alpha-Synuclein is known to play a major role in the pathogenesis of Parkinson disease. We previously identified synphilin-1 as an alpha-synuclein-interacting protein and more recently found that synphilin-1 also interacts with the E3 ubiquitin ligases SIAH-1 and SIAH-2. SIAH proteins ubiquitylate synphilin-1 and promote its degradation through the ubiquitin proteasome system. Inability of the proteasome to degrade synphilin-1 promotes the formation of ubiquitylated inclusion bodies. We now show that synphilin-1 is phosphorylated by GSK3beta within amino acids 550-659 and that this phosphorylation is significantly decreased by pharmacological inhibition of GSK3beta and suppression of GSK3beta expression by small interfering RNA duplex. Mutation analysis showed that Ser556 is a major GSK3beta phosphorylation site in synphilin-1. GSK3beta co-immunoprecipitated with synphilin-1, and protein 14-3-3, an activator of GSK3beta activity, increased synphilin-1 phosphorylation. GSK3beta decreased the in vitro and in vivo ubiquitylation of synphilin-1 as well as its degradation promoted by SIAH. Pharmacological inhibition and small interfering RNA suppression of GSK3beta greatly increased ubiquitylation and inclusion body formation by SIAH. Additionally, synphilin-1 S556A mutant, which is less phosphorylated by GSK3beta, formed more inclusion bodies than wild type synphilin-1. Inhibition of GSK3beta in primary neuronal cultures decreased the levels of endogenous synphilin-1, indicating that synphilin-1 is a physiologic substrate of GSK3beta. Using GFPu as a reporter to measure proteasome function in vivo, we found that synphilin-1 S556A is more efficient in inhibiting the proteasome than wild type synphilin-1, raising the possibility that the degree of synphilin-1 phosphorylation may regulate the proteasome function. Activation of GSK3beta during endoplasmic reticulum stress and the specific phosphorylation of synphilin-1 by GSK3beta place synphilin-1 as a possible mediator of endoplasmic reticulum stress and proteasomal dysfunction observed in Parkinson disease.