炎症因子与乳腺癌关系的孟德尔随机化研究

doi:10.19485/j.cnki.issn2096-5087.2024.08.016

预防医学

2024, Vol. 36

Issue (8): 714-717,722 DOI: 10.19485/j.cnki.issn2096-5087.2024.08.016

疾病控制

本期目录 | 过刊浏览 | 高级检索

炎症因子与乳腺癌关系的孟德尔随机化研究

宋文富^1,2, 关徐涛^1,2, 王冰¹, 孙士玲^1,2, 李盈盈^1,2

1.河南中医药大学第一附属医院血液肿瘤科,河南郑州 450000;
2.河南中医药大学第一临床医学院,河南郑州 450000

Association between inflammatory factors and breast cancer: a Mendelian randomization study

SONG Wenfu^1,2, GUAN Xutao^1,2, WANG Bing¹, SUN Shiling^1,2, LI Yingying^1,2

1. Department of Hematological and Oncology, The First Affiliated Hospital of Henan University of Chinese Medicine, Zhengzhou, Henan 450000, China;
2. First Clinical Medical School, Henan University of Chinese Medicine, Zhengzhou, Henan 450000, China

摘要
参考文献
相关文章
Metrics

全文: PDF(874 KB)
输出: BibTeX | EndNote (RIS)

摘要目的采用两样本孟德尔随机化（MR）方法探究炎症因子与乳腺癌的因果关系,为乳腺癌防治提供依据。方法通过公开数据库收集91种炎症因子（n=14 824）和5种乳腺癌亚型（n=247 173）的全基因组关联研究（GWAS）数据,选取与91种炎症因子相关的单核苷酸多态性（SNP）位点为工具变量。以炎症因子为暴露,乳腺癌为结局,采用逆方差加权法进行MR分析。采用FDR校正降低Ⅰ类错误风险和多重检验的影响。采用Steiger方向检验、MR-Egger回归法、MR-PRESSO检验和留一法验证结果的稳定性和可靠性。结果 β神经生长因子、白介素-5、胱抑素D和C-X-C基序趋化因子1等23种炎症因子与乳腺癌存在统计学关联（均P<0.05）;经FDR校正后,仅发现抑瘤素M丰度升高与Basal-like（三阴性）乳腺癌发病风险增加存在统计学关联（OR=1.186,95%CI：1.081~1.302,P=0.001,q=0.029）,其他22种炎症因子与乳腺癌的关联发生Ⅰ类错误的风险较高（均q>0.1）。敏感性分析显示结果稳健,未发现对结果有强影响的工具变量,可排除异质性、水平多效性和反向因果对该结果产生的影响。结论抑瘤素M丰度升高可能增加Basal-like（三阴性）乳腺癌发病风险。

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	宋文富
	关徐涛
	王冰
	孙士玲
	李盈盈

关键词 ：乳腺癌, 炎症因子, 抑瘤素M, 孟德尔随机化, 全基因组关联研究, 因果关系

Abstract：Objective To examine the causal relationship between inflammatory factors and breast cancer using two-sample Mendelian randomization (MR) approach, so as to provide the basis for the prevention and treatment of breast cancer. Methods Data of 91 inflammatory cytokines (n=14 824) and 5 subtypes of breast cancer (n=247 173) were collected from genome-wide association studies (GWAS). Single nucleotide polymorphism (SNP) associated with 91 inflammatory factors were selected as instrumental variables. MR analyses were performed using the inverse-variance weighted (IVW) method with inflammatory factors as exposure factors and breast cancer as outcome variables. The risk of type I error and the effect of multiple testing were reduced using the FDR correction method. The stability and reliability of the results were verified using Steiger test of directionality, MR-Egger regression, MR-PRESSO test and leave-one out method. Results Twenty-three inflammatory factors, including β nerve growth factor, interleukin-5, cystatin D and C-X-C chemokine ligand 1 were statistically associated with breast cancer (all P<0.05). After FDR adjustment, only evaluated abundance of oncostatin-M was found to be statistically associated with an increased risk of Basal-like (triple-negative) breast cancer (OR=1.186, 95%CI: 1.081-1.302, P=0.001, q=0.029), and the other 22 inflammatory factors had a high risk of type I error (all q>0.1). The sensitivity analysis indicated that the results were robust. No instrumental variables were found to have a significant impact on the results, which could exclude the influence of heterogeneity, horizontal pleiotropy, and reverse causality on the outcome. Conclusion The increased abundance of oncostatin-M may increase the risk of Basal-like (triple-negative) breast cancer.

Key words： breast cancer inflammatory factor oncostatin-M Mendelian randomization genome-wide association studies causal relationship

收稿日期: 2024-03-25 修回日期: 2024-06-27 出版日期: 2024-08-10

中图分类号:

R73

基金资助:河南省教育厅重点科研项目（24A360006）; 河南省高等学校青年骨干教师项目（2023GGJS083）; 河南省中医药管理局重点项目（2023ZY2004,2023ZY2015,20-21ZY1010）; 第七批全国老中医专家学术经验继承工作指导项目（20230522）; 河南省青苗人才指导项目（20210411）

作者简介: 宋文富,硕士研究生在读,中西医结合防治恶性肿瘤疾病研究专业

通信作者: 孙士玲,E-mail：sunshiling@sina.com

引用本文:

宋文富, 关徐涛, 王冰, 孙士玲, 李盈盈. 炎症因子与乳腺癌关系的孟德尔随机化研究[J]. 预防医学, 2024, 36(8): 714-717,722.
SONG Wenfu, GUAN Xutao, WANG Bing, SUN Shiling, LI Yingying. Association between inflammatory factors and breast cancer: a Mendelian randomization study. Preventive Medicine, 2024, 36(8): 714-717,722.

链接本文:

http://www.zjyfyxzz.com/CN/10.19485/j.cnki.issn2096-5087.2024.08.016 或 http://www.zjyfyxzz.com/CN/Y2024/V36/I8/714

[1] YARMOLINSKY J,ROBINSON JW,MARIOSA D,et al.Association between circulating inflammatory markers and adult cancer risk:a Mendelian randomization analysis[J].EBioMedicine,2024,100:1-21.
[2] MÄLARSTIG A,GRASSMANN F,DAHL L,et al.Evaluation of circulating plasma proteins in breast cancer using Mendelian randomisation[J].Nat Commun,2023,14(1):1-9.
[3] ZHANG H Y,AHEARN T U,LECARPENTIER J,et al.Genome-wide association study identifies 32 novel breast cancer susceptibility loci from overall and subtype-specific analyses[J].Nat Genet,2020,52(6):572-581.
[4] ZHAO J H,STACEY D,ERIKSSON N,et al.Genetics of circulating inflammatory proteins identifies drivers of immune-mediated disease risk and therapeutic targets[J].Nat Immunol,2023,24(9):1540-1551.
[5] MA J,LI J L,JIN C,et al.Association of gut microbiome and primary liver cancer:a two-sample Mendelian randomization and case-control study[J].Liver Int,2023,43(1):221-233.
[6] KAMAT M A,BLACKSHAW J A,YOUNG R,et al.PhenoScanner V2:an expanded tool for searching human genotype-phenotype associations[J].Bioinformatics,2019,35(22):4851-4853.
[7] BURGESS S,THOMPSON S G,CRP CHD Genetics Collaboration.Avoiding bias from weak instruments in Mendelian randomization studies[J].Int J Epidemiol,2011,40(3):755-764.
[8] SLOB E A W,BURGESS SA comparison of robust Mendelian randomization methods using summary data[J].Genet Epidemiol,2020,44(4):313-329.
[9] RASOOLY D,PELOSO G M,PEREIRA A C,et al.Genome-wide association analysis and Mendelian randomization proteomics identify drug targets for heart failure[J].Nat Commun,2023,14(1):1-15.
[10] HEMANI G,TILLING K,DAVEY SMITH G.Orienting the causal relationship between imprecisely measured traits using GWAS summary data[J].PLoS Genet,2017,13(11):1-22.
[11] LAPEIRE L,HENDRIX A,LAMBEIN K,et al.Cancer-associated adipose tissue promotes breast cancer progression by paracrine oncostatin M and Jak/STAT3 signaling[J].Cancer Res,74(23):6806-6819.
[12] HOLZER R G,RYAN R E,TOMMACK M,et al.Oncostatin M stimulates the detachment of a reservoir of invasive mammary carcinoma cells:role of cyclooxygenase-2[J].Clin Exp Metastasis,2004,21(2):167-176.
[13] WEST N R,MURPHY L C,WATSON P H.Oncostatin M suppresses oestrogen receptor-α expression and is associated with poor outcome in human breast cancer[J].Endocr Relat Cancer,2012,19(2):181-195.
[14] WEST N R,MURRAY J I,WATSON P H.Oncostatin-M promotes phenotypic changes associated with mesenchymal and stem cell-like differentiation in breast cancer[J].Oncogene,2014,33(12):1485-1494.
[15] ARAUJO A M,ABAURREA A,AZCOAGA P,et al.Stromal oncostatin M cytokine promotes breast cancer progression by reprogramming the tumor microenvironment[J].J Clin Invest,2022,132(7):1-17.
[16] BOTTAI G,DIAO L,BAGGERLY K A,et al.Integrated microRNA-mRNA profiling identifies oncostatin M as a marker of mesenchymal-like ER-negative/HER2-negative breast cancer[J].Int J Mol Sci,2017,18(1):1-13.
[17] DOHERTY M R,PARVANI J G,TAMAGNO I,et al.The opposing effects of interferon-beta and oncostatin-M as regulators of cancer stem cell plasticity in triple-negative breast cancer[J].Breast Cancer Res,2019,21(1):1-12.
[18] ASHRUF Z F,PARVANI J,JACKSON M.Oncostatin-M induces epethelialmesenchymal transition in triple negative breast cancer cells[J].Ohio J Sci,2018,118(1):20-21.
[19] 张艳艳,骆莹,吴国珍,等.抑瘤素M通过诱导衰老抑制肝癌细胞增殖[J].中国肿瘤临床,2017,44(8):360-364.
[20] MASJEDI A,HAJIZADEH F,BEIGI DARGANI F,et al.Oncostatin M:a mysterious cytokine in cancers[J/OL].Int Immunopharmacol,2021,90[2024-06-27].https://doi.org/10.1016/j.intimp.2020.107158.
[21] CALIGIURI A,GITTO S,LORI G,et al.Oncostatin M:from intracellular signaling to therapeutic targets in liver cancer[J].Cancers (Basel),2022 ,14(17):1-14.

[1]	叶振淼, 樊丽辉, 郑宇航, 姜雪霞, 李慧君, 张默涵, 谢轶敏, 罗永园, 金茜. 温州市乳腺癌死亡及减寿分析[J]. 预防医学, 2024, 36(9): 746-749.
[2]	陈颖, 刘可, 刘彬, 孙晓慧, 何志兴, 毛盈颖, 叶丁. 肠道菌群与多囊卵巢综合征的孟德尔随机化研究[J]. 预防医学, 2024, 36(9): 801-805.
[3]	崔彦泽, 张玲, 蒋璐, 李慧敏, 王硕. 衰弱与2型糖尿病的孟德尔随机化研究[J]. 预防医学, 2024, 36(9): 786-789.
[4]	陈蓉, 莫口妈妮, 柯晓鸿, 王楚怀. 白细胞端粒长度与白内障的双向孟德尔随机化研究[J]. 预防医学, 2024, 36(7): 580-583.
[5]	刘伟, 林泉, 范宗静, 崔杰, 吴旸. 食物与动脉粥样硬化的孟德尔随机化研究[J]. 预防医学, 2024, 36(6): 483-486,490.
[6]	李煜楠, 徐鹏程, 贾俊亚, 闫铁昆. 体质指数与25种自身免疫性疾病的孟德尔随机化研究[J]. 预防医学, 2024, 36(5): 388-392.
[7]	王爽, 谭茜蔚, 令垚, 黄瑞贤, 马勇, 孔丹莉, 丁元林. 抗氧化营养素与妊娠并发症的孟德尔随机化研究[J]. 预防医学, 2024, 36(4): 345-349.
[8]	梁伟, 贡欣, 张晓晓, 李树苗. 子宫内膜癌与乳腺癌的双向孟德尔随机化研究[J]. 预防医学, 2024, 36(4): 350-354.
[9]	李红梅, 肖倩, 谢潇潇, 刘春强, 黄业保. 肠道微生物与便秘的双向孟德尔随机化研究[J]. 预防医学, 2024, 36(3): 198-202.
[10]	徐军, 徐涯鑫, 高亚南, 姚亭, 孙素亚, 陈亚梅. 溃疡性结肠炎与胰腺炎的孟德尔随机化研究[J]. 预防医学, 2024, 36(1): 26-29, 33.
[11]	沈放如, 杨可, 刘厚璞, 朱家豪, 李迎君. 新生儿出生体重与母亲2型糖尿病关联的双向孟德尔随机化研究[J]. 预防医学, 2023, 35(5): 384-387,409.
[12]	崔俊鹏, 陆艳, 黄春妍, 华钰洁, 王临池. 2007—2021年苏州市女性乳腺癌死亡与减寿分析[J]. 预防医学, 2023, 35(5): 380-383.
[13]	宋珊珊, 徐旭, 许杨丹, 肖雯洁, 杨晓娟. 铝暴露对大鼠PC12细胞tau蛋白异常磷酸化的影响[J]. 预防医学, 2023, 35(3): 271-274.
[14]	任首泽, 李泽光, 李林蔚, 夏凯雨, 梁华. 自身免疫性疾病与甲状腺功能障碍的孟德尔随机化研究[J]. 预防医学, 2023, 35(12): 1024-1028.
[15]	高亚南, 徐涯鑫, 朱宇倩, 徐军, 姚亭, 陈亚梅. 克罗恩病与衰弱的双向孟德尔随机化研究[J]. 预防医学, 2023, 35(11): 943-947.

Viewed

Full text

Abstract

Cited

Shared

Discussed