Department of Nano-Bioengineering, Incheon National University, 119, Academy-ro, Yeonsu-gu, Incheon, 22012, Republic of Korea.
Department of Ophthalmology, Severance Hospital, Institute of Vision Research, Yonsei University College of Medicine, Seoul, Republic of Korea.
Tissue Eng Regen Med. 2024 Jul;21(5):695-710. doi: 10.1007/s13770-024-00640-6. Epub 2024 Apr 20.
Various cell culture platforms that could display native environmental cue-mimicking stimuli were developed, and effects of environmental cues on cell behaviors were studied with the cell culture platforms. Likewise, various cell culture platforms mimicking native trabecular meshwork (TM) composed of juxtacanalicular, corneoscleral and uveal meshwork located in internal scleral sulcus were used to study effects of environmental cues and/or drug treatments on TM cells and glaucoma development. Glaucoma is a disease that could cause blindness, and cause of glaucoma is not clearly identified yet. It appears that aqueous humor (AH) outflow resistance increased by damages on pathway of AH outflow can elevate intraocular pressure (IOP). These overall possibly contribute to development of glaucoma.
For the study of glaucoma, static and dynamic cell culture platforms were developed. Particularly, the dynamic platforms exploiting AH outflow-mimicking perfusion or increased IOP-mimicking increased pressure were used to study how perfusion or increased pressure could affect TM cells. Overall, potential mechanisms of glaucoma development, TM structures and compositions, TM cell culture platform types and researches on TM cells and glaucoma development with the platforms were described in this review.
This will be useful to improve researches on TM cells and develop enhanced therapies targeting glaucoma.
已经开发出了各种能够展示原生环境线索模拟刺激的细胞培养平台,并利用这些细胞培养平台研究了环境线索对细胞行为的影响。同样,也已经开发出了各种模拟由位于巩膜内沟的小梁网、角巩膜和葡萄膜网组成的原生小梁网的细胞培养平台,用于研究环境线索和/或药物处理对 TM 细胞和青光眼发展的影响。青光眼是一种可能导致失明的疾病,但其病因尚未明确。似乎房水(aqueous humor,AH)流出途径的损伤导致 AH 流出阻力增加,从而升高眼内压(intraocular pressure,IOP)。所有这些都可能导致青光眼的发生。
为了研究青光眼,已经开发出了静态和动态细胞培养平台。特别是,利用模拟 AH 流出的灌注或增加 IOP 的模拟增加压力的动态平台来研究灌注或增加压力如何影响 TM 细胞。总之,本文综述了青光眼发展的潜在机制、TM 结构和组成、TM 细胞培养平台类型,以及利用这些平台对 TM 细胞和青光眼发展的研究。
这将有助于提高对 TM 细胞的研究,并开发针对青光眼的增强治疗方法。