Abstract
Abstract 58
Role of small non-coding microRNAs (miRNA) in hematopoiesis has been recently established by studies demonstrating increased levels of miR-155 in chronic lymphocytic leukemia (CLL) (Fulci 2007, Marton 2008). PU.1 is an ETS family transcription factor controling myelo-lymphoid differentiation and is directly negatively regulated by miR-155 (Vigorito 2007). Our aim of this study is to determine mechanisms of miR-155 upregulation in CLL pathogenesis and the role of PU.1 downregulation in the process. Methods: miRNA and mRNA levels were determined by qPCR and Affymetrix mRNA expression profiling in peripheral blood mononuclear cells (PBMC) and in purified B cells. Control (N=13) and CLL patients (N=66) were studied. All patients were subgrouped according to cytogenetics (FISH) and Rai status. Protein-DNA localization assays were done using chromatin immunoprecipitation. Results: miR-155 is significantly upregulated in both CLL patient PBMCs and a subset of sorted B-cells whereas PU.1 and its target genes are repressed in all CLL subgroups. Indeed, expression profiling analysis of CLL samples identified a broad repression of ∼80 miR-155 targets (among them key transcriptional regulators FOS, SATB1, MEF2A, MYBL1, SIRT1, MECP2 and CEBPB) and ∼380 repressed PU.1 target genes, among them regulators of hematopoietic homeostasis (FOS, CSF1R, CSF2R, IL4R, IL21R) and apoptosis (BID, BIRC3). Next, we have studied the mechanism of miR-155 gene (also known as BIC) upregulation in CLL. Wehave newly identified a regulatory CpG island (BIC-CpG) upstream of miR-155 BIC gene that contains DNA binding motifs for E-box transcription factors and is not mutated in CLL patients. Two E-box-binding proteins, MYB and MYBL2, are significantly upregulated in CLL patient PBMCs as well as in a subset of sorted B-cells in all CLL subgroups. Furthermore in primary CLL cells, MYB protein presence is significantly enriched at BIC-CpG alongside a marked enrichment with transcriptionally active chromatin mark histone H3K9Acetyl. To further study the role of MYB in transactivation of the BIC-CpG we have prepared reporter constructs and found that MYB indeed activates BIC-CpG and downstream transcription. Apart from miR-155/BIC, expression profiling analysis identified additional ∼50 upregulated MYB targets, among them cancer-related genes such as CA1, MCM4, BCL2, PDCD4, and CXCR4. Functional assays using siRNA inhibition of PU.1 in normal PBMCs result in upregulation of miR-155 and MYB, indicating that silencing of PU.1 and upregulation of MYB and its target miR-155 may represent an important mechanism of CLL pathogenesis. Conclusion: Our data propose a mechanistic relationship between PU.1 and its negative regulator miR-155 in CLL. Our data also demonstrate that miR-155 is transcriptionally activated by MYB family of E-box binding proteins. Manipulation of these mechanistic relationships may harbor a potential for molecular therapies against CLL. (Grants NR9021-4, 10310-3, 2B06077)
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.