房水生成分子机制的计算机分析:对青光眼的潜在影响。

Sarah F Janssen, Theo Gmf Gorgels, Peter J van der Spek, Nomdo M Jansonius, Arthur Ab Bergen
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引用次数: 19

摘要

背景:眼睫状体上皮(CBE)产生房水(AH)。CBE产生AH和通过小梁网流出AH之间的平衡最终决定了眼内压(IOP)。眼压升高是原发性开角型青光眼(POAG)的主要危险因素。本研究旨在阐明CBE最重要的功能:AH的产生和组成的分子机制,并为POAG和AH降产药物寻找可能的新分子线索。方法:对人死后眼CBE的非色素上皮(NPE)和色素上皮(PE)进行基因表达分析。我们使用了44k安捷伦微阵列对一个共同的参考设计。使用Ingenuity知识库进行功能标注。结果:我们将先前发表的生理数据与当前的基因组表达数据相结合,建立了AH产生的分子模型。接下来,我们研究了可能影响AH组成的分子CBE运输特征。这些特征包括小洞蛋白和网格蛋白囊泡介导的大分子生物运输,以及一系列底物特异性转运体。这些转运体的存在表明,例如免疫球蛋白、甲状腺激素、前列腺素、胆固醇和维生素可以由CBE与AH一起分泌。在计算机上,我们预测了NPE和PE之间的一些分子顶端相互作用,这是两个折叠上皮彼此面对的一面。最后,我们在CBE胞外间隙质膜中发现APOE、CAV1、COL8A2、EDNRA、FBN1、RFTN1、TLR4等7个POAG疾病基因的高表达,并在AH中发现了可能的AH降药新靶点。结论:CBE表达了许多转运蛋白,这些转运蛋白决定了AH的产生和/或组成。其中一些条目也与POAG有关。我们假设CBE可能在POAG的发病机制中发挥比目前认为的更突出的作用,例如通过改变AH的组成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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In silico analysis of the molecular machinery underlying aqueous humor production: potential implications for glaucoma.

Background: The ciliary body epithelia (CBE) of the eye produce the aqueous humor (AH). The equilibrium between the AH production by the CBE and the outflow through the trabecular meshwork ultimately determines the intraocular pressure (IOP). An increased IOP is a major risk factor for primary open angle glaucoma (POAG). This study aims to elucidate the molecular machinery of the most important function of the CBE: the AH production and composition, and aims to find possible new molecular clues for POAG and AH production-lowering drugs.

Methods: We performed a gene expression analysis of the non-pigmented (NPE) and pigmented epithelia (PE) of the human CBE of post mortem eyes. We used 44 k Agilent microarrays against a common reference design. Functional annotations were performed with the Ingenuity knowledge database.

Results: We built a molecular model of AH production by combining previously published physiological data with our current genomic expression data. Next, we investigated molecular CBE transport features which might influence AH composition. These features included caveolin- and clathrin vesicle-mediated transport of large biomolecules, as well as a range of substrate specific transporters. The presence of these transporters implies that, for example, immunoglobins, thyroid hormone, prostaglandins, cholesterol and vitamins can be secreted by the CBE along with the AH. In silico, we predicted some of the molecular apical interactions between the NPE and PE, the side where the two folded epithelia face each other. Finally, we found high expression of seven POAG disease genes in the plasma membrane of extracellular space of the CBE, namely APOE, CAV1, COL8A2, EDNRA, FBN1, RFTN1 and TLR4 and we found possible new targets for AH lowering drugs in the AH.

Conclusions: The CBE expresses many transporters, which account for AH production and/or composition. Some of these entries have also been associated with POAG. We hypothesize that the CBE may play a more prominent role than currently thought in the pathogenesis of POAG, for example by changing the composition of AH.

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