Thymic development is highly responsible for shaping a healthy and balanced T cell immunity. Like other developmental processes it involves coordinated changes in the linear and three-dimensional chromatin organization that allow stage specific transcription events. A central regulator at nearly every stage of T cell differentiation is the DNA binding protein Tcf-1. Studies proposed here will elucidate how Tcf-1 coordinates the action of epigenetic and transcription regulators to instruct the differentiation of CD4+CD8+ DP thymocytes. Tcf- 1 modulates the chromatin landscapes and transcription profiles directly through binding to its conserved DNA sequence, or indirectly in association with other regulatory proteins. DP thymocytes express two forms of Tcf- 1, the full length Tcf-1p45 protein that binds ?-catenin, and a short Tcf-1p38 isoform that does not. Lef-1, another member of the Tcf/Lef family of regulators, also expressed in thymocytes has overlapping functions with Tcf-1. In addition Tcf-1 cooperates with the HLH domain DNA binding protein HEB at the DP thymocyte stages through the sharing of ~7000 DNA binding sites genome wide. The presence of both Tcf-1 and HEB at the shared sites is necessary to promote chromatin accessibility and regulate gene transcription. The direct Tcf-1- HEB binding to their conserved motifs in enhancer regions of T cell differentiation genes promotes their expression. By contrast Tcf-1-HEB recruitment to sites lacking conserved motifs, in promoter regions of cell- cycle genes reduces their expression and cell proliferation. Such opposing transcription outcomes likely involve Tcf-1-HEB recruitment to DNA in the context of distinct regulatory complexes. The composition of complexes containing Tcf-1 and HEB, the specific Tcf-1 isoform involved in each complex, and which functions are redundant between Tcf-1 and Lef-1, still remain to be elucidated. The intricate functional co-operation between these factors likely also involves the ability of Tcf-1 and Lef-1 to bend the DNA helix at their binding site which may modulate the 3D chromatin conformation, and define the proximity between co-operating factors and regulatory elements. These findings and the existing literature provide strong premise for the hypothesis that DP thymocyte development is enabled by the cooperation of Tcf-1 isoforms with protein complexes that shape the 3D chromatin structure to differentially regulate gene expression.
Two specific aims are proposed.
Aim 1 will determine the how Tcf-1p45 and, Tcf-1p33, co-operate with Lef-1 and HEB in the context of distinct regulatory complexes to establish the epigenetic and transcription profile of DP thymocytes and control their developmental progression.
Aim 2 : will elucidate the roles of Tcf-1p45, Tcf-1p33, Lef-1 with HEB shaping the chromatin conformation, and how this function promotes DP thymocyte development. The proposed studies are expected to highlight a completely new layer in the molecular regulation of DP thymocytes.

Public Health Relevance

Nearly every stage of T cell development critically depend on Tcf-1, a multifunctional protein, expressed in distinct isoforms, that regulates of the chromatin landscape, conformation and gene expression. The proposed studies will address the hypothesis that Tcf-1 participates in distinct regulatory protein complexes and cooperates with Lef-1 and HEB to dynamically modulate chromatin conformation and expression profiles that guide thymocyte development. Determining how these regulators co-ordinate to establish epigenetic and chromatin conformation states will provide a novel and comprehensive molecular model of how DP thymocyte programs are modulated.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
1R01AI147652-01A1
Application #
9917226
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Prabhudas, Mercy R
Project Start
2019-11-22
Project End
2024-10-31
Budget Start
2019-11-22
Budget End
2020-10-31
Support Year
1
Fiscal Year
2020
Total Cost
Indirect Cost
Name
University of Chicago
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
005421136
City
Chicago
State
IL
Country
United States
Zip Code
60637