis, myofibroblast, epithelial-mesenchymal transition, transforming growth factor β, signal transduction, Smad, gene transfer

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