Abstract
The pseudophosphatase MK-STYX (mitogen-activated protein kinase phosphoserine/threonine/tyrosine-binding protein) has been implicated in the stress response pathway. The expression of MK-STYX inhibits the assembly of stress granules, which are cytoplasmic storage sites for mRNA that form as a protective mechanism against stressors such as heat shock, UV irradiation and hypoxia. Furthermore, MK-STYX interacts with a key component of stress granules: G3BP-1 (Ras-GTPase activating protein SH3 domain binding protein-1). Because G3BP-1 dephosphorylation at Ser149 induces stress granule assembly, we initially hypothesized that the inhibition of stress granules by MK-STYX was G3BP-1 phosphorylation-dependent. However, in the present study, using MK-STYX constructs and G3BP-1 phosphomimetic or nonphosphorylatable mutants, we show that MK-STYX inhibits stress granule formation independently of G3BP-1 phosphorylation at Ser149. The introduction of point mutations at the ‘active site’ of MK-STYX that convert serine and phenylalanine to histidine and cysteine, respectively, is sufficient to generate an active enzyme. In separate experiments, we show that this active mutant, MK-STYXactive, has opposite effects to wild-type MK-STYK. Not only does MK-STYXactive induce stress granules, but also it has the capacity to dephosphorylate G3BP-1. Taken together, these results provide evidence that the pseudophosphatase MK-STYX plays a key role in the cellular response to stress.
Highlights
Protein phosphorylation signalling cascades regulate many diverse cellular responses, including the stress response
To test whether mitogen-activated protein kinase phosphoserine/threonine/tyrosine-binding protein (MK-STYX) could inhibit stress granule formation induced by phosphomimetic and nonphosphorylatable mutants of Ras-GTPase activating protein SH3 domain binding protein-1 (G3BP-1), we first needed to establish a baseline for analyzing changes in the pattern of stress granule assembly for wild-type G3BP-1
As anticipated from our previous studies [1], G3BP-1 overexpression induced the formation of large, perinuclear stress granules, whereas stress granule formation was markedly inhibited by the co-expression of MK-STYX
Summary
Protein phosphorylation signalling cascades regulate many diverse cellular responses, including the stress response. In earlier studies concerning the cellular functions of MK-STYX, we discovered that MK-STYX binds directly to a protein that regulates both the Ras signalling pathway and stress granule assembly [1]. In the present study, we show that, in heat-shocked HeLa cells, the expression of MK-STYX significantly inhibits stress granule formation in the presence of either phosphomimetic (S149E) or nonphosphorylatable (S149A) G3BP-1 mutants. These data indicate that MK-STYX inhibits stress granule formation independently of the phosphorylation state of G3BP-1 at Ser149, and suggest that MK-STYX acts at another point in the signalling pathway. These data provide evidence for a role of MK-STYX as a regulator in the stress response pathway
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