SelectedWorks of Janice C. Telfer

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All of the cells of the blood descend from the progeny of hematopoietic stem cells
resident in the bone marrow. Hematopoietic stem cells are very long-lived: they survive
and divide for the life of the organism. Their daughter cells go through a period of
development in which they become more and more specialized, turning on and off the
expression of specific genes, until they are fully differentiated. The subversion of this
process of normal development often results in cancer. My laboratory is interested in how
the regulation of gene expression by the RUNX family of transcription factors influences
the development and cancerous transformation of cells of the immune system. RUNX family
transcription factors (RUNX1, RUNX2, and RUNX3) bind to DNA and other proteins to
activate or suppress transcription of specific genes. We have previously found that
expression of RUNX1 has profound effects on the development of T cells and the myeloid
cells known as neutrophils. We use a retroviral expression system that allows us to
express normal and mutated RUNX proteins in both primary cells and cell lines, which can
then be cultured. The projects currently pursued by my laboratory include: 

We have found that the expression of RUNX1 in the myeloid cell line 32Dcl3 promotes the
cells’ continued proliferation, which is reminiscent of the high proportion of immature
proliferating myeloid cells seen in patients with the cancer acute myelogenous leukemia.
The fact that increased expression of RUNX1 in humans is associated with a predisposition
to develop acute myelogenous leukemia supports our hypothesis that an increase of RUNX1
expression in immature myeloid cells leads to a pre-cancerous state of extended
proliferative capacity. We will express mutated forms of RUNX1 in 32Dcl3 cells and
primary myeloid cells to discover the mechanism by which RUNX1 works. 

We have found that expression of the transcription factor RUNX1 suppresses the
development of gamma delta T cells (Fig. 1 gd TCR) and silences the expression of CD4
specifically at the immature alpha beta TCR double-positive thymocyte stage (Fig. 2 ab
TCR DP). This leads to a bias first towards the production of ab T cells and later, to a
bias towards the production of CD8 cytotoxic T cells (Fig. 1 CD8+ TCRbhi). RUNX1 is the
first transcription factor known to influence production of either of these types of T
cells. It is important to understand how production of different kinds of T cells is
regulated: for instance, one can see from AIDS that neither gd T cells nor CD8+ ab T
cells can make up for the lack of CD4+ ab T cells. We are characterizing the nature of
RUNX family member regulation of CD4 expression, seeking to identify RUNX gene targets in
early thymocytes, and investigating what signals normally control the level of RUNX
family members in thymocytes. 

RUNX1 is associated with the development of pediatric acute lymphoblastic leukemia (ALL).
We have discovered truncated splice isoforms of RUNX1 that, when expressed via retroviral
transduction in immature thymocytes, cause a proliferative expansion or give a survival
advantage to these cells. We have localized this effect to a short domain in the
N-terminus of RUNX1 and are working on identifying specific amino acids and potential
interacting proteins responsible for this effect. 

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