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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

Subunit-specific association of protein kinase C and the receptor for activated C kinase with GABA type A receptors.

GABA receptors (GABA(A)) are the major sites of fast synaptic inhibition in the brain and can be assembled from five subunit classes: alpha, beta, gamma, delta, and epsilon. Receptor function can be regulated by direct phosphorylation of beta and gamma2 subunits, but how kinases are targeted to GABA(A) receptors is unknown. Here we show that protein kinase C-betaII (PKC-betaII) is capable of directly binding to the intracellular domain of the receptor beta1 and beta3 subunits, but not to those of the alpha1 or gamma2 subunits. Moreover, associating PKC-betaII is capable of specifically phosphorylating serine 409 in beta1 subunit and serines 408/409 within the beta3 subunit, key residues for modulating GABA(A) receptor function. The receptor for activated C kinase (RACK-1) was found also to bind to the beta1 subunit intracellular domain, but PKC binding appeared to be independent of this protein. Using immunoprecipitation, the association of PKC isoforms and RACK-1 with neuronal GABA(A) receptors was seen. Furthermore, PKC isoforms associating with neuronal receptors were capable of phosphorylating the receptor beta3 subunit. Together, these observations suggest GABA(A) receptors are intimately associated with PKC isoforms via a direct interaction with receptor beta subunits. This interaction may serve to localize PKC activity to GABA(A) receptors in neurons allowing the rapid regulation of receptor activity by cell-signaling pathways that modify PKC activity.[1]

References

  1. Subunit-specific association of protein kinase C and the receptor for activated C kinase with GABA type A receptors. Brandon, N.J., Uren, J.M., Kittler, J.T., Wang, H., Olsen, R., Parker, P.J., Moss, S.J. J. Neurosci. (1999) [Pubmed]
 
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