Heinz Nika scite author profile

Increased transcriptional activity of ␤-catenin resulting from Wnt/Wingless-dependent or -independent signaling has been detected in many types of human cancer, but the underlying mechanism of Wnt-independent regulation is poorly understood. We have demonstrated that AKT, which is activated downstream from epidermal growth factor receptor signaling, phosphorylates ␤-catenin at Ser 552 in vitro and in vivo. AKTmediated phosphorylation of ␤-catenin causes its disassociation from cell-cell contacts and accumulation in both the cytosol and the nucleus and enhances its interaction with 14-3-3 via a binding motif containing Ser 552 . Phosphorylation of ␤-catenin by AKT increases its transcriptional activity and promotes tumor cell invasion, indicating that AKT-dependent regulation of ␤-catenin plays a critical role in tumor invasion and development.

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EGF-Induced ERK Activation Promotes CK2-Mediated Disassociation of α-Catenin from β-Catenin and Transactivation of β-Catenin

Nika

et al. 2009

Molecular Cell

243

231

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SUMMARY Increased transcriptional activity of β-catenin resulting from Wnt/Wingless-dependent or - independent signaling has been detected in many types of human cancer, but the underlying mechanism of Wnt-independent regulation remains unclear. We demonstrate here that EGFR activation results in disruption of the complex of β-catenin and α-catenin, thereby abrogating the inhibitory effect of α-catenin on β-catenin transactivation via CK2α-dependent phosphorylation of α-catenin at Ser641. ERK2, which is activated by EGFR signaling, directly binds to CK2α via the ERK2 docking groove and phosphorylates CK2α primarily at Thr360/Ser362, subsequently enhancing CK2α activity toward α-catenin phosphorylation. In addition, levels of α-catenin S641 phosphorylation correlate with levels of ERK1/2 activity in human glioblastoma specimens and with grades of glioma malignancy. This EGFR-ERK-CK2–mediated phosphorylation of α-catenin promotes β-catenin transactivation and tumor cell invasion. These findings highlight the importance of the crosstalk between EGFR and Wnt pathways in tumor development.

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Phosphopeptide Characterization by Mass Spectrometry using Reversed-Phase Supports for Solid-Phase β-Elimination/Michael Addition

et al. 2012

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We have adapted the Ba 2ϩ ion-catalyzed concurrent Michael addition reaction to solid-phase derivatization on ZipTip C18 pipette tips using 2-aminoethanethiol as a nucleophile. This approach provides several advantages over the classical in-solution-based techniques, including ease of operation, completeness of reaction, improved throughput, efficient use of dilute samples, and amenability to automation. Phosphoseryl and phosphothreonyl peptides, as well as phosphoserine peptides with adjoining prolines, were used to optimize the reaction conditions, which proved highly compatible with the integrity of the samples. The analyte was recovered from the silica-based C18 resin at minimal sample loss. The use of the protocol for improved phosphopeptide detection by signal enhancement was demonstrated with low-level amounts of proteolytic digests from model proteins and experimental samples, an effect found especially prominent with multiple phosphorylated species. The reaction products proved highly suitable for structural characterization by collisionally induced dissociation (CID), and the resultant increased spectral information content, greatly facilitating mapping of the site of phosphorylation. In select cases, the method enables phosphorylation site localization within known protein sequences on the basis of single-stage data alone. The solid-phase strategy presented here provides a simple, versatile, and efficient tool for phosphopeptide structural characterization equipment readily available in most biological laboratories.

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Heinz Nika

Phosphorylation of β-Catenin by AKT Promotes β-Catenin Transcriptional Activity

EGF-Induced ERK Activation Promotes CK2-Mediated Disassociation of α-Catenin from β-Catenin and Transactivation of β-Catenin

Phosphopeptide Characterization by Mass Spectrometry using Reversed-Phase Supports for Solid-Phase β-Elimination/Michael Addition

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