WTAP-mediated N6-methyladenosine mRNA methylation regulates laser-induced macular neovascularization.

N6-甲基腺苷 甲基化 DNA甲基化 生物 信使核糖核酸 脉络膜新生血管 遗传学 分子生物学 基因表达 基因 甲基转移酶 视网膜 生物化学
作者
Qingyun Gong,Liting Hu,Guibo Liu,Xiaoni Yin,Xiaoran Zhao,Qinghua Li,Ying Li,Yibin Sun,Yuzheng Zhou,Chunyan Guo,Zhaodong Du
出处
期刊:PubMed [National Institutes of Health]
卷期号:30: 336-347
标识
摘要

Purpose: Neovascular age-related macular degeneration (nAMD) is now a major cause of central vision loss in older adults worldwide. The primary characteristic of nAMD is the formation of macular neovascularization (MNV), which is a pathologic form of angiogenesis. Epigenetics plays a role in multiple pathological physiologic processes. N6-methyladenosine (m6A) modification is the most common, abundant, and reversible modification in eukaryotic mRNAs, and it plays a role in various pathological angiogenesis processes. This study intends to reveal the expression and functions of m6A during the macular neovascularization (MNV) process. Methods: A laser-induced MNV mouse model was used in this study. m6A quantitative analysis was performed to detect the expression of m6A. Subsequently, the expression of various m6A writers and erasers was detected using quantitative real-time polymerase chain reaction (qRT-PCR) and western blot. Immunohistochemistry was used to detect Wilms' tumor 1-associating protein (WTAP) expression in the MNV lesions. Intravitreal injection of WTAP siRNA in MNV mice to silence the WTAP gene. Hematoxylin and eosin (H&E) were used to determine the thickness and length of the MNV. Fundus fluorescein angiography (FFA) and indocyanine green angiography (ICGA) were examined to measure the leakage area of the MNV. Proliferating cell nuclear antigen (PCNA) expression was detected with a western blot. The mRNA and protein levels of β-catenin were tested with qRT-PCR and western blot. Results: We found increased m6A modification levels after laser induction compared with the normal control group. Subsequently, the expression of various m6A writers and erasers was detected. The results showed that WTAP increased in the MNV model in mice. After the injection of WTAP siRNA into the vitreous body, the expression of WTAP significantly decreased, subsequently decreasing the m6A modification levels. The width, breadth, and leakage area of MNV damage markedly decreased, and endothelial cell proliferation was inhibited. After laser-induced MNV, the expression of β-catenin increased, and that of β-catenin significantly decreased after WTAP knockout. Conclusions: In conclusion, this study suggests that WTAP-mediated m6A methylation can regulate pathological angiogenesis during MNV and that WTAP may participate in the formation of MNV through the wingless-related integration site (Wnt) pathway. WTAP may be a potential target for MNV treatment.

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