Literature DB >> 15647496

Specific modulation of Na+ channels in hippocampal neurons by protein kinase C epsilon.

Yuan Chen1, Angela R Cantrell, Robert O Messing, Todd Scheuer, William A Catterall.   

Abstract

Acetylcholine binding to muscarinic acetylcholine receptors activates G-proteins, phospholipase C, and protein kinase C (PKC), which phosphorylates brain Na+ channels and reduces peak Na+ current in hippocampal neurons. Because multiple PKC isozymes with different regulatory properties are expressed in hippocampal neurons, we investigated which ones are responsible for mediating this effect. The diacylglycerol analog oleoylacetylglycerol (OAG) reduced the amplitude of Na+ current in dissociated mouse hippocampal neurons by 28.5 +/- 5.3% (p < 0.01). The reduction of peak Na+ current was similar with Ca2+-free internal solution and in 92 nm internal Ca2+, suggesting that calcium-dependent, conventional PKC isozymes were unlikely to mediate this response. Gö6976, which inhibits conventional PKC isozymes, reduced the effect of PKC activators only slightly, whereas rottlerin, which inhibits PKCdelta preferentially at 5 microm, had no effect. Ro-31-8425 (20 nm), which inhibits conventional PKC isozymes, did not reduce the response to OAG. However, higher concentrations of Ro-31-8425 (100 nm or 1 microm) that inhibit novel PKC isozymes effectively blocked OAG inhibition of Na+ current. Inclusion of a selective PKCepsilon-anchoring inhibitor peptide (PKCepsilon-I) in the recording pipette prevented the reduction of peak Na+ current by OAG, whereas an anchoring inhibitor peptide specific for PKCbeta and an inactive scrambled PKCepsilon-I peptide had no effect. In addition, OAG had no effect on Na+ current in hippocampal neurons from PKCepsilon null mice. Overall, our data from four experimental approaches indicate that anchored PKCepsilon is the isozyme responsible for PKC-mediated reduction of peak Na+ currents in mouse hippocampal neurons.

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Year:  2005        PMID: 15647496      PMCID: PMC6725492          DOI: 10.1523/JNEUROSCI.4089-04.2005

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  63 in total

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