肠毒性脆弱拟杆菌通过介导 BFT/STAT3/ZEB2 通路,导致肠屏障损伤和结直肠癌进展。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-01-01 Epub Date: 2024-01-25 DOI:10.1080/15384101.2024.2309005
Jian Yang, Xue Wang, Tao Hu, He Huang, Gang Chen, Bo Jin, Guilin Zeng, Jian Liu
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引用次数: 0

摘要

我们之前的研究结果证实,在结直肠癌(CRC)患者的粪便样本中富含大量脆弱拟杆菌(BF)。肠粘膜屏障是机体抵御共生菌群和肠道病原体的第一道防线,与 CRC 的发生和发展密切相关。因此,本研究旨在探讨BF介导肠道屏障损伤和CRC进展的分子机制。用肠毒性 BF(ETBF)、其肠毒素(B. fragilis toxin, BFT)和非毒性 BF(NTBF)处理 SW480 细胞和 Caco2 肠屏障模型。通过细胞计数试剂盒-8、流式细胞术、伤口愈合和透孔试验来分析 SW480 细胞的增殖、凋亡、迁移和侵袭。透射电子显微镜、FITC-葡聚糖和跨上皮电阻(TEER)用于分析 Caco2 肠屏障模型的损伤情况。建立了偶氮甲烷/硫酸葡聚糖钠(AOM/DSS)动物模型,以评估 ETBF 对体内肠屏障损伤和 CRC 进展的影响。ETBF 和 BFT 增强了 SW480 细胞的活力、伤口愈合率、侵袭和 EMT。此外,ETBF 和 BFT 破坏了肠屏障模型中的紧密连接和绒毛结构,导致通透性增加和 TEER 降低。同样,肠屏障相关蛋白(MUC2、Occludin 和 Zo-1)的表达也受到 ETBF 和 BFT 的限制。有趣的是,STAT3/ZEB2 轴被 ETBF 和 BFT 激活,使用 Brevilin A(STAT3 抑制剂)或敲除 ZEB2 限制了 ETBF 和 BFT 对 SW480 恶性表型的促进作用。体内实验也证实,ETBF定植加速了AOM/DSS动物模型结直肠中的肿瘤负荷、癌变和肠粘膜屏障损伤,而使用Brevilin A治疗则缓解了这些过程。ETBF 分泌的 BFT 通过激活 STAT3/ZEB2 轴加速了肠屏障损伤和 CRC 的发生。我们的发现为 ETBF 在 CRC 治疗中的应用提供了新的见解和视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Entero-toxigenic Bacteroides fragilis contributes to intestinal barrier injury and colorectal cancer progression by mediating the BFT/STAT3/ZEB2 pathway.

Our previous findings confirmed the high enrichment of Bacteroides fragilis (BF) in fecal samples from patients with colorectal cancer (CRC). The intestinal mucosal barrier is the first defense of the organism against commensal flora and intestinal pathogens and is closely associated with the occurrence and development of CRC. Therefore, this study aimed to investigate the molecular mechanisms through which BF mediates intestinal barrier injury and CRC progression. SW480 cells and a Caco2 intestinal barrier model were treated with entero-toxigenic BF (ETBF), its enterotoxin (B. fragilis toxin, BFT), and non-toxigenic BF (NTBF). Cell counting kit-8, flow cytometry, wound healing and transwell assays were performed to analyze the proliferation, apoptosis, migration, and invasion of SW480 cells. Transmission electron microscopy, FITC-dextran, and transepithelial electrical resistance (TEER) were used to analyze damage in the Caco2 intestinal barrier model. The Azoxymethane/Dextran Sulfate Sodium (AOM/DSS) animal model was established to evaluate the effect of ETBF on intestinal barrier injury and CRC progression in vivo. ETBF and BFT enhanced the viability, wound healing ratio, invasion, and EMT of SW480 cells. In addition, ETBF and BFT disrupted the tight junctions and villus structure in the intestinal barrier model, resulting in increased permeability and reduced TEER. Similarly, the expression of intestinal barrier-related proteins (MUC2, Occludin and Zo-1) was restricted by ETBF and BFT. Interestingly, the STAT3/ZEB2 axis was activated by ETBF and BFT, and treatment with Brevilin A (a STAT3 inhibitor) or knockdown of ZEB2 limited the promotional effect of ETBF and BFT on the SW480 malignant phenotype. In vivo experiments also confirmed that ETBF colonization accelerated tumor load, carcinogenesis, and intestinal mucosal barrier damage in the colorectum of the AOM/DSS animal model, and that treatment with Brevilin A alleviated these processes. ETBF-secreted BFT accelerated intestinal barrier damage and CRC by activating the STAT3/ZEB2 axis. Our findings provide new insights and perspectives for the application of ETBF in CRC treatment.

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