Faycal Moujane, Chi Zhang, Robert Knight, John Y Lee, Sophie X Deng, Jie J Zheng
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引用次数: 0
Abstract
Purpose: Regulating intraocular pressure (IOP), mainly via the trabecular meshwork (TM), is critical in developing glaucoma. Whereas current treatments aim to lower IOP, directly targeting the dysfunctional TM tissue for therapeutic intervention has proven challenging. In our study, we utilized Dexamethasone (Dex)-treated TM cells as a model to investigate how extracellular vesicles (EVs) from immortalized corneal stromal stem cells (imCSSCs) could influence ANGPTL7 and MYOC genes expression within TM cells.
Methods: Human TM cell lines were isolated and cultured from donor corneoscleral rims. EVs were purified from imCSSC conditioned media (CM) using size exclusion chromatography and characterized by nanoparticle tracking analysis, transmission electron microscopy (TEM), and ExoView technology. TM cells were treated with either Dex alone or with EVs for 5 days. Quantitative polymerase chain reaction (PCR) was carried out to quantify the mRNA level of MYOC and ANGPTL7.
Results: A notable increase in the expression levels of MYOC and ANGPTL7 genes was observed compared with untreated TM cells (control). Furthermore, upon comparing Dex-treated TM cells with those receiving both Dex and EV treatments, a statistically significant reduction in ANGPTL7 expression (P < 0.05) was detected.
Conclusions: The present study demonstrates that imCSSCs-derived EVs can effectively decrease the expression of ANGPLT7, a gene associated with fibrosis and implicated in the abnormal elevation of IOP in patients with glaucoma.
Translational relevance: Our study shows that imCSSC-derived EVs can specifically target ANGPTL7 expression, making them a promising preclinical therapy for glaucoma.
期刊介绍:
Translational Vision Science & Technology (TVST), an official journal of the Association for Research in Vision and Ophthalmology (ARVO), an international organization whose purpose is to advance research worldwide into understanding the visual system and preventing, treating and curing its disorders, is an online, open access, peer-reviewed journal emphasizing multidisciplinary research that bridges the gap between basic research and clinical care. A highly qualified and diverse group of Associate Editors and Editorial Board Members is led by Editor-in-Chief Marco Zarbin, MD, PhD, FARVO.
The journal covers a broad spectrum of work, including but not limited to:
Applications of stem cell technology for regenerative medicine,
Development of new animal models of human diseases,
Tissue bioengineering,
Chemical engineering to improve virus-based gene delivery,
Nanotechnology for drug delivery,
Design and synthesis of artificial extracellular matrices,
Development of a true microsurgical operating environment,
Refining data analysis algorithms to improve in vivo imaging technology,
Results of Phase 1 clinical trials,
Reverse translational ("bedside to bench") research.
TVST seeks manuscripts from scientists and clinicians with diverse backgrounds ranging from basic chemistry to ophthalmic surgery that will advance or change the way we understand and/or treat vision-threatening diseases. TVST encourages the use of color, multimedia, hyperlinks, program code and other digital enhancements.
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