The Zbtb family of proteins consists of more than 40 members in mice. They are highly conserved transcriptional repressors that contain a BTB (POZ) protein-binding domain and a Kruppel-type Zinc Finger (ZF) DNA-binding domain. Many members of this family were shown to play essential roles during the differentiation of immune cells. The general goal of this project is to elucidate the contribution of specific Zbtb family members to lymphocyte differentiation and function. To this aim, we are focusing on two transcription factors. a) The role of PLZF in the innate-like differentiation of lymphocytes. iNKT cells are a subtype of lymphocytes with unique characteristics, due to their fast activation response, their cytokine-secreting capabilities and their cytotoxic functions, they can shape immune responses in several pathological conditions such as in infection, autoimmunity and cancer. Previous work from us and others identified that PLZF expression is necessary for the development and acquisition of effector functions in innate-like iNKT cells. Current work from our laboratory identified that PLZF expression is not restricted to innate-like T-cells and that PLZF is also expressed in progenitors of all T-cells in the fetal thymus. Besides this general expression of PLZF in fetal T-cell progenitors, PLZF didn't affect the development of conventional T-cells. Interestingly, PLZF expression was maintained in a subset of gamma-delta T-cells that exclusively develop in the fetus and secrete IL-17. These cells are not gamma-delta NKT cells, which also depend on PLZF for their development. Our results also identified that PLZF was necessary for the development of fetal-derived IL-17-secreting gamma-delta T-cells. We are currently evaluating how PLZF affects the differentiation of this subset of gamma-delta T-cells. b) Another focus of the laboratory is on the role of Zbtb1 in T-cell development. It was recently shown that Zbtb1 expression is necessary for the development of lymphoid but not myeloid cells. Mice mutant or deficient for Zbtb1 lacked T-cells and have a partial developmental defect in B and NK cell lineages. We are evaluating the mechanism by which Zbtb1 specifically affects T-cell development using in vitro as well as in vivo differentiation models. We have observed that absence of functional Zbtb1 in hematopoietic progenitors leads to deficient activation of the replication stress response and consequently to activation of p53 and apoptosis

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Investigator-Initiated Intramural Research Projects (ZIA)
Project #
1ZIABC011429-06
Application #
9556570
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
6
Fiscal Year
2017
Total Cost
Indirect Cost
Name
Basic Sciences
Department
Type
DUNS #
City
State
Country
Zip Code
Zhang, Xianyu; Lu, Ying; Cao, Xin et al. (2016) Zbtb1 prevents default myeloid differentiation of lymphoid-primed multipotent progenitors. Oncotarget 7:58768-58778
Cao, Xin; Lu, Ying; Zhang, Xianyu et al. (2016) Zbtb1 Safeguards Genome Integrity and Prevents p53-Mediated Apoptosis in Proliferating Lymphoid Progenitors. J Immunol 197:1199-211
Lu, Ying; Cao, Xin; Zhang, Xianyu et al. (2015) PLZF Controls the Development of Fetal-Derived IL-17+V?6+ ?? T Cells. J Immunol 195:4273-81