靶向DCLK1可通过抑制IL-6/STAT3信号通路减弱三阴性乳腺癌的肿瘤干性并激发抗肿瘤免疫。

Heshu Liu, Rui Yan, Zeru Xiao, Xuying Huang, Jiannan Yao, Jian Liu, Guangyu An, Yang Ge
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引用次数: 3

摘要

三阴性乳腺癌(TNBC)在乳腺癌亚型中表现出最差的结果,这是由于高度异质性和有效治疗的持续缺乏。基于TNBC分子亚型的靶向治疗是定制治疗以改善临床结果的关键步骤。据报道,胃肠道肿瘤干细胞(CSC)标记物DCLK1在富含干细胞的TNBC亚型中高表达。本研究首先探讨了DCLK1对TNBC肿瘤细胞及其免疫微环境的影响,以及DCLK1高表达TNBC患者的潜在治疗策略。我们的研究结果表明,DCLK1过表达促进了TNBC细胞的csc样特征,而DCLK1敲除抑制了TNBC细胞对化疗药物的耐药性。此外,DCLK1通过抑制TNBC肿瘤内细胞毒性T细胞浸润来支持免疫逃逸,因此限制了免疫检查点抑制剂的疗效。机制上,生物信息学分析显示,IL-6/STAT3信号在DCLK1高表达的患者中显著富集,我们的研究结果进一步揭示了DCLK1增强TNBC细胞中IL-6的表达和STAT3的激活,最终导致CSC性状上调,抑制CD8+ t细胞活性。通过IL-6R拮抗剂、Tocilizumab或STAT3抑制剂抑制IL-6/STAT3通路,S31-201可以消除dclk1促进的TNBC细胞的恶性表型。最后,DCLK1在TNBC间充质样亚型中特异性高表达,靶向DCLK1可提高化疗疗效,激活抗肿瘤免疫。总的来说,我们的研究揭示了靶向DCLK1治疗TNBC的潜在临床益处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Targeting DCLK1 attenuates tumor stemness and evokes antitumor immunity in triple-negative breast cancer by inhibiting IL-6/STAT3 signaling.

Targeting DCLK1 attenuates tumor stemness and evokes antitumor immunity in triple-negative breast cancer by inhibiting IL-6/STAT3 signaling.

Targeting DCLK1 attenuates tumor stemness and evokes antitumor immunity in triple-negative breast cancer by inhibiting IL-6/STAT3 signaling.

Targeting DCLK1 attenuates tumor stemness and evokes antitumor immunity in triple-negative breast cancer by inhibiting IL-6/STAT3 signaling.

Triple-negative breast cancer (TNBC) exhibits the poorest outcomes among breast cancer subtypes due to the high heterogeneity and a lasting scarcity of effectual treatments. Targeted therapies based on molecular subtypes of TNBC are critical step toward tailoring treatments to improve clinical outcomes. Gastrointestinal cancer stem cell (CSC) marker DCLK1 was reported to be highly expressed in stem cell-rich subtype of TNBC. Here, we firstly explored the impacts of DCLK1 on tumor cells as well as their immune microenvironment in TNBC and potential therapeutic strategies for TNBC patients with high DCLK1 expression. Our results disclosed that DCLK1 overexpression promoted, while knockout of DCLK1 suppressed the CSC-like traits of TNBC cells and resistance to chemotherapeutics. Besides, DCLK1 supported immune escape by inhibiting intratumoral cytotoxic T cell infiltration in TNBC and hence limited immune checkpoint inhibitors efficacy. Mechanistically, bioinformatics analysis revealed that IL-6/STAT3 signaling was significantly enriched in high DCLK1-expressing patients, and our results further revealed that DCLK1 enhanced IL-6 expression and STAT3 activation in TNBC cells, which finally gave rise to upregulated CSC traits and suppressed CD8+ T-cell activity. Inhibiting IL-6/STAT3 pathway by IL-6R antagonist, Tocilizumab or STAT3 inhibitor, S31-201 could abolish DCLK1-promoted malignant phenotypes of TNBC cells. Finally, DCLK1 was identified to be specifically and highly expressed in the mesenchymal-like subtype of TNBC and targeting DCLK1 could improve chemotherapy efficacy and activate antitumor immunity. Overall, our study revealed the potential clinical benefits of targeting DCLK1 in TNBC treatment.

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