靶向长链非编码 RNA-AQP4-AS1 治疗糖尿病视网膜神经血管功能障碍。
Targeting long noncoding RNA-AQP4-AS1 for the treatment of retinal neurovascular dysfunction in diabetes mellitus.
机构信息
The Affiliated Eye Hospital, Nanjing Medical University, Nanjing 210029, China; The Fourth School of Clinical Medicine, Nanjing Medical University, Nanjing, China.
The Affiliated Eye Hospital, Nanjing Medical University, Nanjing 210029, China; Eye Institute and Department of Ophthalmology, Eye and ENT Hospital, Fudan University, Shanghai, China.
出版信息
EBioMedicine. 2022 Mar;77:103857. doi: 10.1016/j.ebiom.2022.103857. Epub 2022 Feb 13.
BACKGROUND
Diabetic retinopathy (DR) is a leading cause of blindness in the working-age population, which is characterized by retinal neurodegeneration and vascular dysfunction. Long non-coding RNAs (LncRNAs) have emerged as critical regulators in several biological processes and disease progression. Here we investigated the role of lncRNA AQP4-AS1 in retinal neurovascular dysfunction induced by diabetes.
METHODS
Quantitative RT-PCR was used to detect the AQP4-AS1 expression pattern upon diabetes mellitus-related stresses. Visual electrophysiology examination, TUNEL staining, Evans blue staining, retinal trypsin digestion and immunofluorescent staining were conducted to detect the role of AQP4-AS1 in retinal neurovascular dysfunction in vivo. MTT assays, TUNEL staining, PI/Calcein-AM staining, EdU incorporation assay transwell assay and tube formation were conducted to detect the role of AQP4-AS1 in retinal cells function in vitro. qRT-PCR, western blot and in vivo studies were conducted to reveal the mechanism of AQP4-AS1-mediated retinal neurovascular dysfunction.
FINDINGS
AQP4-AS1 was significantly increased in the clinical samples of diabetic retinopathy patients, high glucose-treated Müller cells, and diabetic retinas of a murine model. AQP4-AS1 silencing in vivo alleviated retinal neurodegeneration and vascular dysfunction as shown by improved retinal capillary degeneration, decreased reactive gliosis, and reduced RGC loss. AQP4-AS1 directly regulated Müller cell function and indirectly affected endothelial cell and RGC function in vitro. Mechanistically, AQP4-AS1 regulated retinal neurovascular dysfunction through affecting AQP4 levels.
INTERPRETATION
This study reveals AQP4-AS1 is involved in retinal neurovascular dysfunction and expected to become a promising target for the treatment of neurovascular dysfunction in DR.
FUNDING
This work was generously supported by the grants from the National Natural Science Foundation of China (Grant No. 81800858, 82070983, 81870679 and 81970823), grants from the Medical Science and Technology Development Project Fund of Nanjing (Grant No ZKX17053 and YKK19158), grants from Innovation Team Project Fund of Jiangsu Province (No. CXTDB2017010), and the Science and Technology Development Plan Project Fund of Nanjing (Grant No 201716007, 201805007 and 201803058).
背景
糖尿病视网膜病变(DR)是工作年龄人群失明的主要原因,其特征是视网膜神经退行性变和血管功能障碍。长链非编码 RNA(lncRNA)已成为多种生物学过程和疾病进展的关键调节因子。在这里,我们研究了 lncRNA AQP4-AS1 在糖尿病诱导的视网膜神经血管功能障碍中的作用。
方法
采用定量 RT-PCR 检测与糖尿病相关应激时 AQP4-AS1 的表达模式。通过视觉电生理学检查、TUNEL 染色、伊文思蓝染色、视网膜胰蛋白酶消化和免疫荧光染色,检测 AQP4-AS1 在体内视网膜神经血管功能障碍中的作用。通过 MTT 测定、TUNEL 染色、PI/Calcein-AM 染色、EdU 掺入测定、Transwell 测定和管形成测定,检测 AQP4-AS1 在体外视网膜细胞功能中的作用。通过 qRT-PCR、western blot 和体内研究揭示了 AQP4-AS1 介导的视网膜神经血管功能障碍的机制。
结果
临床糖尿病视网膜病变患者样本、高糖处理的 Muller 细胞和糖尿病小鼠模型的视网膜中 AQP4-AS1 明显增加。体内 AQP4-AS1 沉默可减轻视网膜神经退行性变和血管功能障碍,表现为视网膜毛细血管退化改善、反应性神经胶质减少和 RGC 丢失减少。AQP4-AS1 直接调节 Muller 细胞功能,并间接影响内皮细胞和 RGC 功能。机制上,AQP4-AS1 通过调节 AQP4 水平来调节视网膜神经血管功能障碍。
结论
本研究揭示了 AQP4-AS1 参与了视网膜神经血管功能障碍,有望成为治疗 DR 神经血管功能障碍的有前途的靶点。
资助
本工作得到了国家自然科学基金(Grant No. 81800858、82070983、81870679 和 81970823)、南京市医学科技发展项目基金(Grant No. ZKX17053 和 YKK19158)、江苏省创新团队项目基金(No. CXTDB2017010)和南京市科学技术发展计划项目基金(Grant No. 201716007、201805007 和 201803058)的资助。
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