对 piRNA PMLCPIR 在促进 PM2.5 诱导的肺癌中的功能和机制的新认识。

Journal of advanced research Pub Date : 2024-08-24 DOI:10.1016/j.jare.2024.08.029

Lin Xu, Wanli Ma, Xiaoyu Huo, Jiao Luo, Ruoxi Li, Xiaoxiao Zhu, Xiangbin Kong, Kunming Zhao, Yuan Jin, Meihua Zhang, Xianshu Li, Ling Wang, Wei Han, Dianke Yu

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引用次数: 0

摘要

导言：大量研究证实，长期暴露于PM2.5与肺癌之间存在关联，但人们对这种关联的机制仍然知之甚少。PIWI-interacting RNAs（piRNAs）是一类新型的小非编码 RNAs，在多种疾病中发挥着重要作用。然而，它们在PM2.5诱导的肺癌中的生物学功能和机制尚未得到深入研究：我们旨在探索 piRNA 在 PM2.5 暴露诱发的肺癌中的致癌作用及其内在机制：方法：我们建立了一个PM2.5诱导的人类肺上皮细胞恶性转化模型。方法：我们建立了一个 PM2.5 诱导的人肺上皮细胞恶性转化模型，并使用人体样本进一步验证了这一发现。为了研究 piRNA 的功能，我们进行了体外增殖、迁移和侵袭试验。利用 RNA 测序来阐明 piRNA 如何介导细胞功能的机制。进行了 piRNA 拉取和计算对接分析，以确定与 piRNA 结合的蛋白质。体内实验用于探索抑制 PMLCPIR 是否能对肺癌产生治疗效果：结果：我们发现了一种新的上调piRNA，称为PM2.5诱导的肺癌上调piRNA（PMLCPIR），它能促进PM2.5转化细胞和肺癌细胞的增殖。RNA 测序发现 ITGB1 是 PMLCPIR 的下游靶标。重要的是，PMLCPIR 可与核蛋白（NCL）结合，增加其靶基因 ITGB1 的表达，从而激活 PI3K/AKT 信号转导。抑制PMLCPIR可促进肺癌细胞凋亡，增强其对抗肿瘤药物的化疗敏感性：结论：我们系统地发现了PM2.5诱导的恶性转化模型中piRNA表达谱的改变。结论：我们系统地鉴定了PM2.5诱导的恶性转化模型中piRNA表达谱的改变，发现PMLCPIR是PM2.5诱导的肺癌中一种新型的致癌piRNA。从机理上讲，PMLCPIR与NCL结合，增强了ITGB1的表达，激活了本体PI3K/AKT信号传导，从而可能导致肺癌的进展。这项研究为揭示PM2.5诱导的肺癌中新的表观遗传调节因子提供了新的见解。

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New insights into the function and mechanisms of piRNA PMLCPIR in promoting PM_2.5-induced lung cancer.

Introduction: Extensive studies have established the correlation between long-term PM_2.5 exposure and lung cancer, yet the mechanisms underlying this association remain poorly understood. PIWI-interacting RNAs (piRNAs), a novel category of small non-coding RNAs, serve important roles in various diseases. However, their biological function and mechanism in PM_2.5-induced lung cancer have not been thoroughly investigated.

Objectives: We aimed to explore the oncogenic role of piRNA in lung cancer induced by PM_2.5 exposure, as well as the underlying mechanisms.

Methods: We conducted a PM_2.5-induced human lung epithelial cell malignant transformation model. Human samples were used to further verify the finding. In vitro proliferation, migration, and invasion assays were performed to study the function of piRNA. RNA-sequencing was used to elucidate the the mechanisms of how piRNA mediates cell functions. PiRNA pull-down and computational docking analysis were conducted to identify proteins that binding to piRNA. In vivo experiments were used to explore whether inhibition of PMLCPIR could have a therapeutic effect on lung cancer.

Results: We identified a new up-regulated piRNA, termed PM_2.5-induced lung cancer up-regulation piRNA (PMLCPIR), which promotes the proliferation of PM_2.5-transformed cells and lung cancer cells. RNA sequencing revealed ITGB1 as a downstream target of PMLCPIR. Importantly, PMLCPIR binds to nucleolin (NCL) and increases the expression of its target gene, ITGB1, thereby activating PI3K/AKT signaling. The inhibition of PMLCPIR could promote apoptosis in lung cancer cells and enhance their chemosensitivity to anti-tumor drugs.

Conclusion: We systematically identified the alterations of piRNA expression profiles in the PM_2.5-induced malignant transformation model. Then, PMLCPIR was recognized as a novel oncogenic piRNA in PM_2.5-induced lung cancer. Mechanically, PMLCPIR binds to NCL, enhancing ITGB1 expression and activating the ontogenetic PI3K/AKT signaling, potentially contributing to lung cancer progression. This study provides novel insights into the revelation of a new epigenetic regulator in PM_2.5-induced lung cancer.

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Journal of advanced research

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