Dobransky_2004_J.Biol.Chem_279_52059

Reference

Title : Protein kinase C isoforms differentially phosphorylate human choline acetyltransferase regulating its catalytic activity - Dobransky_2004_J.Biol.Chem_279_52059
Author(s) : Dobransky T , Doherty-Kirby A , Kim AR , Brewer D , Lajoie G , Rylett RJ
Ref : Journal of Biological Chemistry , 279 :52059 , 2004
Abstract :

Choline acetyltransferase (ChAT) synthesizes acetylcholine in cholinergic neurons; regulation of its activity or response to physiological stimuli is poorly understood. We show that ChAT is differentially phosphorylated by protein kinase C (PKC) isoforms on four serines (Ser-440, Ser-346, Ser-347, and Ser-476) and one threonine (Thr-255). This phosphorylation is hierarchical, with phosphorylation at Ser-476 required for phosphorylation at other serines. Phosphorylation at some, but not all, sites regulates basal catalysis and activation. Ser-476 with Ser-440 and Ser-346/347 maintains basal ChAT activity. Ser-440 is targeted by Arg-442 for phosphorylation by PKC. Arg-442 is mutated spontaneously (R442H) in congenital myasthenic syndrome, rendering ChAT inactive and causing neuromuscular failure. This mutation eliminates phosphorylation of Ser-440, and Arg-442, not phosphorylation of Ser-440, appears primarily responsible for ChAT activity, with Ser-440 phosphorylation modulating catalysis. Finally, basal ChAT phosphorylation in neurons is mediated predominantly by PKC at Ser-476, with PKC activation increasing phosphorylation at Ser-440 and enhancing ChAT activity.

PubMedSearch : Dobransky_2004_J.Biol.Chem_279_52059
PubMedID: 15381704

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Citations formats

Dobransky T, Doherty-Kirby A, Kim AR, Brewer D, Lajoie G, Rylett RJ (2004)
Protein kinase C isoforms differentially phosphorylate human choline acetyltransferase regulating its catalytic activity
Journal of Biological Chemistry 279 :52059

Dobransky T, Doherty-Kirby A, Kim AR, Brewer D, Lajoie G, Rylett RJ (2004)
Journal of Biological Chemistry 279 :52059