Acetylation model predicts prognosis of patients and affects immune microenvironment infiltration in epithelial ovarian carcinoma.

IF 3.8 3区医学 Q1 REPRODUCTIVE BIOLOGY

Journal of Ovarian Research Pub Date : 2024-07-19 DOI:10.1186/s13048-024-01449-6

Xuan Wang, Xiaoning Li, Li Wei, Yankun Yu, Yeernaer Hazaisihan, Lin Tao, Wei Jia

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引用次数: 0

Abstract

Background: Epithelial ovarian carcinoma (EOC) is a prevalent gynaecological malignancy. The prognosis of patients with EOC is related to acetylation modifications and immune responses in the tumour microenvironment (TME). However, the relationships between acetylation-related genes, patient prognosis, and the tumour immune microenvironment (TIME) are not yet understood. Our research aims to investigate the link between acetylation and the tumour microenvironment, with the goal of identifying new biomarkers for estimating survival of patients with EOC.

Methods: Using data downloaded from the tumour genome atlas (TCGA), genotypic tissue expression (GTEx), and gene expression master table (GEO), we comprehensively evaluated acetylation-related genes in 375 ovarian cancer specimens and identified molecular subtypes using unsupervised clustering. The prognosis, TIME, stem cell index and functional concentration analysis were compared among the three groups. A risk model based on differential expression of acetylation-related genes was established through minimum absolute contraction and selection operator (LASSO) regression analysis, and the predictive validity of this feature was validated using GEO data sets. A nomogram is used to predict a patient's likelihood of survival. In addition, different EOC risk groups were evaluated for timing, tumour immune dysfunction and exclusion (TIDE) score, stemness index, somatic mutation, and drug sensitivity.

Results: We used the mRNA levels of the differentially expressed genes related to acetylation to classify them into three distinct clusters. Patients with increased immune cell infiltration and lower stemness scores in cluster 2 (C2) exhibited poorer prognosis. Immunity and tumourigenesis-related pathways were highly abundant in cluster 3 (C3). We developed a prognostic model for ten differentially expressed acetylation-related genes. Kaplan-Meier analysis demonstrated significantly worse overall survival (OS) in high-risk patients. Furthermore, the TIME, tumour immune dysfunction and exclusion (TIDE) score, stemness index, tumour mutation burden (TMB), immunotherapy response, and drug sensitivity all showed significant correlations with the risk scores.

Conclusions: Our study demonstrated a complex regulatory mechanism of acetylation in EOC. The assessment of acetylation patterns could provide new therapeutic strategies for EOC immunotherapy to improve the prognosis of patients.

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乙酰化模型可预测患者的预后并影响上皮性卵巢癌的免疫微环境浸润。

背景：上皮性卵巢癌（EOC上皮性卵巢癌（EOC）是一种常见的妇科恶性肿瘤。EOC 患者的预后与肿瘤微环境（TME）中的乙酰化修饰和免疫反应有关。然而，乙酰化相关基因、患者预后和肿瘤免疫微环境（TIME）之间的关系尚不清楚。我们的研究旨在调查乙酰化与肿瘤微环境之间的联系，目的是确定新的生物标志物，以估计EOC患者的生存期：利用从肿瘤基因组图谱（TCGA）、基因型组织表达（GTEx）和基因表达主表（GEO）下载的数据，我们全面评估了375例卵巢癌标本中的乙酰化相关基因，并利用无监督聚类确定了分子亚型。比较了三组患者的预后、TIME、干细胞指数和功能浓度分析。通过最小绝对收缩和选择算子（LASSO）回归分析，建立了基于乙酰化相关基因差异表达的风险模型，并利用 GEO 数据集验证了这一特征的预测有效性。提名图用于预测患者的生存可能性。此外，还对不同的EOC风险组进行了时间、肿瘤免疫功能障碍和排斥（TIDE）评分、干性指数、体细胞突变和药物敏感性评估：我们利用与乙酰化相关的差异表达基因的mRNA水平，将其分为三个不同的群组。第2群组（C2）中免疫细胞浸润增加和干性指数较低的患者预后较差。免疫和肿瘤发生相关通路在群组3（C3）中含量较高。我们为十个不同表达的乙酰化相关基因建立了一个预后模型。Kaplan-Meier分析表明，高危患者的总生存期（OS）明显更短。此外，TIME、肿瘤免疫功能障碍和排斥（TIDE）评分、干细胞指数、肿瘤突变负荷（TMB）、免疫治疗反应和药物敏感性均与风险评分有显著相关性：我们的研究证明了乙酰化在 EOC 中的复杂调控机制。乙酰化模式的评估可为EOC免疫治疗提供新的治疗策略，从而改善患者的预后。

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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来源期刊

Journal of Ovarian Research REPRODUCTIVE BIOLOGY-

CiteScore

6.20

自引率

2.50%

发文量

125

审稿时长

>12 weeks

期刊介绍： Journal of Ovarian Research is an open access, peer reviewed, online journal that aims to provide a forum for high-quality basic and clinical research on ovarian function, abnormalities, and cancer. The journal focuses on research that provides new insights into ovarian functions as well as prevention and treatment of diseases afflicting the organ. Topical areas include, but are not restricted to: Ovary development, hormone secretion and regulation Follicle growth and ovulation Infertility and Polycystic ovarian syndrome Regulation of pituitary and other biological functions by ovarian hormones Ovarian cancer, its prevention, diagnosis and treatment Drug development and screening Role of stem cells in ovary development and function.