Hu Zixin, Xue Chongxiang, Zheng Jiabin, Lu Xingyu, Li Jia, Dong Huijing, Yu Yixuan, Zhang Xu, Tan Kexin, Cui Huijuan
Department of Oncology, China-Japan Friendship Hospital, Yinghuayuan East Street 2, Chaoyang, Beijing, China.
Beijing University of Chinese Medicine, No. 11, 3rd Ring Road East, Chaoyang, Beijing, China.
J Oncol. 2022 Apr 6;2022:5426887. doi: 10.1155/2022/5426887. eCollection 2022.
Immune checkpoint inhibitors (ICIs) emerge as the first-line treatment of lung adenocarcinoma (LUAD); selection of subpopulations acquiring clinical benefit is required. Associations between epigenetic modulation of tumor microenvironment (TME) and clinical outcome are far from clear. We focused on immune-related genes closely regulated by DNA methylation to identify the potential clinical outcome indicators.
We systematically calculated immunophenotype score (IMpS) and classified immunophenotypes based on seven TME features in three independent cohorts. The overlapping of differential expressed genes and methylated probes targeted genes was regarded as genes closely regulated by DNA methylation. Then, probe/gene pairs which highly correlated with each other and IMpS were identified and named as immune-related probe/gene pairs (mIMg). Prognostic mIMg were selected and verified in seven independent validation cohorts.
Three immune phenotypes were clustered, and similar results were obtained in the three independent training cohorts. C2 displayed as an immunologically hot phenotype, whereas C3 corresponded with immunologically cold phenotype. Average methylation level was decreased from C2 to C3 (C2 > C1 > C3). Similarly, ICIs nonresponders showed global hypo-methylation compared with responders. Genes in mIMg were mainly enriched, especially in T-cell receptor activation, and repressed in noninflamed TME by hyper-methylation. Among mIMg, low expression and hyper-methylation of CD247, LCK, and PSTPIP1 were risk factors of overall survival (OS). ICIs nonresponders were more likely to be hyper-methylated in the three genes. By integrating with the oncogenes status, we demonstrated that EGFR wt and SRGN overexpressed patients were associated with chronic inflammation and immune evasion, showing an immunologically hot phenotype, which might lead to the short OS but derive clinical benefit from ICIs.
This study identifies hyper-methylation and concurrent repression of CD247, LCK, PSTPIP1 as immune negative indicators and risk factors for prognosis in LUAD. Moreover, EGFR/SRGN axis may participate in immune modification to influence ICIs response and clinical outcome in LUAD.
免疫检查点抑制剂(ICIs)成为肺腺癌(LUAD)的一线治疗方法;需要选择能获得临床益处的亚群。肿瘤微环境(TME)的表观遗传调控与临床结局之间的关联尚不清楚。我们聚焦于受DNA甲基化密切调控的免疫相关基因,以识别潜在的临床结局指标。
我们在三个独立队列中,基于七个TME特征系统计算免疫表型评分(IMpS)并对免疫表型进行分类。差异表达基因与甲基化探针靶向基因的重叠被视为受DNA甲基化密切调控的基因。然后,鉴定出彼此高度相关且与IMpS高度相关的探针/基因对,并将其命名为免疫相关探针/基因对(mIMg)。在七个独立验证队列中选择并验证预后mIMg。
聚类出三种免疫表型,在三个独立训练队列中获得了相似结果。C2表现为免疫热表型,而C3对应免疫冷表型。平均甲基化水平从C2到C3降低(C2>C1>C3)。同样,与应答者相比,ICI无应答者表现出整体低甲基化。mIMg中的基因主要富集,尤其是在T细胞受体激活方面,并在非炎症性TME中因高甲基化而受到抑制。在mIMg中,CD247、LCK和PSTPIP1的低表达和高甲基化是总生存期(OS)的危险因素。ICI无应答者在这三个基因中更可能发生高甲基化。通过整合癌基因状态,我们证明EGFR野生型和SRGN过表达的患者与慢性炎症和免疫逃逸相关,表现出免疫热表型,这可能导致OS缩短,但可从ICI中获得临床益处。
本研究确定CD247、LCK、PSTPIP1的高甲基化和同时抑制是LUAD的免疫阴性指标和预后危险因素。此外,EGFR/SRGN轴可能参与免疫修饰,以影响LUAD中ICI的反应和临床结局。
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