Integrin-based prognostic model predicts survival, immunotherapy response, and drug sensitivity in gastric cancer

Yilin Hu , Yu Chen , Menglong Wu , Chenyu Qian , Junjie Chen , Kun Wang , Wanjiang Xue
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引用次数: 2

Abstract

Background

Extracellular matrix (ECM) acts as a physical barrier to tumors, resulting in the lysis or delay of drug delivery. Integrins (ITGs) are essential for tumor cell-ECM interactions. Thus, we established a novel prognostic model to predict overall survival, immunotherapy benefits, and therapeutic agents in gastric cancer (GC) based on ITGs-related ECM landscape.

Methods

Using the TCGA-STAD dataset, we studied the genetic and transcriptional changes of ITGs. We used a merged cohort for ITGs survival analysis and determined molecular pattern clusters using consensus unsupervised clustering methodology. We confirmed the distinct ECM landscape between constructed clusters by performing gene set variation and Kaplan-Meier analysis. We utilized prognostic differentially expressed genes between clusters to develop a prognostic model utilizing logistic least absolute shrinkage and selection operator cox regression analysis, followed by stepwise multivariate Cox analysis in the training dataset. The model was validated by receiver operating characteristic curves and Kaplan-Meier analysis in the testing dataset and seven validation datasets. We compared our model to 35 previously published models. To analyze immune infiltration, we used multiple algorithms, which were further confirmed by single-cell RNA-sequencing and fluorescent multiplex immunohistochemistry. We explored tumor mutation burden (TMB), microsatellite instability-high (MSI-H) grade, immunotherapy response, chemotherapy sensitivity, and clinical significance between the low-risk and high-risk groups. Finally, we assessed the risk score in five reported molecular subtypes.

Results

The two ITGs-related clusters were identified, and their ECM landscapes were distinct. The prognostic model was constructed and had shown stable performance in internal and external validation. In addition, our model outperformed 35 previously published models. High-risk patients had a bad prognostic ECM landscape, high stromal cell inflammation, a lower TMB, a lower MSI-H grade, a worse tumor stage, a worse response to immunotherapy, and less sensitivity to chemotherapy. In five reported molecular subtypes, the worse subtypes showed a higher risk score.

Conclusions

The prognostic model could be an effective and promising tool for predicting prognosis and therapy response in GC patients.

Abstract Image

基于整合素的胃癌预后模型预测生存、免疫治疗反应和药物敏感性
背景细胞外基质(ECM)作为肿瘤的物理屏障,导致药物释放的裂解或延迟。整合素(ITGs)是肿瘤细胞与ECM相互作用所必需的。因此,我们建立了一个新的预后模型,以基于ITGs相关ECM景观预测癌症(GC)的总体生存率、免疫疗法益处和治疗药物。方法利用TCGA-STAD数据集,研究ITG的遗传和转录变化。我们使用合并队列进行ITG生存分析,并使用一致无监督聚类方法确定分子模式聚类。我们通过进行基因集变异和Kaplan-Meier分析,证实了构建的聚类之间存在明显的ECM景观。我们利用聚类之间的预后差异表达基因,利用逻辑最小绝对收缩和选择算子cox回归分析,然后在训练数据集中进行逐步多元cox分析,开发了预后模型。在测试数据集和七个验证数据集中,通过受试者工作特性曲线和Kaplan-Meier分析对模型进行了验证。我们将我们的模型与之前发布的35个模型进行了比较。为了分析免疫浸润,我们使用了多种算法,通过单细胞RNA测序和荧光多重免疫组织化学进一步证实了这一点。我们探讨了低风险和高危人群的肿瘤突变负荷(TMB)、微卫星不稳定性高(MSI-H)分级、免疫治疗反应、化疗敏感性以及临床意义。最后,我们评估了五种已报道的分子亚型的风险评分。结果确定了两个ITG相关的聚类,并且它们的ECM景观是不同的。构建了预后模型,并在内部和外部验证中显示出稳定的性能。此外,我们的模型优于之前发布的35个模型。高危患者的ECM预后较差,基质细胞炎症程度高,TMB较低,MSI-H分级较低,肿瘤分期较差,对免疫疗法的反应较差,对化疗的敏感性较低。在五种已报道的分子亚型中,较差的亚型显示出较高的风险评分。结论该预后模型可作为预测胃癌患者预后和治疗反应的有效且有前景的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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