子宫内膜癌免疫微环境的预后意义。

IF 5.1 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL
Miseon Lee , Wonkyung Jung , Jeongseok Kang , Keun Ho Lee , Sung Jong Lee , Sook Hee Hong , Jun Kang , Ahwon Lee
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引用次数: 0

摘要

本研究采用基于人工智能(AI)的分析方法来研究子宫内膜癌(EC)的免疫微环境。我们旨在评估基于人工智能的免疫指标作为预后生物标志物的潜力。共有296例子宫内膜癌被分为四种分子亚型:POLE超突变型(POLEmut)、错配修复缺陷型(MMRd)、p53异常型(p53abn)和无特异性分子特征型(NSMP)。使用基于人工智能的方法评估了以下免疫指标:肿瘤浸润淋巴细胞总数(tTIL)、瘤内TIL(iTIL)、基质TIL(sTIL)、使用Lunit SCOPE IO的肿瘤细胞以及使用QuPath免疫组化(IHC)的CD4+、CD8+和FOXP3+ T细胞。这七个免疫指标被用来进行无监督聚类。同时还评估了 PD-L1 22C3 IHC 表达。聚类分析显示了三个不同的免疫微环境组:免疫活性组、免疫惰性组和肿瘤主导组。免疫活性组在 POLEmut 中非常普遍,在其他分子亚型中也可见。虽然免疫惰性组在 NSMP 和 p53 突变中更为常见,但在 MMRd 和 POLEmut 中也能检测到。POLEmut 的 CD4+ 和 CD8+ T 细胞、tTIL、iTIL 和 sTIL 水平最高,而 FOXP3+/CD8+ 比率水平最低。相比之下,免疫活性组中的 p53abn 表现出更高的 FOXP3+/CD4+ 和 FOXP3+/CD8+ 比率。免疫活性组与良好的总生存期(OS)和无复发生存期(RFS)相关。在NSMP亚型中,免疫活性组与较好的RFS之间存在显著关联。PD-L1 22C3 合并阳性评分(CPS)在三组之间存在显著差异,免疫活性组的 CPS 中位数最高,CPS 频率≥1%。在分子亚型中,EC的免疫微环境各不相同。在同一免疫微环境组中,根据分子亚型的不同,免疫指标和T细胞组成也存在显著差异。基于AI的免疫微环境组可作为EC的预后标记,免疫活跃组与良好的预后相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prognostic Significance of the Immune Microenvironment in Endometrial Cancer

This study used artificial intelligence (AI)-based analysis to investigate the immune microenvironment in endometrial cancer (EC). We aimed to evaluate the potential of AI-based immune metrics as prognostic biomarkers. In total, 296 cases with EC were classified into 4 molecular subtypes: polymerase epsilon ultramutated (POLEmut), mismatch repair deficiency (MMRd), p53 abnormal (p53abn), and no specific molecular profile (NSMP). AI-based methods were used to evaluate the following immune metrics: total tumor-infiltrating lymphocytes (TIL), intratumoral TIL, stromal TIL, and tumor cells using Lunit SCOPE IO, as well as CD4+, CD8+, and FOXP3+ T cells using immunohistochemistry (IHC) by QuPath. These 7 immune metrics were used to perform unsupervised clustering. PD-L1 22C3 IHC expression was also evaluated. Clustering analysis demonstrated 3 distinct immune microenvironment groups: immune active, immune desert, and tumor dominant. The immune-active group was highly prevalent in POLEmut, and it was also seen in other molecular subtypes. Although the immune-desert group was more frequent in NSMP and p53mut, it was also detected in MMRd and POLEmut. POLEmut showed the highest levels of CD4+ and CD8+ T cells, total TIL, intratumoral TIL, and stromal TIL with the lowest levels of FOXP3+/CD8+ ratio. In contrast, p53abn in the immune-active group showed higher FOXP3+/CD4+ and FOXP3+/CD8+ ratios. The immune-active group was associated with favorable overall survival and recurrence-free survival. In the NSMP subtype, a significant association was observed between immune active and better recurrence-free survival. The PD-L1 22C3 combined positive score (CPS) showed significant differences among the 3 groups, with the immune-active group having the highest median CPS and frequency of CPS ≥ 1%. The immune microenvironment of EC was variable within molecular subtypes. Within the same immune microenvironment group, significant differences in immune metrics and T cell composition were observed according to molecular subtype. AI-based immune microenvironment groups served as prognostic markers in ECs, with the immune-active group associated with favorable outcomes.

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来源期刊
Laboratory Investigation
Laboratory Investigation 医学-病理学
CiteScore
8.30
自引率
0.00%
发文量
125
审稿时长
2 months
期刊介绍: Laboratory Investigation is an international journal owned by the United States and Canadian Academy of Pathology. Laboratory Investigation offers prompt publication of high-quality original research in all biomedical disciplines relating to the understanding of human disease and the application of new methods to the diagnosis of disease. Both human and experimental studies are welcome.
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