WDR1 is a novel EYA3 substrate and its dephosphorylation induces modifications of the cellular actin cytoskeleton

Abstract: Eyes absent (EYA) proteins are unusual proteins combining in a single polypeptide chain transactivation, threonine phosphatase, and tyrosine phosphatase activities. They play pivotal roles in organogenesis and are involved in a variety of physiological and pathological processes including innate immunity, DNA damage repair or cancer metastasis. The molecular targets of EYA tyrosine phosphatase activity are still elusive. Therefore, we sought to identify novel EYA substrates and also to obtain further insight i… Show more

“…Recently, we have demonstrated that c-Src phosphorylates tyrosine residues of human EYA1 and EYA3 to control their nuclear and cytoskeletal localization [30]. We have also found that EYA1 and EYA3 are capable of autodephosphorylation [30]. These data indicate a potential implication of EYA tyrosine phosphorylation and autodephosphorylation in regulating physiological processes and contributing to pathological conditions.…”

“…For example, c-Src activation has been reported to generate more than 50% of tumors in liver, colon, breast, lung, and pancreas [35]. Recently, we have demonstrated that c-Src phosphorylates tyrosine residues of human EYA1 and EYA3 to control their nuclear and cytoskeletal localization [30]. We have also found that EYA1 and EYA3 are capable of autodephosphorylation [30].…”

“…The interaction between two EYA3 molecules is mediated by the ED and depends on Src-induced phosphorylation [30]. However, it is still unclear how many tyrosine residues of EYA3 are phosphorylated by Src and, subsequently, autodephosphorylated.…”

“…Incubation of EYA3 WT with Src and ATP for 2 h generated molecules with only one phosphorylated residue (Figure 1c, Figure S3). However, molecules with up to three phosphorylated residues were observed after only 5 min when using a phosphatase-deficient mutant of EYA3 (EYA3 D311N) [23,27,30] (Figure S5). After 2 h, up to 12 phosphorylation sites were observed on EYA3 D311N (Figure 1b versus Figure 1d, when compared to Figure S5, the intensities of the signals corresponding to the unphosphorylated molecules decreased and those of the phosphorylated molecules increased) highlighting the importance of the ED in controlling the phosphorylation status of EYA3.…”

“…Despite the large number of reports implicating EYA proteins in pathological conditions, limited information is available regarding their substrates. So far, three physiological substrates for EYA's PTP activity have been identified: histone H2A.X (phosphotyrosine-pY-142) [27,28], estrogen receptor β (pY36) [29], which both have nuclear localization, and WD repeat-containing protein 1 (WDR1), which is a cytoskeletal protein [30].…”

Analysis of EYA3 Phosphorylation by Src Kinase Identifies Residues Involved in Cell Proliferation

“…Recently, we have demonstrated that c-Src phosphorylates tyrosine residues of human EYA1 and EYA3 to control their nuclear and cytoskeletal localization [30]. We have also found that EYA1 and EYA3 are capable of autodephosphorylation [30]. These data indicate a potential implication of EYA tyrosine phosphorylation and autodephosphorylation in regulating physiological processes and contributing to pathological conditions.…”

“…For example, c-Src activation has been reported to generate more than 50% of tumors in liver, colon, breast, lung, and pancreas [35]. Recently, we have demonstrated that c-Src phosphorylates tyrosine residues of human EYA1 and EYA3 to control their nuclear and cytoskeletal localization [30]. We have also found that EYA1 and EYA3 are capable of autodephosphorylation [30].…”

“…The interaction between two EYA3 molecules is mediated by the ED and depends on Src-induced phosphorylation [30]. However, it is still unclear how many tyrosine residues of EYA3 are phosphorylated by Src and, subsequently, autodephosphorylated.…”

“…Incubation of EYA3 WT with Src and ATP for 2 h generated molecules with only one phosphorylated residue (Figure 1c, Figure S3). However, molecules with up to three phosphorylated residues were observed after only 5 min when using a phosphatase-deficient mutant of EYA3 (EYA3 D311N) [23,27,30] (Figure S5). After 2 h, up to 12 phosphorylation sites were observed on EYA3 D311N (Figure 1b versus Figure 1d, when compared to Figure S5, the intensities of the signals corresponding to the unphosphorylated molecules decreased and those of the phosphorylated molecules increased) highlighting the importance of the ED in controlling the phosphorylation status of EYA3.…”

“…Despite the large number of reports implicating EYA proteins in pathological conditions, limited information is available regarding their substrates. So far, three physiological substrates for EYA's PTP activity have been identified: histone H2A.X (phosphotyrosine-pY-142) [27,28], estrogen receptor β (pY36) [29], which both have nuclear localization, and WD repeat-containing protein 1 (WDR1), which is a cytoskeletal protein [30].…”

Analysis of EYA3 Phosphorylation by Src Kinase Identifies Residues Involved in Cell Proliferation

Purification of Cytoskeletal Proteins by Fast Protein Liquid Chromatography (FPLC) Using an ÄKTA Start System

Do metabolic HAD phosphatases moonlight as protein phosphatases?