In addition to tyrosine sites, FAK (focal adhesion kinase) is phosphorylated on multiple serine residues. In the present study, the regulation of two of these sites, Ser-722 (S1) and Ser-911 (S4), was investigated. Phosphorylation of S1 (but not S4) decreased in resuspended cells, and recovered during spreading on fibronectin, indicating adhesion-dependent regulation. GSK3 (glycogen synthase kinase 3) inhibitors decreased S1 phosphorylation, and siRNA (short interfering RNA) silencing indicated further the involvement of GSK3beta. Furthermore, GSK3beta was found to become activated during cell spreading on fibronectin, and to physically associate with FAK. S1 phosphorylation was observed to decrease in wounded cell monolayers, while GSK3beta underwent inactivation and later was observed to increase to the original level within 24 h. Direct phosphorylation of S1, requiring pre-phosphorylation of Ser-726 in the +4 position, was demonstrated using purified GSK3 and a synthetic peptide containing FAK residues 714-730. An inhibitory role for S1 phosphorylation in FAK signalling was indicated by findings that both alanine substitution for S1 and dephosphorylation of S1 by PP1 (serine/threonine protein phosphatase type-1) resulted in an increase in FAK kinase activity; likewise, this role was also shown by cell treatment with the GSK3 inhibitor LiCl. The inhibitory role was confirmed by the finding that cells expressing FAK with alanine substitution for S1 displayed improved cell spreading and faster migration in wound-healing and trans-well assays. Finally, the finding that S1 phosphorylation increased in cells treated with the PP1 inhibitor okadaic acid indicated targeting of this site by PP1. These results indicate an additional mechanism for regulation of FAK activity during cell spreading and migration, involving Ser-722 phosphorylation modulated through the competing actions of GSK3beta and PP1.
Immunofluorescence studies with protein phosphatase-1 (PP1) isoforms-specific antibodies detected PP1delta, but not alpha or gamma1, at focal adhesions. PP1delta also co-immunoprecipitated with the focal adhesion kinase (FAK) and the alphav-integrin. In the present study glutathione S-transferase (GST)-PP1delta pulled-down FAK from fibroblasts extract and the interaction domain localized between residues 159 and 295 of delta. The association was confirmed by the ability to GST-FAK-related non-kinase (FRNK) to pull-down PP1delta from fibroblasts extract. GST-FRNK also pulled-down purified muscle PP1 catalytic subunit, thus indicating direct interaction between FAK and PP1. FAK displays consensus sequences for phosphorylation by cell division cycle kinase-2-cyclin B, and might be a PP1 substrate. In fact, FAK immunoprecipitated from metabolically-labelled mitotic HeLa cells without tyrosine phosphatase inhibitors was phosphorylated on Ser only and was dephosphorylated in vitro by purified muscle PP1, with loss of phospho-Ser. No PP1 was associated with FAK immunoprecipitated from mitotic HeLa cells. However, progressively more PP1 activity was assayed in FAK-immunoprecipitates obtained from cells released from mitosis. The associated activity was maximal at 2 h from the mitotic release (when 85-90% of the cells remained round) and decreased to basal level by 8 h (when cells were all polygonal). At the same time FAK underwent dephosphorylation, which was completed by 4 h. FAK obtained from cells at 1.5 h was Ser-phosphorylated, and underwent dephosphorylation during in vitro incubation, with loss of phospho-Ser, indicating the presence of active FAK-bound phosphatase. The only FAK-associated PP1 isoform between 1 and 8 h was PP1delta. The results suggest that FAK dephosphorylation by PP1delta occurs in cells released from mitosis, and confirmed the specific association of PP1delta, as detected previously in adherent cells.
Immunofluorescence studies with protein phosphatase-1 (PP1) isoforms-specific antibodies detected PP1δ, but not α or γ1, at focal adhesions. PP1δ also co-immunoprecipitated with the focal adhesion kinase (FAK) and the αv-integrin. In the present study glutathione S-transferase (GST)–PP1δ pulled-down FAK from fibroblasts extract and the interaction domain localized between residues 159 and 295 of δ. The association was confirmed by the ability to GST–FAK-related non-kinase (FRNK) to pull-down PP1δ from fibroblasts extract. GST–FRNK also pulled-down purified muscle PP1 catalytic subunit, thus indicating direct interaction between FAK and PP1. FAK displays consensus sequences for phosphorylation by cell division cycle kinase-2–cyclin B, and might be a PP1 substrate. In fact, FAK immunoprecipitated from metabolically-labelled mitotic HeLa cells without tyrosine phosphatase inhibitors was phosphorylated on Ser only and was dephosphorylated in vitro by purified muscle PP1, with loss of phospho-Ser. No PP1 was associated with FAK immunoprecipitated from mitotic HeLa cells. However, progressively more PP1 activity was assayed in FAK-immunoprecipitates obtained from cells released from mitosis. The associated activity was maximal at 2h from the mitotic release (when 85–90% of the cells remained round) and decreased to basal level by 8h (when cells were all polygonal). At the same time FAK underwent dephosphorylation, which was completed by 4h. FAK obtained from cells at 1.5h was Ser-phosphorylated, and underwent dephosphorylation during in vitro incubation, with loss of phospho-Ser, indicating the presence of active FAK-bound phosphatase. The only FAK-associated PP1 isoform between 1 and 8h was PP1δ. The results suggest that FAK dephosphorylation by PP1δ occurs in cells released from mitosis, and confirmed the specific association of PP1δ, as detected previously in adherent cells.
BackgroundThe product of the retinoblastoma-susceptibility gene (pRb) is a substrate for Protein Phosphatase 1 (PP1). At mitotic exit, all three PP1 isoforms, α, γ1 and δ, bind to pRb and dephosphorylate its Ser/Thr sites in a sequential and site-specific way. The pRb-C terminal has been reported to be necessary and sufficient for PP1α binding. The present study investigated whether the three PP1 isoforms from mitotic or asynchronous HeLa cells associate differentially with wild-type and pRb mutants, as well as the holoenzyme composition of the pRb-directed PP1.ResultsThe requirement for the entire pRb molecule to achieve optimal PP1-binding was indicated by the fact that full-length pRb displayed the highest affinity for all three PP1 isoforms. Ser/Thr-to-Ala substitution for up to 14 pRb sites did not affect the ability of pRb to bind the PP1 isoforms derived from mitotic or asynchronous HeLa cells, thus suggesting that the phosphate-accepting residues on pRb do not regulate the interaction with PP1. To probe for the presence of PP1 targeting subunits in the pRb-directed PP1 complex, PP1 from mitotic or asynchronous HeLa cells was isolated by affinity chromatography on GST-Rb (either full-length or its deletion mutants Rb-big pocket or Rb-C-terminal). The PP1 was always obtained as free catalytic subunit, displaying all three isoforms, thus suggesting direct interaction between pRb and PP1. The direct association was confirmed by the ability of pRb to pull-down purified PP1 catalytic subunits and by in vitro reconstitution of a complex between PP1 catalytic subunit and the pRb-C-terminal.ConclusionThe work indicated that the full length of the pRb molecule is required for optimal interaction with the PP1 isoforms and that the association between pRb and PP1 isoforms is direct.
Protein phosphatase 1delta (PP1delta) localizes to focal adhesions and associates with the focal adhesion kinase (FAK). In the present work we used deletion mutants of PP1delta and FAK to detect their reciprocally interacting domains. Dissection of PP1delta indicated 194-260 as the shortest FAK-interacting domain among those tested. Domain 194-260 encompasses several sites involved in catalysis, indirectly confirming that FAK is a PP1 substrate. Mutation of one of these sites, R220 (R220S or R220Q), did not abolish but on the contrary increased the ability of 194-260 to pull-down FAK. Such property might be exploited to detect new potential PP1 substrates. Among the FAK deletion mutants, only the C-terminal domain (684-1053, also known as FRNK) pulled-down a significant amount of PP1. The PP1 eluted from a GST-FRNK affinity column displayed Mr of 35,000 when analyzed by gel-filtration on FPLC Superose 12, indicating the presence of an isolated PP1 catalytic subunit.
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