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Query: EC:2.7.11.24 (
mitogen-activated protein kinase
)
95,810
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We previously reported the cloning of the thousand and one-amino acid protein kinase 1 (TAO1), a rat homolog of the Saccharomyces cerevisiae protein kinase sterile 20 protein. Here we report the complete sequence and properties of a related rat protein kinase TAO2. Like TAO1, recombinant TAO2 selectively activated mitogen-activated protein/
extracellular signal-regulated kinase
kinases (MEKs) 3, 4, and 6 of the stress-responsive
mitogen-activated protein kinase
pathways in vitro and copurified with MEK3 endogenous to Sf9 cells. To examine TAO2 interactions with MEKs, the MEK binding domain of TAO2 was localized to an approximately 135-residue sequence just C-terminal to the TAO2 catalytic domain. In vitro this MEK binding domain associated with MEKs 3 and 6 but not MEKs 1, 2, or 4. Using chimeric MEK proteins, we found that the MEK N terminus was sufficient for binding to TAO2. Catalytic activity of full-length TAO2 enhanced its binding to MEKs. However, neither the autophosphorylation of the MEK binding domain of TAO2 nor the activity of MEK itself was required for MEK binding. These results suggest that
TAO
proteins lie in stress-sensitive kinase cascades and define a mechanism by which these kinases may organize downstream targets.
...
PMID:Isolation of the protein kinase TAO2 and identification of its mitogen-activated protein kinase/extracellular signal-regulated kinase kinase binding domain. 1049 53
TAO1 and TAO2 are recently described protein kinases whose initial characterization has placed them at the
mitogen-activated protein kinase
(
MAPK
)/
extracellular signal-regulated kinase
(
ERK
) kinase kinase (MEKK) level of stress-responsive
MAPK
pathways. Because their physiological roles have not been identified, we sought to study their C. elegans homolog to learn more about their functions. kin-18 encodes a previously uncharacterized protein in C. elegans whose catalytic domain shares over 60% identity with TAO1 and TAO2. We demonstrate that KIN-18 is a protein of 120 kDa whose promoter is active in the pharynx and intestine of C. elegans. To learn more about
TAO
/KIN-18 function, we studied how expression of constitutively active forms of TAO1 or KIN-18 would affect the physiology of intact worms. Strains of C. elegans expressing active forms of TAO1 or KIN-18 exhibit altered pharyngeal electrophysiology as measured by electropharyngeogram. These worms grow more slowly and lay fewer eggs, phenotypes that could result from reduced feeding. We have also identified a C. elegans gene that encodes a protein kinase similar to mammalian
MAPK
/
ERK
Kinase (MEK) 4 whose promoter is active in the pharynx. It is phosphorylated by TAO1 in vitro and physically interacts with TAO1.
...
PMID:kin-18, a C. elegans protein kinase involved in feeding. 1173 38
TAO2 is a mitogen-activated protein kinase kinase kinase (MAP3K) that doubly phosphorylates and activates the
MAP kinase
kinases (MAP2Ks) MEK3 and MEK6. The structure of the kinase domain of TAO2 (1-320) has been solved in its phosphorylated active conformation. The structure, together with structure-based mutagenic analysis, reveals that positively charged residues in the substrate binding groove mediate the first step in the dual phosphorylation of MEK6, on the threonine residue in the motif DS*VAKT*I (*denotes phosphorylation site) of MEK6. TAO2 is a Ste20p homolog, and the structure of active TAO2, in comparison with that of low-activity p21-activated protein kinase (PAK1), a Ste20p-related MAP4K, reveals how this group of kinases is activated by phosphorylation. Finally, active TAO2 displays unusual interactions with ATP, involving, in part, a subgroup-specific C-terminal extension of TAO2. The observed interactions may be useful in making specific inhibitors of
TAO
kinases.
...
PMID:Crystal structure of the TAO2 kinase domain: activation and specificity of a Ste20p MAP3K. 1545 37
Hepatocyte growth factor is a mesenchyme-derived pleiotropic factor that regulates the growth, motility and morphogenesis of various types of cells, and is also a member of the angiogenic growth factors. Hepatocyte growth factor is secreted by vascular endothelial cells and smooth muscle cells, and the hepatocyte growth factor receptor, c-met, was also observed in these vascular cells. Treatment of human aortic endothelial cells with recombinant hepatocyte growth factor resulted in a significant increase in cell proliferation, accompanied by
mitogen-activated protein kinase
and Akt/protein kinase B phosphorylation. Recently, a novel therapeutic strategy for ischemic diseases using angiogenic growth factors to augment collateral artery development has been proposed. As preclinical study of gene therapy using hepatocyte growth factor to treat peripheral arterial disease, naked hepatocyte growth factor plasmid was intramuscularly injected into the ischemic hind limb of rabbits in order to evaluate its angiogenic activity. Intramuscular injection of hepatocyte growth factor plasmid once on day 10 following surgery, produced significant augmentation of collateral vessel development in the ischemic limb on day 30. In the clinical setting, the authors further investigated the safety and efficacy of hepatocyte growth factor plasmid DNA in patients with critical limb ischemia, in a prospective open-labeled trial. Intramuscular injection of naked plasmid DNA was performed in the ischemic limbs of six patients with critical limb ischemia with arteriosclerosis obliterans (n = 3) or
Buerger
disease (n = 3) graded as Fontaine III or IV. In the efficacy evaluation, a reduction of pain scale of more than 1 cm on a visual analog pain scale was observed in five out of six patients. An increase in ankle pressure index of more than 0.1 was observed in five out of five patients. The long diameter of eight out of 11 ischemic ulcers in four patients was reduced by more than 25%. Intramuscular injection of naked hepatocyte growth factor plasmid is safe, feasible and can achieve successful improvement of ischemic limbs. Although the present data were obtained to demonstrate safety in a Phase I/early Phase II trial, the initial clinical outcome with hepatocyte growth factor gene transfer seems to indicate its usefulness as sole therapy for critical limb ischemia. Randomized placebo-controlled clinical trials of alternative dosing regimens of gene therapy will be required to define the efficiency of this therapy.
...
PMID:Hepatocyte growth factor as potential cardiovascular therapy. 1588 78
Neuronal signal transduction by the
JNK
MAP kinase
pathway is altered by a broad array of stimuli including exposure to the widely abused drug ethanol, but the behavioral relevance and the regulation of
JNK
signaling is unclear. Here we demonstrate that
JNK
signaling functions downstream of the Sterile20 kinase family gene tao/Taok3 to regulate the behavioral effects of acute ethanol exposure in both the fruit fly Drosophila and mice. In flies tao is required in neurons to promote sensitivity to the locomotor stimulant effects of acute ethanol exposure and to establish specific brain structures. Reduced expression of key
JNK
pathway genes substantially rescued the structural and behavioral phenotypes of tao mutants. Decreasing and increasing
JNK
pathway activity resulted in increased and decreased sensitivity to the locomotor stimulant properties of acute ethanol exposure, respectively. Further,
JNK
expression in a limited pattern of neurons that included brain regions implicated in ethanol responses was sufficient to restore normal behavior. Mice heterozygous for a disrupted allele of the homologous Taok3 gene (Taok3Gt) were resistant to the acute sedative effects of ethanol.
JNK
activity was constitutively increased in brains of Taok3Gt/+ mice, and acute induction of phospho-
JNK
in brain tissue by ethanol was occluded in Taok3Gt/+ mice. Finally, acute administration of a
JNK
inhibitor conferred resistance to the sedative effects of ethanol in wild-type but not Taok3Gt/+ mice. Taken together, these data support a role of a
TAO
/TAOK3-
JNK
neuronal signaling pathway in regulating sensitivity to acute ethanol exposure in flies and in mice.
...
PMID:JNK pathway activation is controlled by Tao/TAOK3 to modulate ethanol sensitivity. 2322 89
