Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage

OBJECTIVE—Leukocyte adhesion in retinal microvasuculature substantially contributes to diabetic retinopathy. Involvement of the Rho/Rho kinase (ROCK) pathway in diabetic microvasculopathy and therapeutic potential of fasudil, a selective ROCK inhibitor, are investigated. RESEARCH DESIGN AND METHODS—...

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Autores principales: Arita, Ryoichi, Hata, Yasuaki, Nakao, Shintaro, Kita, Takeshi, Miura, Muneki, Kawahara, Shuhei, Zandi, Souska, Almulki, Lama, Tayyari, Faryan, Shimokawa, Hiroaki, Hafezi-Moghadam, Ali, Ishibashi, Tatsuro
Formato: Texto
Lenguaje:English
Publicado: American Diabetes Association 2009
Materias:
Complications
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2606876/
https://www.ncbi.nlm.nih.gov/pubmed/18840783
http://dx.doi.org/10.2337/db08-0762
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author Arita, Ryoichi
Hata, Yasuaki
Nakao, Shintaro
Kita, Takeshi
Miura, Muneki
Kawahara, Shuhei
Zandi, Souska
Almulki, Lama
Tayyari, Faryan
Shimokawa, Hiroaki
Hafezi-Moghadam, Ali
Ishibashi, Tatsuro
author_facet Arita, Ryoichi
Hata, Yasuaki
Nakao, Shintaro
Kita, Takeshi
Miura, Muneki
Kawahara, Shuhei
Zandi, Souska
Almulki, Lama
Tayyari, Faryan
Shimokawa, Hiroaki
Hafezi-Moghadam, Ali
Ishibashi, Tatsuro
author_sort Arita, Ryoichi
collection PubMed
description OBJECTIVE—Leukocyte adhesion in retinal microvasuculature substantially contributes to diabetic retinopathy. Involvement of the Rho/Rho kinase (ROCK) pathway in diabetic microvasculopathy and therapeutic potential of fasudil, a selective ROCK inhibitor, are investigated. RESEARCH DESIGN AND METHODS—Localization of RhoA/ROCK and Rho activity were examined in retinal tissues of rats. Impact of intravitreal fasudil administration on retinal endothelial nitric oxide synthase (eNOS) and myosin phosphatase target protein (MYPT)-1 phosphorylation, intercellular adhesion molecule-1 (ICAM-1) expression, leukocyte adhesion, and endothelial damage in rat eyes were investigated. Adhesion of neutrophils from diabetic retinopathy patients or nondiabetic control subjects to cultured microvascular endothelial cells was quantified. The potential of fasudil for endothelial protection was investigated by measuring the number of adherent neutrophils and terminal transferase-mediated dUTP nick-end labeling–positive endothelial cells. RESULTS—RhoA and ROCK colocalized predominantly in retinal microvessels. Significant Rho activation was observed in retinas of diabetic rats. Intravitreal fasudil significantly increased eNOS phosphorylation, whereas it reduced MYPT-1 phosphorylation, ICAM-1 expression, leukocyte adhesion, and the number of damaged endothelium in retinas of diabetic rats. Neutrophils from diabetic retinopathy patients showed significantly higher adhesion to cultured endothelium and caused endothelial apoptosis, which was significantly reduced by fasudil. Blockade of the Fas-FasL interaction prevented endothelial apoptosis. The protective effect of fasudil on endothelial apoptosis was significantly reversed by Nω-nitro-l-arginine methyl ester, a NOS inhibitor, whereas neutrophil adhesion remained unaffected. CONCLUSIONS—The Rho/ROCK pathway plays a critical role in diabetic retinal microvasculopathy. Fasudil protects the vascular endothelium by inhibiting neutrophil adhesion and reducing neutrophil-induced endothelial injury. ROCK inhibition may become a new strategy in the management of diabetic retinopathy, especially in its early stages.
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spelling pubmed-26068762010-01-01 Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage Arita, Ryoichi Hata, Yasuaki Nakao, Shintaro Kita, Takeshi Miura, Muneki Kawahara, Shuhei Zandi, Souska Almulki, Lama Tayyari, Faryan Shimokawa, Hiroaki Hafezi-Moghadam, Ali Ishibashi, Tatsuro Diabetes Complications OBJECTIVE—Leukocyte adhesion in retinal microvasuculature substantially contributes to diabetic retinopathy. Involvement of the Rho/Rho kinase (ROCK) pathway in diabetic microvasculopathy and therapeutic potential of fasudil, a selective ROCK inhibitor, are investigated. RESEARCH DESIGN AND METHODS—Localization of RhoA/ROCK and Rho activity were examined in retinal tissues of rats. Impact of intravitreal fasudil administration on retinal endothelial nitric oxide synthase (eNOS) and myosin phosphatase target protein (MYPT)-1 phosphorylation, intercellular adhesion molecule-1 (ICAM-1) expression, leukocyte adhesion, and endothelial damage in rat eyes were investigated. Adhesion of neutrophils from diabetic retinopathy patients or nondiabetic control subjects to cultured microvascular endothelial cells was quantified. The potential of fasudil for endothelial protection was investigated by measuring the number of adherent neutrophils and terminal transferase-mediated dUTP nick-end labeling–positive endothelial cells. RESULTS—RhoA and ROCK colocalized predominantly in retinal microvessels. Significant Rho activation was observed in retinas of diabetic rats. Intravitreal fasudil significantly increased eNOS phosphorylation, whereas it reduced MYPT-1 phosphorylation, ICAM-1 expression, leukocyte adhesion, and the number of damaged endothelium in retinas of diabetic rats. Neutrophils from diabetic retinopathy patients showed significantly higher adhesion to cultured endothelium and caused endothelial apoptosis, which was significantly reduced by fasudil. Blockade of the Fas-FasL interaction prevented endothelial apoptosis. The protective effect of fasudil on endothelial apoptosis was significantly reversed by Nω-nitro-l-arginine methyl ester, a NOS inhibitor, whereas neutrophil adhesion remained unaffected. CONCLUSIONS—The Rho/ROCK pathway plays a critical role in diabetic retinal microvasculopathy. Fasudil protects the vascular endothelium by inhibiting neutrophil adhesion and reducing neutrophil-induced endothelial injury. ROCK inhibition may become a new strategy in the management of diabetic retinopathy, especially in its early stages. American Diabetes Association 2009-01 /pmc/articles/PMC2606876/ /pubmed/18840783 http://dx.doi.org/10.2337/db08-0762 Text en Copyright © 2009, American Diabetes Association Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered. See http://creativecommons.org/licenses/by-nc-nd/3.0/ for details.
spellingShingle Complications
Arita, Ryoichi
Hata, Yasuaki
Nakao, Shintaro
Kita, Takeshi
Miura, Muneki
Kawahara, Shuhei
Zandi, Souska
Almulki, Lama
Tayyari, Faryan
Shimokawa, Hiroaki
Hafezi-Moghadam, Ali
Ishibashi, Tatsuro
Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage
title Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage
title_full Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage
title_fullStr Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage
title_full_unstemmed Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage
title_short Rho Kinase Inhibition by Fasudil Ameliorates Diabetes-Induced Microvascular Damage
title_sort rho kinase inhibition by fasudil ameliorates diabetes-induced microvascular damage
topic Complications
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2606876/
https://www.ncbi.nlm.nih.gov/pubmed/18840783
http://dx.doi.org/10.2337/db08-0762
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