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Protein kinase C activation induces conductance changes in Hermissenda photoreceptors like those seen in associative learning
- Source :
- Nature. 319(6050)
- Publication Year :
- 1986
-
Abstract
- Phosphorylation of ion channels has been suggested as one molecular mechanism responsible for learning-produced long-term changes in neuronal excitability. Persistent training-produced changes in two distinct K+ currents (IA (ref. 2), IK-Ca (refs 3,4)) and a voltage-dependent calcium current (ICa; refs 3,4) have previously been shown to occur in type B photoreceptors of Hermissenda, as a result of associative learning. But the identity of the phosphorylation pathway(s) responsible for these changes has not as yet been determined. Injections of cyclic AMP-dependent protein kinase reduce a K+ current (IK) in B cells which is different from those changed by training, but fails to reduce IA and IK-Ca. Phosphorylase b kinase (an exogenous calcium/calmodulin-dependent kinase) reduces IA, but whether IK-Ca and ICa are changed in the manner of associative training is not yet known. Another protein kinase present in high concentrations in both mammalian brain and molluscan nervous systems is protein kinase C, which is both calcium- and phospholipid-sensitive. We now present evidence that activation of protein kinase C by the tumour promoter phorbol ester (PDB) and intracellular injection of the enzyme induce conductance changes similar to those caused by associative training in Hermissenda B cells (that is a reduction of IA and IK-Ca, and enhancement of ICa). These results represent the first direct demonstration that protein kinase C affects membrane K+ ion conductance mechanisms.
- Subjects :
- Serotonin
food.ingredient
genetic structures
education
Sensory receptor
Ion Channels
Hermissenda
food
Phorbol Esters
Animals
Photoreceptor Cells
Phosphorylation
skin and connective tissue diseases
Protein kinase A
Protein Kinase C
Multidisciplinary
biology
Conductance
biology.organism_classification
eye diseases
Associative learning
Enzyme Activation
Biochemistry
Mollusca
Biophysics
Membrane channel
Hermissenda crassicornis
sense organs
Subjects
Details
- ISSN :
- 00280836
- Volume :
- 319
- Issue :
- 6050
- Database :
- OpenAIRE
- Journal :
- Nature
- Accession number :
- edsair.doi.dedup.....979e5381c8e2d69fa98986f5c5dcfe34