While isolation of stem cells has advanced dramatically in the last few decades, understanding of the precise mechanisms that regulate the self-renewal and lineage commitment of a stem cell is still limited. During hematopoiesis, progeny of hematopoietic stem cells (HSC) become committed to differentiate into specific cell lineages to ultimately generate terminally differentiated cells. Transcription factors have been recognized for their ability to drive expression of a characteristic set of lineage-specific target genes, instructing a precursor cell to adopt a certain differentiation program. Dysregulation of transcription factor activity has an important role in leukemia, implicating these genes as potential targets for therapeutic intervention in blood, and other forms of cancer. When we analyzed purified pre-leukemic hematopoietic stem and progenitor cells (HSPC) in a murine acute myeloid leukemia (AML) model, we found 4-fold upregulation of a novel non-clustered homeobox gene, H2.0-like homeobox (Hlx), suggesting that Hlx may be involved in healthy hematopoiesis and malignant transformation. Our preliminary studies indicate that overexpression of Hlx disrupts healthy myeloid differentiation and confers unlimited serial clonogenicity and a myelomonocytic differentiation block to hematopoietic stem and progenitor cells in vitro. Furthermore, overexpression of Hlx causes loss of phenotypic HSC and persistence of an expanded, aberrant myeloid progenitor population in vivo. We also find that Hlx regulates a network of genes important for lineage commitment and myeloid differentiation of HSPC. Strikingly, we find that Hlx is overexpressed in the majority of patients with AML, and that Hlx expression is one of the strongest predictors of AML patient survival. We also find that Hlx downregulation inhibits growth of murine and human AML cells in vitro. This project aims to understand how Hlx is regulating these critical functions in HSC and during myeloid differentiation. To characterize the roles of Hlx in lineage commitment of stem and progenitor cells, as well as in myeloid differentiation and acute myeloid leukemia cells, we will utilize genetic murine models, stem cell transplantation assays and targeted reduction of Hlx levels in vivo and in vitro. To elucidate the mechanism of action of Hlx, we will study downstream pathways we have identified by transcriptional profiling and perform chromatin-immunoprecipitation to establish Hlx as a transcription factor capable of directly regulating its target genes.
The goal of this project is to understand the functions of the non-clustered homeobox protein Hlx in healthy hematopoiesis and in leukemia pathogenesis. To characterize the roles of Hlx in lineage commitment of stem and progenitor cells, as well as in myeloid differentiation and acute myeloid leukemia cells, we will utilize genetic murine models, stem cell transplantation assays and targeted reduction of Hlx levels in vivo and in vitro. To elucidate the mechanism of action of Hlx, we will study downstream pathways we have identified by transcriptional profiling and perform chromatin-immunoprecipitation to establish Hlx as a transcription factor capable of directly regulating its target genes.
Pandolfi, Ashley; Stanley, Robert F; Yu, Yiting et al. (2015) PAK1 is a therapeutic target in acute myeloid leukemia and myelodysplastic syndrome. Blood 126:1118-27 |
Pandolfi, Ashley; Barreyro, Laura; Steidl, Ulrich (2013) Concise review: preleukemic stem cells: molecular biology and clinical implications of the precursors to leukemia stem cells. Stem Cells Transl Med 2:143-50 |
Will, Britta; Vogler, Thomas O; Bartholdy, Boris et al. (2013) Satb1 regulates the self-renewal of hematopoietic stem cells by promoting quiescence and repressing differentiation commitment. Nat Immunol 14:437-45 |
Kawahara, Masahiro; Pandolfi, Ashley; Bartholdy, Boris et al. (2012) H2.0-like homeobox regulates early hematopoiesis and promotes acute myeloid leukemia. Cancer Cell 22:194-208 |
Pandolfi, Ashley; Steidl, Ulrich (2012) HLX in AML: novel prognostic and therapeutic target. Oncotarget 3:1059-60 |