c-Jun homodimers can function as a context-specific coactivator.

Transcription factors can function as DNA-binding-specific activators or as coactivators. c-Jun drives gene expression via binding to AP-1 sequences or as a cofactor for PU.1 in macrophages.

TEL/ETV6 induces apoptosis in 32D cells through p53-dependent pathways.

TEL is an ETS family transcription factor that is critical for maintaining hematopoietic stem cells in adult bone marrow. To investigate the roles of TEL in myeloid proliferation and differentiation, we introduced TEL cDNA into mouse myeloid 32Dcl3 cells. Overexpression of TEL repressed interleukin-3-dependent proliferation through blocking cell cycle progression.

TEL/AML1 shows dominant-negative effects over TEL as well as AML1.

The TEL/AML1 chimeric gene is generated by the t(12;21) translocation in pre-B cell acute lymphoblastic leukemia. TEL/AML1 consists of the helix-loop-helix (HLH) dimerization domain from TEL and almost the entire of AML1, but loses the ETS DNA-binding domain from TEL. Dominant-negative effects of TEL/AML1 over wild-type-AML1 are believed to trigger the development of this type of leukemia.

Functional analysis of a dominant-negative DeltaETS TEL/ETV6 isoform.

A transcriptional repressor TEL belongs to the ETS family transcription factors and acts as a tumor suppressor. We identified five alternatively spliced TEL isoforms generated possibly through exon skipping mechanisms, by using reverse transcriptase-polymerase chain reaction analysis. Among them, we examined molecular and biological functions of a DeltaETS-TEL isoform (TEL-f).

Leukemia-related transcription factor TEL is negatively regulated through extracellular signal-regulated kinase-induced phosphorylation.

TEL is an ETS family transcription factor that possesses multiple putative mitogen-activated protein kinase phosphorylation sites. We here describe the functional regulation of TEL via ERK pathways. Overexpressed TEL becomes phosphorylated in vivo by activated ERK.

Leukemia-related transcription factor TEL accelerates differentiation of Friend erythroleukemia cells.

TEL belongs to a member of the ETS family transcription factors that represses transcription of target genes such as FLI-1. Although TEL is essential for establishing hematopoiesis in neonatal bone marrow, its role in erythroid lineage is not understood. To investigate a role for TEL in erythroid differentiation, we introduced TEL into mouse erythroleukemia (MEL) cells.

Functional regulation of TEL by p38-induced phosphorylation.

TEL is a nuclear phosphoprotein that belongs to a member of the ETS family transcription factors. TEL acts as a tumor suppressor and is essential for establishing hematopoiesis in neonatal bone marrow. Because TEL possesses multiple putative mitogen-activated protein (MAP) kinase phosphorylation sites, we here investigated functional regulation of TEL via stress signaling pathways.