Introduction of a single-nucleotide variant, rs16851030, into the ADORA1 gene increased cellular susceptibility to hypoxia.

Poh Kuan Wong, Saiful Effendi Syafruddin, Fook Choe Cheah, Norazrina Azmi, Pei Yuen Ng, Eng Wee Chua
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Abstract

Aim: Rs16851030, a single-nucleotide variant located in the 3'-untranslated region of the ADORA1 gene, has been proposed as a potential marker of caffeine sensitivity in apnea of prematurity. Besides, it is associated with aspirin-induced asthma and the development of acute chest syndrome. However, its functional significance is still unconfirmed. This study aimed to elucidate the functional impact of rs16851030 by using CRISPR/Cas9 approach to induce the DNA variant and attendant physiological changes.Methods: Rs16851030 was introduced into HEK293 cells via homology-directed repair (HDR). Edited cells were fluorescence-enriched, sorted, isolated, and expanded into single-cell-derived clones. The edit was confirmed by Sanger sequencing. RNA sequencing was used to analyze affected pathways.Results: Rs16851030-mutant cells showed increased susceptibility to hypoxia, a condition related to apnea of prematurity. After 24 h of hypoxia, the viability of mutant clones 1 and 2 was low compared with wild-type cells (75.45% and 74.47% vs. 96.34%). RNA sequencing revealed transcriptomic changes linked to this increased vulnerability.Conclusion: Rs16851030 impairs cellular resistance to hypoxia, suggesting its role in conditions like apnea of prematurity. Further research should investigate the molecular mechanisms and transcriptomic alterations caused by rs16851030 under hypoxic conditions.

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在 ADORA1 基因中引入单核苷酸变体 rs16851030 会增加细胞对缺氧的敏感性。
目的:位于 ADORA1 基因 3'- 非翻译区的单核苷酸变异体 Rs16851030 被认为是早产儿呼吸暂停中咖啡因敏感性的潜在标记物。此外,它还与阿司匹林诱发的哮喘和急性胸部综合征的发生有关。然而,其功能意义仍未得到证实。本研究旨在通过使用 CRISPR/Cas9 方法诱导 DNA 变异及随之而来的生理变化,阐明 rs16851030 的功能影响:方法:通过同源定向修复(HDR)将 Rs16851030 导入 HEK293 细胞。对编辑过的细胞进行荧光富集、分选、分离,并扩增成单细胞衍生克隆。编辑结果由桑格测序法确认。RNA 测序用于分析受影响的通路:结果:Rs16851030突变体细胞对缺氧的敏感性增加,而缺氧与早产儿呼吸暂停有关。缺氧 24 小时后,突变克隆 1 和 2 的存活率比野生型细胞低(75.45% 和 74.47% 对 96.34%)。RNA 测序揭示了与这种脆弱性增加有关的转录组变化:Rs16851030会损害细胞对缺氧的抵抗力,这表明它在早产儿呼吸暂停等疾病中的作用。进一步的研究应探讨 rs16851030 在缺氧条件下引起的分子机制和转录组变化。
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