cis-B7:CD28 interactions at invaginated synaptic membranes provide CD28 co-stimulation and promote CD8+T cell function and anti-tumor immunity

被引：31

作者：

Zhao, Yunlong ^{[1
]}

Caron, Christine ^{[2
]}

Chan, Ya-Yuan ^{[1
]}

Lee, Calvin K. ^{[2
]}

Xu, Xiaozhen ^{[1
,4
]}

Zhang, Jibin ^{[1
]}

Masubuchi, Takeya ^{[1
]}

Wu, Chuan ^{[3
]}

Bui, Jack D. ^{[2
]}

Hui, Enfu ^{[1
]}

机构：

[1] Univ Calif San Diego, Sch Biol Sci, Dept Cell & Dev Biol, La Jolla, CA 92093 USA

[2] Univ Calif San Diego, Dept Pathol, La Jolla, CA 92093 USA

[3] NCI, Expt Immunol Branch, NIH, Bethesda, MD 20892 USA

[4] Sanofi Inst Biomed Res, 100 Chongwen Rd,Soochow Ind Pk, Suzhou 215123, Jiangsu, Peoples R China

来源：

IMMUNITY | 2023年 / 56卷 / 06期

关键词：

NF-KAPPA-B; T-CELLS; CUTTING EDGE; ANTIGEN; PROTEIN; COSTIMULATION; ENDOCYTOSIS; EXPRESSION; RECEPTORS; MOLECULES;

D O I：

10.1016/j.immuni.2023.04.005

中图分类号：

R392 [医学免疫学]; Q939.91 [免疫学];

学科分类号：

100102 ;

摘要：

B7 ligands (CD80 and CD86), expressed by professional antigen-presenting cells (APCs), activate the main co-stimulatory receptor CD28 on T cells in trans. However, in peripheral tissues, APCs expressing B7 ligands are relatively scarce. This raises the questions of whether and how CD28 co-stimulation occurs in peripheral tissues. Here, we report that CD8+ T cells displayed B7 ligands that interacted with CD28 in cis at membrane invaginations of the immunological synapse as a result of membrane remodeling driven by phosphoinositide-3-kinase (PI3K) and sorting-nexin-9 (SNX9). cis-B7:CD28 interactions triggered CD28 signaling through pro-tein kinase C theta (PKCq) and promoted CD8+ T cell survival, migration, and cytokine production. In mouse tumor models, loss of T cell-intrinsic cis-B7:CD28 interactions decreased intratumoral T cells and acceler-ated tumor growth. Thus, B7 ligands on CD8+ T cells can evoke cell-autonomous CD28 co-stimulation in cis in peripheral tissues, suggesting cis -signaling as a general mechanism for boosting T cell functionality.

引用

页码：1187 / +

页数：30

共 50 条

[31] NI-3201 Is a Bispecific Antibody Mediating PD-L1-Dependent CD28 Co-stimulation on T Cells for Enhanced Tumor Control
Majocchi, Sara
Lloveras, Pauline
Nouveau, Lise
Legrand, Margaux
Viandier, Alizee
Malinge, Pauline
Charreton, Maud
Raymond, Cecile
Pace, Emily A.
Millard, Bjorn L.
Svensson, L. Anders
Kelpsas, Vinardas
Anceriz, Nadia
Salgado-Pires, Susana
Daubeuf, Bruno
Magistrelli, Giovanni
Gueneau, Franck
Moine, Valery
Masternak, Krzysztof
Shang, Limin
Fischer, Nicolas
Ferlin, Walter G.
CANCER IMMUNOLOGY RESEARCH, 2025, 13 (03) : 365 - 383
[32] Expansion and CD2/CD3/CD28 stimulation enhance Th2 cytokine secretion of human invariant NKT cells with retained anti-tumor cytotoxicity
Andrews, Kelly
Hamers, Anouk A. J.
Sun, Xiaodian
Neale, Geoffrey
Verbist, Katherine
Tedrick, Paige
Nichols, Kim E.
Pereira, Shalini
Geraghty, Daniel E.
Pillai, Asha B.
CYTOTHERAPY, 2020, 22 (05) : 276 - 290
[33] A trispecific antibody induces potent tumor-directed T-cell activation and antitumor activity by CD3/CD28 co-engagement
Chen, Li
Qian, Wenjing
Pan, Fangfang
Li, Debin
Yu, Weiwei
Tong, Li
Yang, Yingying
Xu, Qiming
Ding, Jianfeng
Dai, Ruixue
Xian, Weiwei
Zhu, Xufeng
Ren, Pu
Zhu, Huaxing
IMMUNOTHERAPY, 2024, 16 (03) : 143 - 159
[34] A phenotypic drug discovery study on thienodiazepine derivatives as inhibitors of T cell proliferation induced by CD28 co-stimulation leads to the discovery of a first bromodomain inhibitor
Endo, Junichi
Hikawa, Hidemasa
Hamada, Maiko
Ishibuchi, Seigo
Fujie, Naoto
Sugiyama, Naoki
Tanaka, Minoru
Kobayashi, Haruhito
Sugahara, Kunio
Oshita, Koichi
Iwata, Kazunori
Ooike, Shinsuke
Murata, Meguru
Sumichika, Hiroshi
Chiba, Kenji
Adachi, Kunitomo
BIOORGANIC & MEDICINAL CHEMISTRY LETTERS, 2016, 26 (05) : 1365 - 1370
[35] Microenvironment-driven metabolic adaptations guiding CD8+T cell anti-tumor immunity
Park, Jaeoh
Hsueh, Pei -Chun
Li, Zhiyu
Ho, Ping-Chih
IMMUNITY, 2023, 56 (01) : 32 - 42
[36] High-Frequency Alloreactive T Cells Augment Effector Function of Low-Frequency CD8+ T-Cell Responses Under CD28/CD154 Blockade
Floyd, Tamara L.
Orr, Steven B.
Coley, Shana M.
Hanna, Samantha S.
Wagener, Maylene E.
Kirk, Allan D.
Larsen, Christian P.
Ford, Mandy L.
TRANSPLANTATION, 2010, 89 (10) : 1208 - 1217
[37] A B7-H3-Targeted CD28 Bispecific Antibody Enhances the Activity of Anti-PD-1 and CD3 T-cell Engager Immunotherapies
Moore, Gregory L.
Zeng, Veronica G.
Diaz, Juan E.
Bonzon, Christine
Avery, Kendra N.
Rashid, Rumana
Qi, Jing
Nam, Dong Hyun
Jacinto, Jonathan
Dragovich, Matthew A.
Kim, Yoon Kyung
Balcazar, Karen P.
Bakhit, Charles G.
Eivazi, Araz
Nguyen, Hanh
Muchhal, Umesh S.
Szymkowski, David E.
Desjarlais, John R.
Hedvat, Michael
MOLECULAR CANCER THERAPEUTICS, 2025, 24 (03) : 331 - 344
[38] Priming of CD8 T Cells by Adenoviral Vectors Is Critically Dependent on B7 and Dendritic Cells but Only Partially Dependent on CD28 Ligation on CD8 T Cells
Nielsen, Karen N.
Steffensen, Maria A.
Christensen, Jan P.
Thomsen, Allan R.
JOURNAL OF IMMUNOLOGY, 2014, 193 (03) : 1223 - 1232
[39] CD28/CTLA4 double deficient mice demonstrate crucial role for B7 co-stimulation in the induction of allergic lower airways disease
Deurloo, DT
van Berkel, MAT
van Esch, BCAM
Hofhuis, F
Nijkamp, FP
Oosterwegel, MA
van Oosterhout, AJM
CLINICAL AND EXPERIMENTAL ALLERGY, 2003, 33 (09) : 1297 - 1304
[40] Inhibition and Genetic Ablation of the B7/CD28 T-Cell Costimulation Axis Prevents Experimental Hypertension
Vinh, Antony
Chen, Wei
Blinder, Yelena
Weiss, Daiana
Taylor, W. Robert
Goronzy, Joerg J.
Weyand, Cornelia M.
Harrison, David G.
Guzik, Tomasz J.
CIRCULATION, 2010, 122 (24) : 2529 - 2537

← 1 2 3 4 5 →