基质僵化依赖的PD-L2缺失可改善SMYD3/xCT介导的铁变态反应以及抗PD-1对HCC的疗效。

Shunxi Wang, Xiaoxue Yuan, Zetao Yang, Xuan Zhang, Zhiling Xu, Li Yang, Xian Yang, Wei Zhou, Wanqian Liu
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摘要

简介异质性组织僵化会促进肿瘤进展和耐药性,并预示着肝细胞癌(HCC)患者的不良临床预后。铁蛋白沉积是一种先天性肿瘤抑制机制,可介导包括免疫检查点抑制剂在内的多种肿瘤抑制剂的抗癌活性,目前诱导铁蛋白沉积被认为是一种很有前景的治疗策略。然而,细胞外基质(ECM)硬度在调控HCC中的铁凋亡和铁凋亡靶向抗性中的作用仍不清楚:本研究旨在探讨细胞外基质硬度如何影响 HCC 中的铁凋亡及其治疗效果:方法:通过细胞活性、细胞内亚铁和线粒体病理学检测确认铁变态反应分析。从公开数据中评估了67例索拉非尼治疗的HCC患者(46例为非应答患者,21例为应答患者)的基线PD-L2、SMYD3和SLC7A11(xCT)。在体内研究了 shPD-L2、索拉非尼和抗 PD-1 抗体对 HCC 的联合疗效:结果:我们发现基质僵化诱导的 PD-L2 可作为 xCT 介导的铁突变的抑制因子,促进 HCC 患者的癌症生长和索拉非尼耐药。基质僵化通过激活SMYD3/H3K4me3诱导PD-L2的表达,而SMYD3/H3K4me3是一种RNA结合蛋白,可增强FTL的mRNA稳定性并提高其蛋白水平。PD-L2的敲除明显促进了RSL3或索拉非尼通过FTL在僵化底物上诱导的xCT介导的铁凋亡,而它的过表达则消除了这些上升趋势。值得注意的是,PD-L2 基因缺失与索拉非尼和抗 PD-1 抗体联合使用可显著敏化 HCC 细胞并抑制体内癌细胞生长。此外,我们还发现了与PD-L2、SLC7A11和SYMD3相结合的铁变态反应和免疫检查点相关预后基因,这些基因能很好地预测索拉非尼对HCC患者的临床疗效:这些发现拓展了我们对PD-L2在铁变态反应、癌症进展和耐药性中的力学依赖性作用的理解,为PD-L2作为治疗靶点或诊断生物标志物的临床转化提供了基础。
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Matrix stiffness-dependent PD-L2 deficiency improves SMYD3/xCT-mediated ferroptosis and the efficacy of anti-PD-1 in HCC.

Introduction: Heterogeneous tissue stiffening promotes tumor progression and resistance, and predicts a poor clinical outcome in patients with hepatocellular carcinoma (HCC). Ferroptosis, a congenital tumor suppressive mechanism, mediates the anticancer activity of various tumor suppressors, including immune checkpoint inhibitors, and its induction is currently considered a promising treatment strategy. However, the role of extracellular matrix (ECM) stiffness in regulating ferroptosis and ferroptosis-targeted resistance in HCC remains unclear.

Objectives: This research aimed to explore how extracellular matrix stiffness affects ferroptosis and its treatment efficacy in HCC.

Methods: Ferroptosis analysis was confirmed via cell activity, intracellular ferrous irons, and mitochondrial pathology assays. Baseline PD-L2, SMYD3, and SLC7A11 (xCT) were evaluated in 67 sorafenib-treated patients with HCC (46 for non-responder and 21 for responder) from public data. The combined efficacy of shPD-L2, sorafenib, and anti-PD-1 antibody in HCC was investigated in vivo.

Results: Here, we revealed that matrix stiffness-induced PD-L2 functions as a suppressor of xCT-mediated ferroptosis to promote cancer growth and sorafenib resistance in patients with HCC. Mechanically, matrix stiffening induced the expression of PD-L2 by activating SMYD3/H3K4me3, which acts as an RNA binding protein to enhance the mRNA stability of FTL and elevate its protein level. Knockdown of PD-L2 significantly promoted xCT-mediated ferroptosis induced by RSL3 or sorafenib on stiff substrate via FTL, whereas its overexpression abolished these upward trends. Notably, PD-L2 deletion in combination with sorafenib and anti-PD-1 antibody significantly sensitized HCC cells and blunted cancer growth in vivo. Additionally, we found the ferroptosis- and immune checkpoint-related prognostic genes that combined PD-L2, SLC7A11 and SYMD3 well predict the clinical efficacy of sorafenib in patients with HCC.

Conclusion: These findings expand our understanding of the mechanics-dependent PD-L2 role in ferroptosis, cancer progression and resistance, providing a basis for the clinical translation of PD-L2 as a therapeutic target or diagnostic biomarker.

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