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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Notch signaling is involved in many cell fate determination events in metazoans. Ligand binding results in proteolytic cleavage to release the signal-transducing Notch intracellular domain (NICD). The nuclear protein RBP-J kappa, when complexed with NICD, acts as a
transcriptional activator
which, in turn, induces a target gene of Notch such as the repressors HES/E(spl) and HERP2. Under physiological stimulation using co-culture with Notch ligand-expressing cells and target cells expressing Notch receptors, the
HES1
gene and the HERP2 gene have been shown to be directly up-regulated by Notch ligand binding. However, expression of another member of the HERP family, HERP1, was not induced by ligand stimulation in any cells tested, leading to the suggestion that HERP1 may not be an immediate target of Notch or that Notch pathways can be cell type-specific. Because HERP1 appears to play a central role in the development of the aorta (Zhong, T. P., Rosenberg, M., Mohideen, M. A., Weinstein, B., and Fishman, M. C. (2000) Science 287, 1820-1824), we re-addressed the issue of its relationship with the Notch pathway by examining its expression in A10 smooth muscle cells derived from thoracic aorta. We show that in these specific cells HERP1 is also a direct target gene of Notch. NICD activates the HERP1 promoter in an RBP-J kappa-dependent manner, and induces expression of endogenous HERP1 mRNA as well as HERP1 protein in A10 cells. Co-culture with Notch ligand-bearing cells induces endogenous HERP1 mRNA expression in A10 cells, and these events occur even in the absence of de novo protein synthesis. In addition, RBP-J kappa proved essential for induction of HERP1 mRNA in Notch signaling because exogenous RBP-J kappa was sufficient to rescue HERP1 mRNA expression in RBP-J kappa-deficient cells. These findings provide the first solid evidence that HERP1 is a novel primary target of Notch and underscores the cell-specific complexity of the Notch regulatory pathway. Given that Notch signaling plays a crucial role in vascular development, Notch may derive its function via HERP family members.
...
PMID:HERP1 is a cell type-specific primary target of Notch. 1174 89
Notch is a single-pass transmembrane receptor that mediates cell fate choice in various species and developmental contexts. The Notch signal is transduced by its intracellular domain, which acts as a
transcriptional activator
, and is released from the plasma membrane by proteolytic cleavages. This process is initiated by intercellular association of the epidermal growth factor (EGF) repeats between Notch and the DSL (Delta, Serrate, Lag-2) ligands but the detailed mechanism is yet to be clarified. Here we demonstrate that Notch1 can form homodimers, which is achieved by its EGF motifs. The Notch1 dimer formation increased in response to ligand presentation and
HES1
promoter was stimulated, implying that receptor homodimerization is an important initial step in Notch signal transduction. EGF motifs also serve as a protection against proteases, including TNF-alpha converting enzyme, which prevents Notch1 from ligand-independent activation. Multiple functions of the Notch EGF motifs, such as the prevention of constitutive activation, reciprocal interaction with the ligands and lateral interaction for homodimerization, appear to constitute crucial elements of the Notch signaling system.
...
PMID:Distinct roles of EGF repeats for the Notch signaling system. 1556 Nov 8
Expression of Mash1 is dysregulated in human neuroblastoma. We have also reported that LMO3 (LIM-only protein 3) has an oncogenic potential in collaboration with neuronal transcription factor HEN2 in neuroblastoma. However, the precise molecular mechanisms of its transcriptional regulation remain elusive. Here we found that LMO3 forms a complex with HEN2 and acts as an upstream mediator for transcription of Mash1 in neuroblastoma. The high levels of LMO3 or Mash1 mRNA expression were significantly associated with poor prognosis in 100 primary neuroblastomas. The up-regulation of Mash1 remarkably accelerated the proliferation of SH-SY5Y neuroblastoma cells, while siRNA-mediated knockdown of LMO3 induced inhibition of growth of SH-SY5Y cells in association with a significant down-regulation of Mash1. Additionally, overexpression of both LMO3 and HEN2 induced expression of Mash1, suggesting that they might function as a
transcriptional activator
for Mash1. Luciferase reporter assay demonstrated that the co-expression of LMO3 and HEN2 attenuates
HES1
(a negative regulator for Mash1)-dependent reduction of luciferase activity driven by the Mash1 promoter. Chromatin immunoprecipitation assay revealed that LMO3 and HEN2 reduce the amount of
HES1
recruited onto putative
HES1
-binding sites and E-box within the Mash1 promoter. Furthermore, both LMO3 and HEN2 are physically associated with
HES1
by immunoprecipitation assay. Thus, our present results suggest that a transcriptional complex of LMO3 and HEN2 may contribute to the genesis and malignant phenotype of neuroblastoma by inhibiting
HES1
which suppresses the transactivation of Mash1.
...
PMID:Oncogenic LMO3 collaborates with HEN2 to enhance neuroblastoma cell growth through transactivation of Mash1. 2157 14
