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构建用于预测胃癌总生存期和免疫浸润的免疫相关基因特征。

Construction of an immune-related gene signature for overall survival prediction and immune infiltration in gastric cancer.

作者信息

Ma Xiao-Ting, Liu Xiu, Ou Kai, Yang Lin

机构信息

Department of Medical Oncology, Cancer Hospital, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100021, China.

Department of Medical Oncology, Cancer Hospital, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing 100021, China

出版信息

World J Gastrointest Oncol. 2024 Mar 15;16(3):919-932. doi: 10.4251/wjgo.v16.i3.919.

DOI:10.4251/wjgo.v16.i3.919
PMID:38577455
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10989356/
Abstract

BACKGROUND

Treatment options for patients with gastric cancer (GC) continue to improve, but the overall prognosis is poor. The use of PD-1 inhibitors has also brought benefits to patients with advanced GC and has gradually become the new standard treatment option at present, and there is an urgent need to identify valuable biomarkers to classify patients with different characteristics into subgroups.

AIM

To determined the effects of differentially expressed immune-related genes (DEIRGs) on the development, prognosis, tumor microenvironment (TME), and treatment response among GC patients with the expectation of providing new biomarkers for personalized treatment of GC populations.

METHODS

Gene expression data and clinical pathologic information were downloaded from The Cancer Genome Atlas (TCGA), and immune-related genes (IRGs) were searched from ImmPort. DEIRGs were extracted from the intersection of the differentially-expressed genes (DEGs) and IRGs lists. The enrichment pathways of key genes were obtained by analyzing the Kyoto Encyclopedia of Genes and Genomes (KEGGs) and Gene Ontology (GO) databases. To identify genes associated with prognosis, a tumor risk score model based on DEIRGs was constructed using Least Absolute Shrinkage and Selection Operator and multivariate Cox regression. The tumor risk score was divided into high- and low-risk groups. The entire cohort was randomly divided into a 2:1 training cohort and a test cohort for internal validation to assess the feasibility of the risk model. The infiltration of immune cells was obtained using 'CIBERSORT,' and the infiltration of immune subgroups in high- and low-risk groups was analyzed. The GC immune score data were obtained and the difference in immune scores between the two groups was analyzed.

RESULTS

We collected 412 GC and 36 adjacent tissue samples, and identified 3627 DEGs and 1311 IRGs. A total of 482 DEIRGs were obtained. GO analysis showed that DEIRGs were mainly distributed in immunoglobulin complexes, receptor ligand activity, and signaling receptor activators. KEGG pathway analysis showed that the top three DEIRGs enrichment types were cytokine-cytokine receptors, neuroactive ligand receptor interactions, and viral protein interactions. We ultimately obtained an immune-related signature based on 10 genes, including 9 risk genes (, , mRNA, , , , , , and ) and 1 protective gene (). Kaplan-Meier survival analysis, receiver operating characteristic curve analysis, and risk curves confirmed that the risk model had good predictive ability. Multivariate COX analysis showed that age, stage, and risk score were independent prognostic factors for patients with GC. Meanwhile, patients in the low-risk group had higher tumor mutation burden and immunophenotype, which can be used to predict the immune checkpoint inhibitor response. Both cytotoxic T lymphocyte antigen4+ and programmed death 1+ patients with lower risk scores were more sensitive to immunotherapy.

CONCLUSION

In this study a new prognostic model consisting of 10 DEIRGs was constructed based on the TME. By providing risk factor analysis and prognostic information, our risk model can provide new directions for immunotherapy in GC patients.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/7728f7dafda7/WJGO-16-919-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/a627d19c9217/WJGO-16-919-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/c4b0fbe7cb41/WJGO-16-919-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/f1c71b3e2095/WJGO-16-919-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/03b8974dc452/WJGO-16-919-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/5ccaaf3859ab/WJGO-16-919-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/15cca9dfef34/WJGO-16-919-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/335ddba78baf/WJGO-16-919-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/ab0e2425e03a/WJGO-16-919-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/7728f7dafda7/WJGO-16-919-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/a627d19c9217/WJGO-16-919-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/c4b0fbe7cb41/WJGO-16-919-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/f1c71b3e2095/WJGO-16-919-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/03b8974dc452/WJGO-16-919-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/5ccaaf3859ab/WJGO-16-919-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/15cca9dfef34/WJGO-16-919-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/335ddba78baf/WJGO-16-919-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/ab0e2425e03a/WJGO-16-919-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/71a5/10989356/7728f7dafda7/WJGO-16-919-g009.jpg
摘要

背景

胃癌(GC)患者的治疗选择不断改善,但总体预后较差。PD-1抑制剂的使用也给晚期GC患者带来了益处,并逐渐成为目前的新标准治疗选择,迫切需要鉴定有价值的生物标志物,以便将具有不同特征的患者分类为亚组。

目的

确定差异表达的免疫相关基因(DEIRGs)对GC患者的发展、预后、肿瘤微环境(TME)和治疗反应的影响,期望为GC人群的个性化治疗提供新的生物标志物。

方法

从癌症基因组图谱(TCGA)下载基因表达数据和临床病理信息,并从免疫数据库(ImmPort)中搜索免疫相关基因(IRGs)。从差异表达基因(DEGs)和IRGs列表的交集中提取DEIRGs。通过分析京都基因与基因组百科全书(KEGGs)和基因本体论(GO)数据库获得关键基因的富集途径。为了鉴定与预后相关的基因,使用最小绝对收缩和选择算子及多变量Cox回归构建基于DEIRGs的肿瘤风险评分模型。将肿瘤风险评分分为高风险组和低风险组。将整个队列随机分为2:1的训练队列和测试队列进行内部验证,以评估风险模型的可行性。使用“CIBERSORT”获得免疫细胞浸润情况,并分析高风险组和低风险组中免疫亚组的浸润情况。获得GC免疫评分数据,并分析两组之间免疫评分的差异。

结果

我们收集了412例GC和36例相邻组织样本,鉴定出3627个DEGs和1311个IRGs。共获得482个DEIRGs。GO分析表明,DEIRGs主要分布在免疫球蛋白复合物、受体配体活性和信号受体激活剂中。KEGG通路分析表明,前三种DEIRGs富集类型是细胞因子-细胞因子受体、神经活性配体受体相互作用和病毒蛋白相互作用。我们最终获得了基于10个基因的免疫相关特征,包括9个风险基因(,,mRNA,,,,,,和)和1个保护基因()。Kaplan-Meier生存分析、受试者工作特征曲线分析和风险曲线证实该风险模型具有良好的预测能力。多变量COX分析表明,年龄、分期和风险评分是GC患者的独立预后因素。同时,低风险组患者具有更高的肿瘤突变负担和免疫表型,可用于预测免疫检查点抑制剂反应。细胞毒性T淋巴细胞抗原4+和程序性死亡蛋白1+且风险评分较低的患者对免疫治疗更敏感。

结论

在本研究中,基于TME构建了一个由10个DEIRGs组成的新的预后模型。通过提供风险因素分析和预后信息,我们的风险模型可为GC患者的免疫治疗提供新的方向。

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