Qiuhua Lin, Han Wang, Wenbo Chen, Xinjie Wei, Jinglian Chen, Ying Deng, Chunyin Wei, Hao Lai, Xianwei Mo, Weizhong Tang, Tao Luo
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Furthermore, through flow cytometry analysis, we examined the alterations in the tumor immune microenvironment following anti-PD-L1 antibody therapy in a murine tumor model treated with IBA.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>Elevated levels of IBA were found to robustly activate PD-L1 expression in CRC cells both in vitro and in vivo, concomitantly reshaping the tumor immune microenvironment. Subsequent mechanistic investigations unveiled that IBA, through its interaction and activation of ROCK1, promotes the activation of c-Myc, thereby enhancing the transcription of PD-L1. Silencing of ROCK1 and application of ROCK1 inhibitors effectively reversed the regulatory effects of IBA on PD-L1. Additionally, IBA inhibited the activity of infiltrating CD8<sup>+</sup> T cells, resulting in diminished antitumor immunity and attenuating the sensitivity to anti-PD-L1 therapy.</p>\n </section>\n \n <section>\n \n <h3> Conclusion</h3>\n \n <p>Our study elucidates a novel mechanism by which IBA inhibits the sensitivity of CRC to anti-PD-L1 antibody therapy. 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引用次数: 0
摘要
导言:异丁酸(IBA)是一种短链脂肪酸,已被明确证实对结直肠癌(CRC)的进展有显著影响。然而,对其错综复杂的调控机制的全面了解仍然遥遥无期:方法:我们采用 Western 印迹、RT-qPCR 和流式细胞术等先进技术,系统研究了 IBA 对 CRC 细胞中 PD-L1 表达的影响。同时,我们采用 RNA 沉默技术和小分子抑制剂,深入研究了 IBA 的调控轴涉及 ROCK1/c-Myc/PD-L1 的复杂分子机制。此外,我们还通过流式细胞术分析,研究了使用 IBA 治疗的小鼠肿瘤模型在接受抗 PD-L1 抗体治疗后肿瘤免疫微环境的变化:结果:研究发现,IBA 水平的升高可在体外和体内强力激活 CRC 细胞中 PD-L1 的表达,同时重塑肿瘤免疫微环境。随后的机理研究发现,IBA 通过与 ROCK1 的相互作用和激活,促进了 c-Myc 的活化,从而增强了 PD-L1 的转录。抑制 ROCK1 和使用 ROCK1 抑制剂可有效逆转 IBA 对 PD-L1 的调控作用。此外,IBA还抑制了浸润CD8+ T细胞的活性,导致抗肿瘤免疫力下降,并降低了抗PD-L1疗法的敏感性:我们的研究阐明了IBA抑制CRC对抗PD-L1抗体治疗敏感性的新机制。我们的研究结果强调了IBA及其下游通路是免疫治疗耐药机制的潜在治疗靶点,为克服免疫治疗耐药提供了新的理论基础。
Isobutyric Acid Promotes Immune Evasion in Colorectal Cancer via Increased PD-L1 Expression
Introduction
Isobutyric acid (IBA), a short-chain fatty acid, has been unequivocally demonstrated to exert significant influence on the progression of colorectal cancer (CRC). Nevertheless, a comprehensive understanding of its intricate regulatory mechanisms remains elusive.
Methods
Employing advanced techniques such as western blot, RT-qPCR, and flow cytometry, we systematically investigated the impact of IBA on the expression of PD-L1 in CRC cells. Concurrently, employing RNA silencing technology and small-molecule inhibitors, we delved into the molecular intricacies underlying the regulatory axis of IBA involving ROCK1/c-Myc/PD-L1. Furthermore, through flow cytometry analysis, we examined the alterations in the tumor immune microenvironment following anti-PD-L1 antibody therapy in a murine tumor model treated with IBA.
Results
Elevated levels of IBA were found to robustly activate PD-L1 expression in CRC cells both in vitro and in vivo, concomitantly reshaping the tumor immune microenvironment. Subsequent mechanistic investigations unveiled that IBA, through its interaction and activation of ROCK1, promotes the activation of c-Myc, thereby enhancing the transcription of PD-L1. Silencing of ROCK1 and application of ROCK1 inhibitors effectively reversed the regulatory effects of IBA on PD-L1. Additionally, IBA inhibited the activity of infiltrating CD8+ T cells, resulting in diminished antitumor immunity and attenuating the sensitivity to anti-PD-L1 therapy.
Conclusion
Our study elucidates a novel mechanism by which IBA inhibits the sensitivity of CRC to anti-PD-L1 antibody therapy. Emphasizing IBA and its downstream pathways as potential therapeutic targets for immune therapy resistance mechanisms, our findings provide a novel theoretical foundation for overcoming immune therapy resistance.
期刊介绍:
Cancer Medicine is a peer-reviewed, open access, interdisciplinary journal providing rapid publication of research from global biomedical researchers across the cancer sciences. The journal will consider submissions from all oncologic specialties, including, but not limited to, the following areas:
Clinical Cancer Research
Translational research ∙ clinical trials ∙ chemotherapy ∙ radiation therapy ∙ surgical therapy ∙ clinical observations ∙ clinical guidelines ∙ genetic consultation ∙ ethical considerations
Cancer Biology:
Molecular biology ∙ cellular biology ∙ molecular genetics ∙ genomics ∙ immunology ∙ epigenetics ∙ metabolic studies ∙ proteomics ∙ cytopathology ∙ carcinogenesis ∙ drug discovery and delivery.
Cancer Prevention:
Behavioral science ∙ psychosocial studies ∙ screening ∙ nutrition ∙ epidemiology and prevention ∙ community outreach.
Bioinformatics:
Gene expressions profiles ∙ gene regulation networks ∙ genome bioinformatics ∙ pathwayanalysis ∙ prognostic biomarkers.
Cancer Medicine publishes original research articles, systematic reviews, meta-analyses, and research methods papers, along with invited editorials and commentaries. Original research papers must report well-conducted research with conclusions supported by the data presented in the paper.
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