TNF-α-Induced NF-κB Alter the Methylation Status of Some Stemness Genes in HT-29 Human Colon Cancer Cell.

IF 0.7 Q4 MEDICINE, RESEARCH & EXPERIMENTAL

Advanced biomedical research Pub Date : 2024-11-30 eCollection Date: 2024-01-01 DOI:10.4103/abr.abr_75_24

Hamid Zand, Seyed Ahmad Hosseini, Makan Cheraghpour, Meysam Alipour, Fatemeh Sedaghat

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引用次数: 0

Abstract

Background: Acquisition of stem-like properties requires overcoming the epigenetic barrier of differentiation and re-expression of several genes involved in stemness and the cell cycle. DNA methylation is the classic epigenetic mechanism for de/differentiation. The writers and erasers of DNA methylation are not site-specific enzymes for altering specific gene methylation. Thus, the aim of the present study is investigation of the in vitro interaction of ten eleven translocations (TETs) with nuclear factor kappa B (NF-κB) in hypomethylation of stemness genes.

Materials and methods: This experimental study was performed on HT-29 cells as human colorectal cancer cell lines. The interaction between TETs and DNA-methyltransferases 3 beta (DNMT3s) with p65 was achieved by coimmunoprecipitation. TETs were knocked down using siRNA, and the efficacy was analyzed by reverse-transcriptase polymerase chain reaction. The promoter methylation status of the target genes (NANOG, MYC) was determined by the methylation-sensitive high-resolution melting method.

Results: TET3 and DNMT3b functionally interacted with p65 in samples through 25 ng/ml TNF-α treatment for 48 h in HT-29 cells. Transfection with siRNA significantly decreased the expression of TET enzymes after 72 h. Interestingly, treatment with TET siRNAs enhanced methylation of MYC and NANOG genes in samples with 25 ng/ml TNF-α treatment for 72 h in HT-29 cells. Moreover, methylation effects of TET3 were stronger than those of TET1 and TET2.

Conclusions: These results suggest that inflammation may alter the methylation status of genes required for stemness and predispose the cells to neoplastic alterations.

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TNF-α-诱导的NF-κB改变HT-29人结肠癌细胞中一些干细胞基因的甲基化状态

背景：干细胞样特性的获得需要克服一些参与干细胞和细胞周期的基因的分化和重新表达的表观遗传障碍。DNA甲基化是脱氧/分化的典型表观遗传机制。DNA甲基化的“书写者”和“擦除者”并不是改变特定基因甲基化的位点特异性酶。因此，本研究的目的是研究10 - 11易位（TETs）与核因子κB （NF-κB）在干细胞基因低甲基化中的体外相互作用。材料与方法：本实验以HT-29细胞作为人结直肠癌细胞系进行。TETs和dna甲基转移酶3 β (DNMT3s)与p65之间的相互作用是通过共免疫沉淀实现的。使用siRNA敲除TETs，并通过逆转录酶聚合酶链反应分析其疗效。目的基因（NANOG， MYC）的启动子甲基化状态通过甲基化敏感的高分辨率熔融法测定。结果：在HT-29细胞中，通过25 ng/ml TNF-α处理48 h， TET3和DNMT3b与样品中的p65有功能相互作用。转染siRNA可显著降低72 h后TET酶的表达。有趣的是，在25 ng/ml TNF-α处理72 h的HT-29细胞中，TET siRNA处理可增强MYC和NANOG基因的甲基化。此外，TET3的甲基化作用强于TET1和TET2。结论：这些结果表明，炎症可能改变干细胞所需基因的甲基化状态，并使细胞易发生肿瘤改变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced biomedical research

CiteScore

0.90

自引率

0.00%

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