Your search keyword '"Nan, Aruo"' showing total 4 results

1. TRMT10C-mediated m7G modification of circFAM126A inhibits lung cancer growth by regulating cellular glycolysis.

Author

Zhao, Qingyun, Li, Xiaofei, Wu, Jiaxi, Zhang, Ruirui, Chen, Sixian, Cai, Dunyu, Xu, Haotian, Peng, Wenyi, Li, Gang, and Nan, Aruo

Subjects

RNA modification & restriction, LUNG cancer, TUMOR growth, CIRCULAR RNA, CELL metabolism

Abstract

The N7-methylguanosine (m7G) modification and circular RNAs (circRNAs) have been shown to play important roles in the development of lung cancer. However, the m7G modification of circRNAs has not been fully elucidated. This study revealed the presence of the m7G modification in circFAM126A. We propose the novel hypothesis that the methyltransferase TRMT10C mediates the m7G modification of circFAM126A and that the stability of m7G-modified circFAM126A is reduced. circFAM126A is downregulated in lung cancer and significantly inhibits lung cancer growth both in vitro and in vivo. The expression of circFAM126A correlates with the stage of lung cancer and with the tumour diameter, and circFAM126A can be used as a potential molecular target for lung cancer. The molecular mechanism by which circFAM126A increases HSP90 ubiquitination and suppresses AKT1 expression to regulate cellular glycolysis, ultimately inhibiting the progression of lung cancer, is elucidated. This study not only broadens the knowledge regarding the expression and regulatory mode of circRNAs but also provides new insights into the molecular mechanisms that regulate tumour cell metabolism and affect tumour cell fate from an epigenetic perspective. These findings will facilitate the development of new strategies for lung cancer prevention and treatment. Graphical Headlights • circRNA can undergo m7G modification. The methyltransferase TRMT10C mediates circFAM126A m7G modification, thereby enhancing circFAM126A stability. • m7G-modified circFAM126A can perform a biological function in inhibiting lung cancer progression by regulating cellular glycolysis. • circFAM126A increases ubiquitination of HSP90 and inhibits AKT1 expression to regulate cellular glycolysis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Exosomal circCNOT6L Regulates Astrocyte Apoptotic Signals Induced by Hypoxia Exposure Through miR99a-5p/SERPINE1 and Alleviates Ischemic Stroke Injury.

Author

He, Wanting, Gu, Lian, Yang, Jialei, Zhang, Ruirui, Long, Jianxiong, Peng, Wenyi, Liang, Baoyun, Zhu, Lulu, Lv, Miao, Nan, Aruo, and Su, Li

Abstract

Circular RNAs are involved in intervention strategies for treating ischemic stroke (IS). However, circCNOT6L (hsa_circ_0006168) has not yet been reported in IS. Thus, we aimed to explore the potential role of circCNOT6L and its molecular mechanism in IS. In this study, we first found that the expression of both exosomal circCNOT6L (P = 0.0006) and plasma circCNOT6L (P = 0.0054) was down-regulated in IS patients compared with controls. Clinically, a negative correlation was observed between the relative expression level of circCNOT6L and the National Institutes of Health Stroke Scale (NIHSS) score and infarct volume of the brain. Simultaneously, the relative expression level of circCNOT6L was negatively associated with multiple risk factors for IS, such as mean platelet volume (MPV), red cell distribution width (RDW), very low-density lipoprotein (VLDL), and serum potassium, whereas it was positively correlated with high-density lipoprotein (HDL). In vitro, circCNOT6L silencing blocked cell viability and proliferation, while it promoted cell apoptosis of astrocytes undergoing oxygen–glucose deprivation/reperfusion (OGD/R) treatment. Mechanistically, the RNA antisense purification (RAP) assay and luciferase reporter assay revealed that circCNOT6L acts as a miRNA sponge to absorb miR-99a-5p and then regulates the expression of serine proteinase inhibitor (SERPINE1). In the further rescue experiment, overexpressing SERPINE1 could rescue the cell apoptotic signals due to circCNOT6L depletion. In conclusion, CircCNOT6L attenuated the cell apoptotic signal of astrocytes via the miR99a-5p/SERPINE1 axis and then alleviated injury after hypoxia induced by ischemic stroke. [ABSTRACT FROM AUTHOR]

Published

2023

3. Circular RNA circGLIS3 promotes bladder cancer proliferation via the miR-1273f/SKP1/Cyclin D1 axis.

Author

Wu, Shuilian, Yang, Jialei, Xu, Haotian, Wang, Xin, Zhang, Ruirui, Lu, Wenmin, Yang, Jie, Li, Xiaofei, Chen, Sixian, Zou, Yunfeng, and Nan, Aruo

Subjects

BLADDER cancer, CIRCULAR RNA, CANCER cell growth, CANCER cell proliferation

Abstract

Extensive research confirmed that circRNA can play a regulatory role in various stages of tumors by interacting with various molecules. Identifying the differentially expressed circRNA in bladder cancer and exploring its regulatory mechanism on bladder cancer progression are urgent. In this study, we screened out a circRNA-circGLIS3 with a significant upregulation trend in both bladder cancer tissues and cells. Bioinformatics prediction results showed that circGLIS3 may be involved in multiple tumor-related pathways. Function gain and loss experiments verified circGLIS3 can affect the proliferation, migration, and invasion of bladder cancer cells in vitro. Moreover, silencing circGLIS3 inhibited bladder cancer cell growth in vivo. Subsequent research results indicated circGLIS3 regulated the expression of cyclin D1, a cell cycle–related protein, and cell cycle progression. Mechanically, circGLIS3 upregulates the expression of SKP1 by adsorbing miR-1273f and then promotes cyclin D1 expression, ultimately promoting the proliferation of bladder cancer cells. In summary, our study indicates that circGLIS3 plays an oncogene role in the development of bladder cancer and has potential to be a candidate for bladder cancer. [ABSTRACT FROM AUTHOR]

Published

2022

4. A novel regulatory network among LncRpa, CircRar1, MiR- 671 and apoptotic genes promotes lead-induced neuronal cell apoptosis.

Author

Nan, Aruo, Chen, Lijian, Zhang, Nan, Liu, Zhenzhong, Yang, Ti, Wang, Zhishan, Yang, Chengfeng, and Jiang, Yiguo

Subjects

*LEAD, *RNA analysis, *APOPTOSIS, *CELL death, *LABORATORY mice

Abstract

Lead is a metal that has toxic effects on the developing nervous system. However, the mechanisms underlying lead-induced neurotoxicity are not well understood. Non-coding RNAs (ncRNAs) play an important role in epigenetic regulation, but few studies have examined the function of ncRNAs in lead-induced neurotoxicity. We addressed this in the present study by evaluating the functions of a long non-coding RNA (named lncRpa) and a circular RNA (named circRar1) in a mouse model of lead-induced neurotoxicity. High-throughput RNA sequencing showed that both lncRpa and circRar1 promoted neuronal apoptosis. We also found that lncRpa and circRar1 induced the upregulation of apoptosis-associated factors caspase8 and p38 at the mRNA and protein levels via modulation of their common target microRNA miR- 671. This is the first report of a regulatory interaction among a lncRNA, circRNA, and miRNA mediating neuronal apoptosis in response to lead toxicity. [ABSTRACT FROM AUTHOR]

Published

2017