miR-1226-5p is involved in radioresistance of colorectal cancer by activating M2 macrophages through suppressing IRF1.

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY ACS Applied Nano Materials Pub Date : 2024-10-29 DOI:10.1186/s12967-024-05797-1

Jae Yeon Choi, Hyun Jeong Seok, Dong Hyeon Lee, Junhye Kwon, Ui Sup Shin, Incheol Shin, In Hwa Bae

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引用次数: 0

Abstract

Background: Although the representative treatment for colorectal cancer (CRC) is radiotherapy, cancer cells survive due to inherent radioresistance or resistance acquired after radiation treatment, accelerating tumor malignancy and causing local recurrence and metastasis. However, the detailed mechanisms of malignancy induced after radiotherapy are not well understood. To develop more effective and improved radiotherapy and diagnostic methods, it is necessary to clearly identify the mechanisms of radioresistance and discover related biomarkers.

Methods: To analyze the expression pattern of miRNAs in radioresistant CRC, sequence analysis was performed in radioresistant HCT116 cells using Gene Expression Omnibus, and then miR-1226-5p, which had the highest expression in resistant cells compared to parental cells, was selected. To confirm the effect of miR-1226-5 on tumorigenicity, Western blot, qRT-PCR, transwell migration, and invasion assays were performed to confirm the expression of EMT factors, cell mobility and invasiveness. Additionally, the tumorigenic ability of miR-1226-5p was confirmed in organoids derived from colorectal cancer patients. In CRC cells, IRF1, a target gene of miR-1226-5p, and circSLC43A1, which acts as a sponge for miR-1226-5p, were discovered and the mechanism was analyzed by confirming the tumorigenic phenotype. To analyze the effect of tumor-derived miR-1226-5p on macrophages, the expression of M2 marker in co-cultured cells and CRC patient tissues were confirmed by qRT-PCR and immunohistochemical (IHC) staining analyses.

Results: This study found that overexpressed miR-1226-5p in radioresistant CRC dramatically promoted epithelial-mesenchymal transition (EMT), migration, invasion, and tumor growth by suppressing the expression of its target gene, IRF1. Additionally, we discovered circSLC43A1, a factor that acts as a sponge for miR-1226-5p and suppresses its expression, and verified that EMT, migration, invasion, and tumor growth are suppressed by circSLC43A1 in radioresistant CRC cells. Resistant CRC cells-derived miR-1226-5p was transferred to macrophages and contributed to tumorigenicity by inducing M2 polarization and secretion of TGF-β.

Conclusions: This study showed that the circSLC43A1/miR-1226-5p/IRF1 axis is involved in radioresistance and cancer aggressiveness in CRC. It was suggested that the discovered signaling factors could be used as potential biomarkers for diagnosis and treatment of radioresistant CRC.

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miR-1226-5p 通过抑制 IRF1 激活 M2 巨噬细胞，从而参与结直肠癌的放射抗性。

背景：尽管结直肠癌（CRC）的代表性治疗方法是放疗，但由于癌细胞固有的放射抗性或放疗后获得的抗性而存活下来，加速了肿瘤的恶变，导致局部复发和转移。然而，放疗后诱发恶性肿瘤的具体机制尚不十分清楚。为了开发更有效、更完善的放疗和诊断方法，有必要明确放射抗性的机制，并发现相关的生物标志物：为了分析miRNA在耐药性CRC中的表达模式，研究人员利用基因表达总库（Gene Expression Omnibus）对耐药性HCT116细胞中的miRNA进行了序列分析，然后选择了耐药性细胞中较亲代细胞表达量最高的miR-1226-5p。为了证实 miR-1226-5 对致瘤性的影响，研究人员进行了 Western 印迹、qRT-PCR、transwell 迁移和侵袭试验，以证实 EMT 因子的表达、细胞的流动性和侵袭性。此外，研究还证实了 miR-1226-5p 在大肠癌患者器官组织中的致瘤能力。在 CRC 细胞中，发现了 miR-1226-5p 的靶基因 IRF1 和作为 miR-1226-5p 海绵的 circSLC43A1，并通过证实致瘤表型分析了其机制。为了分析肿瘤来源的miR-1226-5p对巨噬细胞的影响，通过qRT-PCR和免疫组化（IHC）染色分析证实了共培养细胞和CRC患者组织中M2标记物的表达：本研究发现，耐药 CRC 中过表达的 miR-1226-5p 可通过抑制其靶基因 IRF1 的表达，显著促进上皮-间质转化（EMT）、迁移、侵袭和肿瘤生长。此外，我们还发现了作为 miR-1226-5p 海绵并抑制其表达的因子 circSLC43A1，并验证了 circSLC43A1 可抑制耐药 CRC 细胞的 EMT、迁移、侵袭和肿瘤生长。耐药 CRC 细胞衍生的 miR-1226-5p 被转移到巨噬细胞中，并通过诱导 M2 极化和分泌 TGF-β 促进肿瘤生成：该研究表明，circSLC43A1/miR-1226-5p/IRF1轴参与了CRC的放射抗性和癌症侵袭性。结论：该研究表明，circSLC43A1/miR-1226-5p/IRF1 轴参与了 CRC 的放射抗性和癌症侵袭性，建议将所发现的信号因子作为潜在的生物标记物，用于诊断和治疗放射抗性 CRC。

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来源期刊

ACS Applied Nano Materials Multiple-

CiteScore

8.30

自引率

3.40%

发文量

1601

期刊介绍： ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.