Abstract
Density-enhanced phosphatase-1 (DEP-1) is a trans-membrane receptor protein-tyrosine phosphatase that plays a recognized prominent role as a tumor suppressor. However, the mechanistic details underlying its function are poorly understood because its primary physiological substrate(s) have not been firmly established. To shed light on the mechanisms underlying the anti-proliferative role of this phosphatase, we set out to identify new DEP-1 substrates by a novel approach based on screening of high density peptide arrays. The results of the array experiment were combined with a bioinformatics filter to identify eight potential DEP-1 targets among the proteins annotated in the MAPK pathway. In this study we show that one of these potential targets, the ERK1/2, is indeed a direct DEP-1 substrate in vivo. Pulldown and in vitro dephosphorylation assays confirmed our prediction and demonstrated an overall specificity of DEP-1 in targeting the phosphorylated tyrosine 204 of ERK1/2. After epidermal growth factor stimulation, the phosphorylation of the activation loop of ERK1/2 can be modulated by changing the concentration of DEP-1, without affecting the activity of the upstream kinase MEK. In addition, we show that DEP-1 contains a KIM-like motif to recruit ERK1/2 proteins by a docking mechanism mediated by the common docking domain in ERK1/2. ERK proteins that are mutated in the conserved docking domain become insensitive to DEP-1 de-phosphorylation. Overall this study provides novel insights into the anti-proliferative role of this phosphatase and proposes a new mechanism that may also be relevant for the regulation of density-dependent growth inhibition.
Highlights
A variety of in vivo and in vitro approaches has led us to propose a number of Density-enhanced phosphatase-1 (DEP-1) substrates as mediators of its function
A selected list of potentially relevant substrates has been obtained by applying lated kinase; MEK, MAPK/ERK kinase; EGF, epidermal growth factor; VEGFR2, vascular endothelial growth factor receptor 2; PDGFR, plateletderived growth factor receptor; PBS, phosphate-buffered saline; Human embryonic kidney (HEK), human embryonic kidney; GST, glutathione S-transferase; PTP, proteintyrosine phosphatase; TRITC, tetramethylrhodamine isothiocyanate; KIM, kinase interaction motif; shRNA, short hairpin RNA; CD, common docking
Antibodies—Anti-hemagglutinin (HA) and anti-FLAG were from Sigma; anti-DEP-1, anti-SRC, and anti-tubulin were from Santa Cruz Biotechnology; anti-ERK1/2(P), anti-ERK1/2, antiMEK(P), anti-MEK, anti-p38(P) and anti-p38 were from Cell Signaling, and anti-4G10 was from Upstate Biotechnology, Inc
Summary
Antibodies—Anti-hemagglutinin (HA) and anti-FLAG were from Sigma; anti-DEP-1, anti-SRC, and anti-tubulin were from Santa Cruz Biotechnology; anti-ERK1/2(P), anti-ERK1/2, antiMEK(P), anti-MEK, anti-p38(P) and anti-p38 were from Cell Signaling, and anti-4G10 was from Upstate Biotechnology, Inc. Plasmids—pRS␣ DEP-1WT/HA, pRS␣ DEP-1CS/HA, pRS␣ DEP-1DA/HA, and pRS␣ DEP-1⌬Cy/HA were kindly provided by Dr T. The pGEX-4TK expression plasmids coding for the fusion proteins GST-PTPs (PTP1B, TC-PTP, MEG-2, MEG-1, FAP-1, LYP-1, PTPH1, PEST, DEP-1, SAP-1, LAR, PTP, PTP␣, SHP1, and SHP2) were kindly provided by Rob Hooft van Huijsduijnen. PMV rat HA-ERK2 plasmid was donated by Dr Tartaglia [17]; cDNA encoding SRC Y527F was cloned in pSGT [18]. The full-length TC-PTP was cloned in p3XFLAG-CMV14 vector (NotI/BamHI). The two shRNA constructs directed against DEP-1 transcript were from OriGene Technologies (TI340203-4). The expression plasmid p3XFLAG-CMV7.1 coding for rat FLAG-ERK2 was kindly donated by Prof. The FLAG-ERK2 D319A and HADEP-1 K1016A mutants were generated by site-directed mutagenesis using the QuikChange kit (Stratagene)
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