The impact of a functional CHR in the Birc5 promoter was not analyzed in this report

networks of 5,264 Spi1 target genes by using the core analysis tool of IPA. They showed a significant relationship with canonical pathways defined as “Fc receptor-mediated phagocytosis in macrophages and monocytes”, “Molecular mechanisms of cancer”, “B cell receptor signaling”, “Role of NFAT in regulation of the immune response”, and “PI3K signaling in B lymphocytes”. The results of KEGG and IPA combined together indicated that Spi1 regulates expression of not only the genes crucial for normal function of monocytes/macrophages and B cells but also those involved in oncogenesis, particularly in leukemogenesis. IPA also identified functional networks relevant to Spi1 target genes. The most significant network was defined as “Cell Morphology, Cellular Function and Maintenance, Cell Death and Survival”, where key components of autophagosomes, such as ATG3, ATG5, ATG7, and ATG10, are clustered. The second rank network represented “RNA Post-Transcriptional Modification, Cellular Assembly and Organization, Infectious Disease”. Finally, we studied molecular networks of 5,264 Spi1 target genes by using KeyMolnet. The neighboring networksearch algorithm extracted the highly complex network composed of 5,788 molecules and 13,719 molecular relations. It showed the most significant relationship with “Transcriptional regulation by RB/ E2F”. We identified Rb1, Rbl1, Rbl2, and E2f1 as a group of Spi1 target genes. discussion Mice lacking PU.1/Spi1 are devoid of microglia, indicating that PU.1 acts as an indispensable transcription factor for development and differentiation of microglia.13,31,32 By analyzing a ChIP-Seq dataset, we identified 5,264 Spi1 target protein-coding genes in BV2 mouse microglial cells. Enrichment of the PU-box consensus sequences within the genomic regions surrounding ChIP-Seq peaks validated the reliability of our analysis. By PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19818716 using get UPF 1069 pathway analysis tools named KEGG and IPA, we found that ChIP-Seq-based Spi1 target genes show a significant relationship with diverse pathways essential for normal function of monocytes/macrophages, such as endocytosis, Fc receptor-mediated phagocytosis, and lysosomal degradation, along with the pathway closely related to leukemogenesis. Relevantly, mice with reduced expression of PU.1 develop acute myeloid leukemia.34 Approximately two-thirds of “microglial sensome” genes that reflect the microglia-specific gene signature30 corresponded to Spi1 targets. These observations suggest that Spi1 plays a pivotal role in regulation of the genes relevant to specialized functions of microglia. KeyMolnet constructed the complex network of Spi1 target genes showing the most significant relationship with transcriptional regulation by RB/E2F. PU.1, capable of interacting physically with the C pocket of phosphorylated retinoblastoma protein, blocks erythroid differentiation by repressing GATA-1 in mouse erythroleukemia cells.35 134 Gene ReGulation and SyStemS BioloGy 2014:8 The set of 5,264 Spi1 target genes include Spi1 itself, supporting the previous observations that PU.1 activates its own promoter elements via an autoregulatory loop.36 We found that approximately one-third of Spi1 target genes in microglia are potentially coregulated by Cebpa, a transcription factor essential for the development of monocytic and granulocytic lineage cells.37 Importantly, Cebpa directly activates PU.1 gene transcription by binding to its promoter and distal enhancer.38 A previous study showed that the Cebpa Spi1 pathway play