Abstract

Active suppression by regulatory T cells (Tregs) and T cell anergy are two important mechanisms for peripheral T cell tolerance. T cell receptor (TCR) signaling is critical for Treg function and induction of T cell anergy. However, TCR signaling can also activate T cells in the presence of a costimulatory signal. How TCR signaling is regulated to direct these distinct T cell fates/functions has been poorly understood. Diacylglycerol (DAG) kinases (DGKs) catalyze the conversion of DAG to phosphatidic acid through phosphorylation. We and others have recently demonstrated that DGK1 and 6, isoforms expressed in T cells, negatively control T cell activation by inhibiting TCR-induced activation of the DAG-RasGRP1-Ras-Erk1/2-AP1 cascade. Deficiency of either DGK1 or 6 causes T cells to be hyperresponsive to TCR stimulation and confers certain resistance to anergy induction. Our central hypothesis for this application is that DGK1 and 6 synergistically regulate DAG metabolism and play a pivotal role in T cell self-tolerance by promoting T cell anergy and Treg function. With strong support from preliminary data, we plan to test our hypothesis by pursuing three specific aims.
In aim 1, we will determine how DGK1 and 6 synergistically control T cell anergy for self-tolerance. We will use already generated DGK1-/-6-/- mice as well as conditional DGK16 deficient mice being generated to test the hypothesis that DGK1 and 6 synergistically control the intrinsic property of T cells to promote anergy.
In aim 2, we will investigate mechanisms by which DGK activity contributes to T cell anergy.
In aim 3, we will elucidate the mechanisms by which DGK activity regulates Treg function. The proposed studies should significantly improve understanding of the mechanisms that regulate T cell anergy and Treg function, and identify strategies for modulating immune responses in order to treat autoimmune diseases.

Public Health Relevance

The project proposed in this grant application aims to improve our understanding of the molecular mechanisms that control T cell anergy and regulatory T cell (Treg) function. We anticipate establishing and defining an important role of diacylglycerol kinase activity in T cell anergy, Treg function and self-tolerance to the liver. Studies in this grant proposal should also provide therapeutic targets to regulate T cell tolerance for autoimmune diseases.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI079088-04
Application #
8123359
Study Section
Transplantation, Tolerance, and Tumor Immunology (TTT)
Program Officer
Lapham, Cheryl K
Project Start
2008-09-01
Project End
2013-08-31
Budget Start
2011-09-01
Budget End
2013-08-31
Support Year
4
Fiscal Year
2011
Total Cost
$382,239
Indirect Cost

  Institution

Name
Duke University
Department
Pediatrics
Type
Schools of Medicine
DUNS #
044387793
City
Durham
State
NC
Country
United States
Zip Code
27705

  Publications

Deng, Wenhai; Yang, Jialong; Lin, Xingguang et al. (2017) Essential Role of mTORC1 in Self-Renewal of Murine Alveolar Macrophages. J Immunol 198:492-504
Yang, Jialong; Lin, Xingguang; Pan, Yun et al. (2016) Critical roles of mTOR Complex 1 and 2 for T follicular helper cell differentiation and germinal center responses. Elife 5:
Lin, Xingguang; Yang, Jialong; Wang, Jinli et al. (2016) mTOR is critical for intestinal T-cell homeostasis and resistance to Citrobacter rodentium. Sci Rep 6:34939
Chen, Shelley S; Hu, Zhiming; Zhong, Xiao-Ping (2016) Diacylglycerol Kinases in T Cell Tolerance and Effector Function. Front Cell Dev Biol 4:130
Petrovski, Slavé; Parrott, Roberta E; Roberts, Joseph L et al. (2016) Dominant Splice Site Mutations in PIK3R1 Cause Hyper IgM Syndrome, Lymphadenopathy and Short Stature. J Clin Immunol 36:462-71
Yang, Jialong; Zhang, Ping; Krishna, Sruti et al. (2016) Unexpected positive control of NF?B and miR-155 by DGK? and ? ensures effector and memory CD8+ T cell differentiation. Oncotarget 7:33744-64
Wang, Hong-Xia; Cheng, Joyce S; Chu, Shuai et al. (2016) mTORC2 in Thymic Epithelial Cells Controls Thymopoiesis and T Cell Development. J Immunol 197:141-50
Pan, Hongjie; Zhong, Xiao-Ping; Lee, Sunhee (2016) Sustained activation of mTORC1 in macrophages increases AMPK?-dependent autophagy to maintain cellular homeostasis. BMC Biochem 17:14
Wang, Hong-Xia; Qiu, Yu-Rong; Zhong, Xiao-Ping (2016) Intercellular Protein Transfer from Thymocytes to Thymic Epithelial Cells. PLoS One 11:e0152641
Wang, Hong-Xia; Shin, Jinwook; Wang, Shang et al. (2016) mTORC1 in Thymic Epithelial Cells Is Critical for Thymopoiesis, T-Cell Generation, and Temporal Control of ??T17 Development and TCR?/? Recombination. PLoS Biol 14:e1002370

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