Breast and Ovarian Carcinoma Overexpress HLA-G, a Neglected Cancer Immunosuppressive Protein

Breast and Ovarian Carcinoma Overexpress HLA-G, a Neglected Cancer Immunosuppressive Protein

下载PDF

导出

摘要 Purpose: HLA-G binds to the inhibitory receptors of uterine NK cells and plays an important role in protection of fetal cells from maternal NK lysis. HLA-G also mediates tumor escape, but the immunosuppressive role is often neglected. These studies have focused on the examination of HLA-G expression in human breast and ovarian carcinoma and HLA-G immunosuppressive role in NK cytolysis. Methods: We examined HLA-G expression in breast and ovarian carcinoma cell lines by real time PCR, ELISA and immunofluorescent staining, and in frozen breast and ovarian carcinoma tissues by immunohistochemistry (IHC). We treated the breast cancer cell lines with anti-human HLA-G antibody or progesterone. Then, NK cytolysis was measured by using MTT assay. Results: We find breast and ovarian cancer cell lines increase the expression of HLA-G mRNA and protein, compared to normal cells. IHC shows that 100% of frozen breast and ovarian carcinoma tissues overexpress HLA-G protein. HLA-G IHC scores of breast and ovarian carcinoma are significantly higher than normal breast and ovarian tissues, respectively (both p < 0.01). Blocking HLA-G of the breast cancer cells by the antibody increases NK cytolysis. Progesterone upregulates HLA-G mRNA and protein of human breast cancer cell lines. The increased HLA-G expression by progesterone suppresses the NK cytolysis. Conclusion: Human breast and ovarian carcinoma overexpress HLA-G immunosuppressive molecules. Blocking HLA-G protein by antibody improves the cytolysis of NK cells against human breast cancer cell lines. In contrast, upregulation of HLA-G expression by progesterone impairs NK cytolytic function. Thus, HLA-G is a new immune checkpoint protein and potential cancer immunotherapeutic target. Purpose: HLA-G binds to the inhibitory receptors of uterine NK cells and plays an important role in protection of fetal cells from maternal NK lysis. HLA-G also mediates tumor escape, but the immunosuppressive role is often neglected. These studies have focused on the examination of HLA-G expression in human breast and ovarian carcinoma and HLA-G immunosuppressive role in NK cytolysis. Methods: We examined HLA-G expression in breast and ovarian carcinoma cell lines by real time PCR, ELISA and immunofluorescent staining, and in frozen breast and ovarian carcinoma tissues by immunohistochemistry (IHC). We treated the breast cancer cell lines with anti-human HLA-G antibody or progesterone. Then, NK cytolysis was measured by using MTT assay. Results: We find breast and ovarian cancer cell lines increase the expression of HLA-G mRNA and protein, compared to normal cells. IHC shows that 100% of frozen breast and ovarian carcinoma tissues overexpress HLA-G protein. HLA-G IHC scores of breast and ovarian carcinoma are significantly higher than normal breast and ovarian tissues, respectively (both p < 0.01). Blocking HLA-G of the breast cancer cells by the antibody increases NK cytolysis. Progesterone upregulates HLA-G mRNA and protein of human breast cancer cell lines. The increased HLA-G expression by progesterone suppresses the NK cytolysis. Conclusion: Human breast and ovarian carcinoma overexpress HLA-G immunosuppressive molecules. Blocking HLA-G protein by antibody improves the cytolysis of NK cells against human breast cancer cell lines. In contrast, upregulation of HLA-G expression by progesterone impairs NK cytolytic function. Thus, HLA-G is a new immune checkpoint protein and potential cancer immunotherapeutic target.

作者 Xianpeng Jiang Catherine C. Baucom Toby Jiang Robert L. Elliott Xianpeng Jiang;Catherine C. Baucom;Toby Jiang;Robert L. Elliott(Sallie Astor Burdine Breast Foundation, Baton Rouge, LA, USA)

机构地区 Sallie Astor Burdine Breast Foundation

出处《Advances in Breast Cancer Research》 CAS 2022年第3期153-172,共20页 乳腺癌（英文）

关键词 HLA-G Breast Carcinoma Ovarian Carcinoma NK Cells Immunosuppressive Protein HLA-G Breast Carcinoma Ovarian Carcinoma NK Cells Immunosuppressive Protein

分类号 R73 [医药卫生—肿瘤]

引文网络
相关文献

参考文献2

1Simona Sivori,Paola Vacca,Genny Del Zotto,Enrico Munari,Maria Cristina Mingari,Lorenzo Moretta.Human NK cells: surface receptors, inhibitory checkpoints, and translational applications[J].Cellular & Molecular Immunology,2019,16(5):430-441. 被引量：41
2Marica,Garziera,Giuseppe Toffoli.Inhibition of host immune response in colorectal cancer:Human leukocyte antigen-G and beyond[J].World Journal of Gastroenterology,2014,20(14):3778-3794. 被引量：1

二级参考文献11

1Fabio Grizzi,Paolo Bianchi,Alberto Malesci,Luigi Laghi.Prognostic value of innate and adaptive immunity in colorectal cancer[J].World Journal of Gastroenterology,2013,19(2):174-184. 被引量：5
2Giuseppe Curigliano,Carmen Criscitiello,Lucia Gelao,Aron Goldhirsch.Molecular Pathways: Human Leukocyte Antigen G (HLA-G)[J].Clinical Cancer Research.2013(20)
3Wolf-Herman Fridman,Marie-Caroline Dieu-Nosjean,Franck Pagès,Isabelle Cremer,Diane Damotte,Catherine Sautès-Fridman,Jér?me Galon.The Immune Microenvironment of Human Tumors: General Significance and Clinical Impact[J].Cancer Microenvironment.2013(2)
4Signe Goul Svendsen,Basil M. Hantash,Longmei Zhao,Carsten Faber,Michael Bzorek,Mogens Holst Nissen,Thomas Vauvert F. Hviid.The expression and functional activity of membrane-bound human leukocyte antigen-G1 are influenced by the 3′-untranslated region[J].Human Immunology.2013(7)
5A. Sabbagh,D. Courtin,J. Milet,J. D. Massaro,E. C. Castelli,F. Migot‐Nabias,B. Favier,N. Rouas‐Freiss,P. Moreau,A. Garcia,E. A. Donadi.Association of HLA‐G 3′ untranslated region polymorphisms with antibody response against Plasmodium falciparum antigens: preliminary results[J].Tissue Antigens.2013(1)
6C. Koudougou,M. Bonneville,T. Matysiak‐Budnik,Y. Touchefeu.Review article: antitumoural immunity in colorectal cancer – current and potential future implications in clinical practice[J].Aliment Pharmacol Ther.2013(1)
7Estibaliz Alegre,Vera Rebmann,Joel LeMaoult,Carmen Rodriguez,Peter A. Horn,Angel Díaz‐Lagares,José I. Echeveste,Alvaro González.In vivo identification of an HLA ‐ G complex as ubiquitinated protein circulating in exosomes[J].Eur J Immunol.2013(7)
8Kerry S. Campbell,Jun Hasegawa.NK cell biology: An update and future directions[J].The Journal of Allergy and Clinical Immunology.2013
9Tomer Cooks,Ioannis S. Pateras,Ohad Tarcic,Hilla Solomon,Aaron J. Schetter,Sylvia Wilder,Guillermina Lozano,Eli Pikarsky,Tim Forshew,Nitzan Rozenfeld,Noam Harpaz,Steven Itzkowitz,Curtis C. Harris,Varda Rotter,Vassilis G. Gorgoulis,Moshe Oren.Mutant p53 Prolongs NF-κB Activation and Promotes Chronic Inflammation and Inflammation-Associated Colorectal Cancer[J].Cancer Cell.2013(5)
10Wei Liao,Jian-Xin Lin,Warren J. Leonard.Interleukin-2 at the Crossroads of Effector Responses, Tolerance, and Immunotherapy[J].Immunity.2013(1)

共引文献40

1高紫玉,云升,邱英.NK细胞的生物学及其肿瘤免疫治疗研究进展[J].世界最新医学信息文摘,2021(18):150-151.
2Mengyuan Liu,Tian Zhang,Xifeng Dong,Huaquan Wang.Acquired pure red cell aplasia:unraveling the immune pathogenesis[J].Journal of Bio-X Research,2023,6(4):138-148.
3张沁怡,张稼闻,邬素芳.基于自然杀伤细胞的免疫治疗在卵巢癌中的研究进展[J].现代妇产科进展,2020,29(2):150-153. 被引量：3
4杜祥慧,傅斌清.母胎界面蜕膜自然杀伤细胞的功能[J].发育医学电子杂志,2020,8(2):106-111. 被引量：3
5彭志伟,徐斌,王高远,徐洪港,张瀚元,朱云,徐龙.膝关节骨关节炎患者外周血NK细胞数量增加且表型异常[J].细胞与分子免疫学杂志,2019,35(12):1115-1121. 被引量：2
6曹雨晴,金添强,田雨,戴朝六(综述),徐锋(审校).自然杀伤细胞免疫检查点抑制剂在癌症治疗中的研究进展[J].中国肿瘤临床,2020,47(9):472-476. 被引量：4
7惠怡华,王海娜,苏文.自然杀伤(NK)细胞表面受体表达谱及其功能的研究进展[J].细胞与分子免疫学杂志,2020,36(8):740-744. 被引量：11
8Qiu-Yue Zhang,Xin Zhang,Bin Su,Li-Feng Liu,Xiao-Dong Yang,Bin Tang,Huan Xia,Ping Ma,Tong Zhang,Hao Wu.Increased early activation of CD56^(dim)CD16^(dim)/-natural killer cells in immunological non-responders correlates with CD4^(+)T-cell recovery[J].Chinese Medical Journal,2020(24):2928-2939. 被引量：4
9朱月伊,宋运来,石晓兰(指导).基于PD-1/PD-L1表达影响探讨四君子汤对NK细胞及结肠癌作用的研究[J].中国免疫学杂志,2021,37(3):295-300. 被引量：25
10Wenhan Li,Jing Zhou,Xianwei Wang,Yuzhang Wu,Lilin Ye,Haiming Wei,Rui Sun,Zhigang Tian,Hui Peng.CD49a^(+)CD49b^(+) NK cells induced by viral infection reflect an activated state of conventional NK cells[J].Science China(Life Sciences),2020,63(11):1725-1733. 被引量：3

1周永飞,韩顺子,赵丹莹,张健锋,常军亮,刘玉林,曹玉锋,刘景会.白介素-1受体1胞外域的原核表达及鉴定[J].中国生物制品学杂志,2021,34(12):1443-1448.
2Xing Zheng,Liuying Yu,Xu Yao,Bo Lv,Zehua Yang,Qutong Zheng,Haiying Duan,Chen Song,Hailong Xie.Synthesis and Anti-Cancer Activities of Resveratrol Derivatives[J].Open Journal of Medicinal Chemistry,2016,6(3):51-57. 被引量：2
3Qizhi Ma,Yue Chen,Qing Qin,Fuchun Guo,Yong-sheng Wang,Dan Li.CXCL13 expression in mouse 4T1 breast cancer microenvironment elicits antitumor immune response by regulating immune cell infiltration[J].Precision Clinical Medicine,2021,4(3):155-167. 被引量：2
4Yuqing Cao,Xiaoyu Wang,Tianqiang Jin,Yu Tian,Chaoliu Dai,Crystal Widarma,Rui Song,Feng Xu.Immune checkpoint molecules in natural killer cells as potential targets for cancer immunotherapy[J].Signal Transduction and Targeted Therapy,2020,5(1):340-358. 被引量：4
5Yu Liu,Chao-Qun Wang,Jiang-Zheng Zeng,Bing-Yu Gao,Fang-Fang Gao,Yu Wang,Bin Chen.Effects of TAM-derived exosomes on migration and invasion of MDA-MB- 231 cells in triple negative breast cancer[J].Journal of Hainan Medical University,2021,27(9):26-29.
6Pingping Sun,Aimei Bao,Xiangdong Hua,Jian Cao,Ye Ding.RP5-1148A21.3 (lncRP5) exerts oncogenic function in human ovarian carcinoma[J].Acta Biochimica et Biophysica Sinica,2022,54(2):209-219. 被引量：2
7Fang Fang,Siqi Xie,Minhua Chen,Yutong Li,Jingjing Yue,Jie Ma,Xun Shu,Yongge He,Weihua Xiao,Zhigang Tian.Advances in NK cell production[J].Cellular & Molecular Immunology,2022,19(4):460-481. 被引量：6
8李昱颖,张梦婷,张新,田璐.基于网络药理学及分子对接探究扶正抗癌汤抑制卵巢癌的作用机制[J].实用中医内科杂志,2022,36(3):35-39. 被引量：1
9Gol Nam,Yi Shi,Myongchol Ryu,Qihui Wang,Hao Song,Jun Liu,Jinghua Yan,Jianxun Qi,George F Gao.Crystal structures of the two membrane-proximal Ig-like domains(D3D4)of LILRB1/B2:alternative models for their involvement in peptide-HLA binding[J].Protein & Cell,2013,4(10):761-770.
10Wenwen Xu,TạMinh Hiếu,Subramaniam Malarkannan,Li Wang.The structure, expression, and multifaceted role of immune-checkpoint protein VISTA as a critical regulator of anti-tumor immunity, autoimmunity, and inflammation[J].Cellular & Molecular Immunology,2018,15(5):438-446. 被引量：10

Advances in Breast Cancer Research

2022年第3期

浏览历史

内容加载中请稍等...

Breast and Ovarian Carcinoma Overexpress HLA-G, a Neglected Cancer Immunosuppressive Protein

参考文献2

二级参考文献11

共引文献40

相关作者

相关机构

相关主题

浏览历史