The primary role of the Administrative Core is to coordinate research activities among the 4 Project Sites and Genomics Core. Biological research has moved well beyond the analysis of single genes or pathways. Accordingly, this program seeks to use genome-wide analysis to gain insight into the way that differences in T cell receptor (TCR) signal strength direct thymic progenitors to adopt the ?? fate, as well as how they might influence effector fate specification. To do so, we have employed genomic analysis focused initially on the cellular targets of E box DNA-binding proteins (E proteins), which regulate critical checkpoints in development of ?? and ?? T cells. Our genome-wide analysis of E protein binding sites in the last funding cycle revealed a number of critical E protein targets and cooperating transcription factors that are critical in adoption of the ?? T cell fate. We now seek to leverage those findings through the Genomics Core to assess the function of those E protein targets within our genome-wide E protein focused network and determine how they influence ?? lineage fate. The program integrates the efforts of four leaders in ?? T cell development and E protein function. Project 1 will explore the E protein targets, Tcf7 and long noncoding RNA (lncRNA) Gm15417, in orchestrating ?? lineage commitment and adoption of the IL-17 producing effector fate. Project 2 will assess the role of E protein regulated elements in controlling noncoding transcription from the TCRV? element employed by innate-like NK??T cells and the TF Egr2, which plays a critical role in orchestrating NK?? T cell development. Our program has also discovered that particular E protein family members have specific, non-redundant roles in supporting ?? T cell development and Project 3 will elucidate the mechanistic basis for their specific roles. Project 3 has also developed a pluripotent stem cell (PSC)-based human ?? T cell development model that will enable us to assess the human relevance of program findings made in animal models. Finally, Project 4 will evaluate the role of an E protein controlled lncRNA, ThymoD, in regulating T lineage commitment and how its loss results in the extinguishing of ?? fate potential in cells committed to the ?? fate. Specifically, Project 4 will also employ imaging to visualize the effect of ThymoD on the kinetics of chromosome looping during ?? T cell development, which is a critical regulator of gene expression. The Administrative Core will coordinate these activities by: 1) re- establishing a management structure; 2) facilitating the distribution of reagents; and 3) coordinating scientific interchanges between project sites and trainee visits to the Genomics Core, and as necessary other Program Laboratories. Collectively, our program promises not only to reveal novel insights into the molecular control of ?? T cell development, but will also equip a new cadre of scientists with the skills to apply integrated wet bench and bioinformatic approaches to important questions in biology.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program Projects (P01)
Project #
5P01AI102853-07
Application #
9989055
Study Section
Special Emphasis Panel (ZAI1)
Project Start
2014-05-15
Project End
2024-07-31
Budget Start
2020-08-01
Budget End
2021-07-31
Support Year
7
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Research Institute of Fox Chase Cancer Center
Department
Type
DUNS #
064367329
City
Philadelphia
State
PA
Country
United States
Zip Code
19111
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Zarin, Payam; In, Tracy Sh; Chen, Edward Ly et al. (2018) Integration of T-cell receptor, Notch and cytokine signals programs mouse ?? T-cell effector differentiation. Immunol Cell Biol 96:994-1007
Zhang, Baojun; Jiao, Anjun; Dai, Meifang et al. (2018) Id3 Restricts ?? NKT Cell Expansion by Controlling Egr2 and c-Myc Activity. J Immunol 201:1452-1459
Murre, Cornelis (2018) 'Big bang' of B-cell development revealed. Genes Dev 32:93-95
Roy, Sumedha; Moore, Amanda J; Love, Cassandra et al. (2018) Id Proteins Suppress E2A-Driven Invariant Natural Killer T Cell Development prior to TCR Selection. Front Immunol 9:42
Chisolm, Danielle A; Savic, Daniel; Moore, Amanda J et al. (2017) CCCTC-Binding Factor Translates Interleukin 2- and ?-Ketoglutarate-Sensitive Metabolic Changes in T Cells into Context-Dependent Gene Programs. Immunity 47:251-267.e7
Li, Jia; Roy, Sumedha; Kim, Young-Mi et al. (2017) Id2 Collaborates with Id3 To Suppress Invariant NKT and Innate-like Tumors. J Immunol 198:3136-3148
Zhu, Yina; Gong, Ke; Denholtz, Matthew et al. (2017) Comprehensive characterization of neutrophil genome topology. Genes Dev 31:141-153
Miyazaki, Masaki; Miyazaki, Kazuko; Chen, Kenian et al. (2017) The E-Id Protein Axis Specifies Adaptive Lymphoid Cell Identity and Suppresses Thymic Innate Lymphoid Cell Development. Immunity 46:818-834.e4
Moore, Amanda J; In, Tracy Sh; Trotman-Grant, Ashton et al. (2017) A key role for IL-7R in the generation of microenvironments required for thymic dendritic cells. Immunol Cell Biol 95:933-942

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