Identification of glycogen synthase as a new substrate for stress-activated protein kinase 2b/p38beta

Abstract

The endogenous glycogen synthase in extracts from mouse skeletal muscle, liver and brain bound specifically to SAPK2b (stress-activated protein kinase 2b)/p38β, but not to other members of the group of SAPK/p38 kinases. Glycogen synthase was phosphorylated in vitro more efficiently by SAPK2b/p38β than by SAPK2a/p38α, SAPK3/p38γ or SAPK4/p38δ. SAPK2b/p38β phosphorylated glycogen synthase in vitro at residues Ser⁶⁴⁴, Ser⁶⁵², Thr⁷¹⁸ and Ser⁷²⁴, two of which (Ser⁶⁴⁴ and Ser⁶⁵²) are also phosphorylated by glycogen synthase kinase 3. Thr⁷¹⁸ and Ser⁷²⁴ are novel sites not known to be phosphorylated by other protein kinases. Glycogen synthase becomes phosphorylated at Ser⁶⁴⁴ in response to osmotic shock; this phosphorylation is prevented by pretreatment of the cells with SB 203580, which inhibits SAPK2a/p38α and SAPK2b/p38β activity. In vitro, phosphorylation of glycogen synthase by SAPK2b/p38β alone had no significant effect on its activity, indicating that phosphorylation at residue Ser⁶⁴⁴ itself is insufficient to decrease glycogen synthase activity. However, after phosphorylation by SAPK2b/p38β, subsequent phosphorylation at Ser⁶⁴⁰ by glycogen synthase kinase 3 decreased the activity of glycogen synthase. This decrease was not observed when SAPK2b/p38β activity was blocked with SB 203580. These results suggest that SAPK2b/p38β may be a priming kinase that allows glycogen synthase kinase 3 to phosphorylate Ser⁶⁴⁰ and thereby inhibit glycogen synthase activity.