Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze

Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze

Photorefractive keratectomy is an excimer laser [1] based ablation surgery of corneal surface used for correcting refractive errors. Corneal haze is the result of an aggressive wound healing response with an incidence rate [2] of 1.44% post PRK, making it an important health burden. Studies thus far...

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Main Authors: Nimisha Nimisha, Rohit Shetty, Arkasubhra Ghosh
Format: Article
Language:English
Published: Science Planet Inc. 2017-10-01
Series:Canadian Journal of Biotechnology
Online Access:https://www.canadianjbiotech.com/CAN_J_BIOTECH/Archives/v1/Special Issue/cjb.2017-a73.pdf
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spelling doaj-642e3fc7410c41dfab4169027bc917fc2020-11-24T23:44:55ZengScience Planet Inc.Canadian Journal of Biotechnology2560-83042017-10-011Special Issue868610.24870/cjb.2017-a73Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal hazeNimisha Nimisha0Rohit ShettyArkasubhra Ghosh1Cornea and External eye disease, Narayana Nethralaya, Bangalore, INDIACornea and External eye disease, Narayana Nethralaya, Bangalore, INDIAPhotorefractive keratectomy is an excimer laser [1] based ablation surgery of corneal surface used for correcting refractive errors. Corneal haze is the result of an aggressive wound healing response with an incidence rate [2] of 1.44% post PRK, making it an important health burden. Studies thus far have only focused on molecular alterations post haze development. Since the corneal epithelium is an important mediator of the stromal haze response, we studies its role in predisposing subjects to develop aberrant wound healing response. Corneal epithelium samples collected intra-operatively from clinically healthy patients during PRK. This epithelium from 6 eyes that developed haze postoperatively and 10 eyes of age matched controls without haze were compared. Gene expression microarrays were performed for the mRNA samples followed by ontological analysis of underlying molecular pathways. The identified targets were validated in an independent set of post haze epithelial samples from 3 subjects with PRK induced haze. In vitro studies were done on HCE cells for differential dose of TGFβ for inflammatory markers, corneal structure & fibrosis associated genes and regulators of signal transduction. In addition, loss and gain of function studies was performed using PREX1 as a novel, prototype target. Mean age of groups was 25-28 years. A total of 1100 up and 1700 down regulated genes were revealed by microarray. Alterations in Oxidative stress, ECM-Receptor interactions, Wnt signaling pathway and CXC motif containing chemokines contributes to cellular proliferation and wound healing, which is observed in in vitro model. In cornea novel target PREX1, an oxidative stress gene, when over expressed exhibits faster wound closure in HCE cells with and without TGFβ. Loss of function using PREX1 shRNA shows reduced wound closure. Our study shows that novel genes are involved in pathogenesis of post PRK haze. PREX1 over expression results in faster wound healing and modulating these pathways can prevent haze post PRK in future.https://www.canadianjbiotech.com/CAN_J_BIOTECH/Archives/v1/Special Issue/cjb.2017-a73.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Nimisha Nimisha
Rohit Shetty
Arkasubhra Ghosh
spellingShingle Nimisha Nimisha
Rohit Shetty
Arkasubhra Ghosh
Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze
Canadian Journal of Biotechnology
author_facet Nimisha Nimisha
Rohit Shetty
Arkasubhra Ghosh
author_sort Nimisha Nimisha
title Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze
title_short Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze
title_full Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze
title_fullStr Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze
title_full_unstemmed Transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze
title_sort transcriptome profiling reveals novel expression markers that predispose patients to develop post- photorefractive keratectomy corneal haze
publisher Science Planet Inc.
series Canadian Journal of Biotechnology
issn 2560-8304
publishDate 2017-10-01
description Photorefractive keratectomy is an excimer laser [1] based ablation surgery of corneal surface used for correcting refractive errors. Corneal haze is the result of an aggressive wound healing response with an incidence rate [2] of 1.44% post PRK, making it an important health burden. Studies thus far have only focused on molecular alterations post haze development. Since the corneal epithelium is an important mediator of the stromal haze response, we studies its role in predisposing subjects to develop aberrant wound healing response. Corneal epithelium samples collected intra-operatively from clinically healthy patients during PRK. This epithelium from 6 eyes that developed haze postoperatively and 10 eyes of age matched controls without haze were compared. Gene expression microarrays were performed for the mRNA samples followed by ontological analysis of underlying molecular pathways. The identified targets were validated in an independent set of post haze epithelial samples from 3 subjects with PRK induced haze. In vitro studies were done on HCE cells for differential dose of TGFβ for inflammatory markers, corneal structure & fibrosis associated genes and regulators of signal transduction. In addition, loss and gain of function studies was performed using PREX1 as a novel, prototype target. Mean age of groups was 25-28 years. A total of 1100 up and 1700 down regulated genes were revealed by microarray. Alterations in Oxidative stress, ECM-Receptor interactions, Wnt signaling pathway and CXC motif containing chemokines contributes to cellular proliferation and wound healing, which is observed in in vitro model. In cornea novel target PREX1, an oxidative stress gene, when over expressed exhibits faster wound closure in HCE cells with and without TGFβ. Loss of function using PREX1 shRNA shows reduced wound closure. Our study shows that novel genes are involved in pathogenesis of post PRK haze. PREX1 over expression results in faster wound healing and modulating these pathways can prevent haze post PRK in future.
url https://www.canadianjbiotech.com/CAN_J_BIOTECH/Archives/v1/Special Issue/cjb.2017-a73.pdf
work_keys_str_mv AT nimishanimisha transcriptomeprofilingrevealsnovelexpressionmarkersthatpredisposepatientstodeveloppostphotorefractivekeratectomycornealhaze
AT rohitshetty transcriptomeprofilingrevealsnovelexpressionmarkersthatpredisposepatientstodeveloppostphotorefractivekeratectomycornealhaze
AT arkasubhraghosh transcriptomeprofilingrevealsnovelexpressionmarkersthatpredisposepatientstodeveloppostphotorefractivekeratectomycornealhaze
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