IRF8

Interferon regulatory factor 8 (IRF8) also known as interferon consensus sequence-binding protein (ICSBP), is a is_associated_with::protein that in humans is encoded by the IRF8 is_associated_with::gene. IRF8 is a is_associated_with::transcription factor that plays critical roles in the regulation of lineage commitment and in is_associated_with::myeloid cell maturation including the decision for a common myeloid progenitor (CMP) to differentiate into a is_associated_with::monocyte precursor cell.

Function
is_associated_with::Interferon Consensus Sequence-binding protein (ICSBP) is a is_associated_with::transcription factor of the is_associated_with::interferon regulatory factor (IRF) family. Proteins of this family are composed of a conserved is_associated_with::DNA-binding domain in the N-terminal region and a divergent C-terminal region that serves as the regulatory domain. The IRF family proteins bind to the IFN-stimulated is_associated_with::response element (ISRE) and regulate expression of genes stimulated by type I IFNs, namely IFN-α and IFN-β. IRF family proteins also control expression of IFN-α and IFN-β-regulated genes that are induced by viral infection.

Knockout studies
IFN-producing cells (mIPCs) were absent in all lymphoid organs from ICSBP knockout (KO) mice, as revealed by lack of CD11clowB220+Ly6C+CD11b− cells. In parallel, CD11c+ cells isolated from ICSBP KO spleens were unable to produce type I IFNs in response to viral stimulation. ICSBP KO mice also displayed a marked reduction of the DC subset expressing the CD8alpha marker (CD8alpha+ DCs) in spleen, lymph nodes, and thymus. Moreover, ICSBP-deficient CD8alpha+ DCs exhibited a markedly impaired phenotype when compared with WT DCs. They expressed very low levels of costimulatory molecules (intercellular adhesion molecule is_associated_with::ICAM1, is_associated_with::CD40, is_associated_with::CD80, is_associated_with::CD86) and of the T cell area-homing chemokine receptor is_associated_with::CCR7.

Clinical significance
In myeloid cells, IRF8 regulates the expression of Bax and Fas to regulate is_associated_with::apoptosis. In is_associated_with::chronic myelogenous leukemia (CML), IRF8 regulates acid is_associated_with::ceramidase to mediate CML apoptosis.

IRF8 is highly expressed in myeloid cells and was originally identified in as a critical linage-specific transcription factor for myeloid cell differentiation, recent studies, however, have shown that IRF8 is also constitutively expressed in non-is_associated_with::hematopoietic cancer cells, albeit at a lower level. Furthermore, IRF8 can also be up-regulated by IFN-γ in non-hemotopoietic cells. IRF8 mediates the expression of Fas, Bax, FLIP, Jak1 and is_associated_with::STAT1 to mediate apoptosis in non-hemotopoietic cancer cells.

Analysis of human cancer genomics database revealed that IRF8 is not significantly focally amplified across the entire dataset of 3131 tumors, but is significantly focally deleted across the entire dataset of 3131 tumors, suggesting that IRF8 is potentially a is_associated_with::tumor suppressor in humans. Molecular analysis indicated that the IRF8 gene promoter is hypermethylated in human is_associated_with::colon carcinoma cells, suggesting that these cells might use DNA methylation to silence IRF8 expression to advance the disease.

Interactions
IRF8 has been shown to interact with is_associated_with::IRF1 and is_associated_with::COPS2.