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Journal of bioinformatics and systems biology : Open access Pub Date : 2024-01-01 DOI:10.26502/jbsb.5107077

Makenzie B Merkley, Diana Soriano, Kenneth L Jones, Jody A Summers

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引用次数: 0

摘要

目的：一氧化氮（NO）被认为是控制多种生理功能的重要生物介质，现在有证据表明，这种分子可能在出生后控制眼球生长和近视发展的过程中发挥重要作用。因此，我们试图了解一氧化氮在视觉引导的眼球生长中所起的作用，以深入了解这一过程的内在机制：方法：在一氧化氮供体PAPA- NONOate（1.5 mM）存在的情况下，将脉络膜置于器官培养液中培养。提取 RNA 后，使用批量 RNA-seq 对存在和不存在 PAPA-NONOate 时的脉络膜基因表达进行量化和比较。我们利用生物信息学确定了脉络膜中富集的典型通路、预测的疾病和功能以及 NO 的调控作用：结果：用NO供体PAPA-NONOate处理正常小鸡脉络膜后，与未处理的对照组相比，我们共发现了837个差异表达基因（259个上调基因，578个下调基因）。其中，前五个上调基因是 LSMEM1、STEAP4、HSPB9 和 CCL19，前五个下调基因是 CDCA3、SMC2、一个新基因（ENSALGALG00000050836）、一个未定性基因（LOC107054158）和 SPAG5。生物信息学预测，NO 处理将激活涉及细胞和生物体死亡、坏死和心血管系统发育的通路，并抑制涉及细胞增殖、细胞运动和基因表达的通路：本文报告的研究结果可让人们深入了解NO在视觉调节眼球生长过程中可能对脉络膜产生的影响，并有助于确定治疗近视和其他眼部疾病的靶向疗法。

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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The Effects of Nitric Oxide on Choroidal Gene Expression.

Purpose: Nitric oxide (NO) is recognized as an important biological mediator that controls several physiological functions, and evidence is now emerging that this molecule may play a significant role in the postnatal control of ocular growth and myopia development. We therefore sought to understand the role that nitric oxide plays in visually-guided ocular growth in order to gain insight into the underlying mechanisms of this process.

Methods: Choroids were incubated in organ culture in the presence of the NO donor, PAPA- NONOate (1.5 mM). Following RNA extraction, bulk RNA-seq was used to quantify and compare choroidal gene expression in the presence and absence of PAPA-NONOate. We used bioinformatics to identify enriched canonical pathways, predicted diseases and functions, and regulatory effects of NO in the choroid.

Results: Upon treatment of normal chick choroids with the NO donor, PAPA-NONOate, we identified a total of 837 differentially expressed genes (259 upregulated genes, 578 down-regulated genes) compared with untreated controls. Among these, the top five upregulated genes were LSMEM1, STEAP4, HSPB9, and CCL19, and the top five down-regulated genes were CDCA3, SMC2, a novel gene (ENSALGALG00000050836), an uncharacterized gene (LOC107054158), and SPAG5. Bioinformatics predicted that NO treatment will activate pathways involved in cell and organismal death, necrosis, and cardiovascular system development, and inhibit pathways involved in cell proliferation, cell movement, and gene expression.

Conclusions: The findings reported herein may provide insight into possible effects of NO in the choroid during visually regulated eye growth, and help to identify targeted therapies for the treatment of myopia and other ocular diseases.

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Journal of bioinformatics and systems biology : Open access

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