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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)
Synaptic activity induces changes in the number of dendritic spines. Here, we report a pathway of regulated endocytosis triggered by
arcadlin
, a protocadherin induced by electroconvulsive and other excitatory stimuli in hippocampal neurons. The homophilic binding of extracellular
arcadlin
domains activates TAO2beta, a splice variant of the thousand and one amino acid protein kinase 2, cloned here by virtue of its binding to the
arcadlin
intracellular domain. TAO2beta is a MAPKKK that activates the MEK3 MAPKK, which phosphorylates the p38
MAPK
. Activation of p38 feeds-back on TAO2beta, phosphorylating a key serine required for triggering endocytosis of N-cadherin at the synapse.
Arcadlin
knockout increases the number of dendritic spines, and the phenotype is rescued by siRNA knockdown of N-cadherin. This pathway of regulated endocytosis of N-cadherin via protocadherin/TAO2beta/MEK3/p38 provides a molecular mechanism for transducing neuronal activity into changes in synaptic morphologies.
...
PMID:Activity-induced protocadherin arcadlin regulates dendritic spine number by triggering N-cadherin endocytosis via TAO2beta and p38 MAP kinases. 1798 30
Synaptic plasticity depends on the generation, modification and disconnection of synapses. An excitatory synapse is connected to a specialized dendritic compartment called a spine, which undergoes activity-induced remodeling. Here, we discuss a signaling pathway that transduces neuronal activity into the remodeling of spine through p38 mitogen-activated protein kinase (
MAPK
) and N-cadherin. Dendritic spines change their morphology and density in response to neuronal activity. In the early phase, posttranslational modifications of synaptic molecules regulate spine morphology, whereas activity-induced gene products reduce spine density in the late phase. One of the targets of these mechanisms is N-cadherin. An activity-induced protocadherin,
arcadlin
, stimulates thousand and one 2beta (TAO2beta) kinase, which in turn activates p38
MAPK
through
MAPK
kinase 3 (MEK3), resulting in the endocytosis of N-cadherin and the decrease in spine number. This pathway also underlies the mechanism of the spine decrease in neuronal disorders, such as Alzheimer's disease and epilepsy. Development of new p38
MAPK
inhibitors brings a ray of hope with respect to the development of more effective therapies for these patients.
...
PMID:Transducing neuronal activity into dendritic spine morphology: new roles for p38 MAP kinase and N-cadherin. 1921 33
