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our results indicate that Nodal regulated dusp4 plays a repressive role in mesendoderm induction.
dusp4 is essential for early development; knockout of dusp4 revealed a specific loss of sox17 (show SOX17 ELISA Kits), establishing a new class of endoderm specification defect.
Results show that DUSP4 gene is under-expressed in ER-negative breast cancer and is deleted in approximately 50 % of breast cancers. Induced DUSP4 expression suppresses both in vitro and in vivo growths of breast cancer cells suggesting that DUSP4 is a critical regulator of the growth and invasion of triple-negative breast cancer cells.
Our findings demonstrate a genetic mechanism by which pancreatic precursor lesions progress to invasive carcinomas and highlight DUSP4 as a novel invasion suppressor
DUSP4 is crucial in regulating corticosteroid sensitivity.
Data indicate that normalization of dual-specific phosphatase 4 (DUSP4) expression using a specific siRNA improved CD4(+) T-cell activity in idiopathic CD4 lymphopenia (ICL).
Ectopic expression of wild-type DUSP4, but not of a phosphatase-deficient mutant, dephosphorylates c-JUN N-terminal kinase (JNK) and induces apoptosis in DLBCL cells.
Low DUSP4 expression levels predict recurrence and mortality in triple-negative breast cancer patients
Data suggest that MKP-2 rather than MKP-1 is tamoxifen-regulated and that the elevated expression of MKP-2 in MCF7-TAMR cells potentially functions to restore tamoxifen sensitivity.
MKP-1 (show DUSP1 ELISA Kits) and MKP-2 stability is regulated by ERK (show EPHB2 ELISA Kits)-mediated phosphorylation through a degradation pathway independent of polyubiquitination
Instead, autophagic cell death was the major consequence, and our investigation of mechanisms suggested it is mediated via the dual specificity phosphatase-4 (DUSP4) dependent ERK (show EPHB2 ELISA Kits) inactivation pathway
DUSP4 attenuates ERK (show EPHB2 ELISA Kits) signaling and reduces cell viability, suggesting that the novel crosstalk between NFkappaB (show NFKB1 ELISA Kits) and mitogen activated protein kinase (show MAPK1 ELISA Kits) pathways contributes to cell survival.
domain-mapping results showed that both the substrate-interacting and the phosphatase domains of DUSP4 (show DUSP9 ELISA Kits) were required for its optimal interaction with STAT5 (show STAT5A ELISA Kits), while the coiled-coil domain of STAT5 (show STAT5A ELISA Kits) appeared to hinder this interaction
MKP-2 knock-out mice show deficits in working memory and spatial reference.
DUSP4 (show DUSP9 ELISA Kits) is crucial for neuronal differentiation and functions in the neurogenesis of embryonic stem cells.
Loss of MKP-2 expression is associated with enhanced susceptibility to parasite infection.
LH/hCG (show CGA ELISA Kits) tightly regulates MKP-2 expression, which modulates the induction of CYP11A1 (show CYP11A1 ELISA Kits) by 8Br-cAMP.
Dusp1 (show DUSP1 ELISA Kits) and Dusp4 (show DUSP9 ELISA Kits) are cardioprotective genes that play a critical role in the heart by dampening p38 MAPK (show MAPK14 ELISA Kits) signaling that would otherwise reduce contractility and induce cardiomyopathy.
Loss of MKP-2 regulates early inflammation in acute lung injury.
Increased DUSP4 (show DUSP9 ELISA Kits) expression in activated T cells in the elderly in part accounts for defective adaptive immune responses.
protein deficiency enhances CD25 (show IL2RA ELISA Kits) expression and CD4 (show CD4 ELISA Kits)+ T-cell proliferation without impeding T-cell development
The protein encoded by this gene is a member of the dual specificity protein phosphatase subfamily. These phosphatases inactivate their target kinases by dephosphorylating both the phosphoserine/threonine and phosphotyrosine residues. They negatively regulate members of the mitogen-activated protein (MAP) kinase superfamily (MAPK/ERK, SAPK/JNK, p38), which are associated with cellular proliferation and differentiation. Different members of the family of dual specificity phosphatases show distinct substrate specificities for various MAP kinases, different tissue distribution and subcellular localization, and different modes of inducibility of their expression by extracellular stimuli. This gene product inactivates ERK1, ERK2 and JNK, is expressed in a variety of tissues, and is localized in the nucleus. Two alternatively spliced transcript variants, encoding distinct isoforms, have been observed for this gene. In addition, multiple polyadenylation sites have been reported.
dual specificity protein phosphatase 4
, dual specificity phosphatase 4
, MAP kinase phosphatase 2
, VH1 homologous phosphatase 2
, dual specificity protein phosphatase hVH2
, mitogen-activated protein kinase phosphatase 2
, serine/threonine specific protein phosphatase