A constraint network of interactions: protein–protein interaction analysis of the yeast type II phosphatase Ptc1p and its adaptor protein Nbp2p

Hruby, Andrea; Zapatka, Mariel; Heucke, Sebastian; Rieger, Lucia; Wu, Yehui; Nussbaumer, Ute; Timmermann, Steffi; Dünkler, Alexander; Johnsson, Nils

doi:10.1242/jcs.077065

Cited by 35 publications

(81 citation statements)

References 53 publications

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“…Remarkably, only the mutation of Mkk1, one of the MAPKKs of the CWI pathway, was able to substantially suppress all the phenotypes of the ptc1 mutant tested in the screen (Figure 1 and Figure 2), as well as additional defects attributable to the ptc1 mutation (Figure 3 and Figure 4). This finding reinforces previous evidence linking Ptc1 to the CWI pathway (Huang and Symington 1995;Gonzalez et al 2006;Hruby et al 2011;Stanger et al 2012;SacristanReviriego et al 2015) and strongly suggests that abnormal activation of the CWI pathway is at the basis of many of the defects derived from the absence of Ptc1. It must be noted that an excessive activation of the CWI pathway can be deleterious, as observed when hyperactive alleles of Pkc1 or Mkk1 are overexpressed (Watanabe et al 1995;Martin et al 2000).…”

Section: Discussionsupporting

confidence: 91%

“…As shown in Figure 5B, overexpression of Ptc1 was able to reduce the strong Slt2 phosphorylation promoted by Bck1 CT . Because this version does not contain the N-terminal Nbp2-binding proline-rich motif (Hruby et al 2011), we previously confirmed that Nbp2 is not necessary for overexpressed Ptc1 to act on the CWI pathway ( Figure S2). Bck1 CT also lacks the phosphorylation sites necessary for its activation by Pkc1 (Levin et al 1994).…”

Section: Ptc1 Reduces Cwi Signaling By Acting At the Mapkk Levelmentioning

confidence: 61%

“…Cells lacking Ptc1 display higher than normal amounts of active Slt2 (Du et al 2006;Gonzalez et al 2006) and show increased expression of diverse genes (MLP1, CRH1, and SED1) regulated by the Slt2 MAPK module (Gonzalez et al 2006). More recently, Nbp2 has been described to mediate the interaction between Ptc1 and different kinases, including Bck1 (Hruby et al 2011;Stanger et al 2012). In agreement, elimination of Nbp2 results in increased sensitivity to cell-wall stressors.…”

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confidence: 79%

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Wide-Ranging Effects of the Yeast Ptc1 Protein Phosphatase Acting Through the MAPK Kinase Mkk1

et al. 2015

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The Saccharomyces cerevisiae type 2C protein phosphatase Ptc1 is required for a wide variety of cellular functions, although only a few cellular targets have been identified. A genetic screen in search of mutations in protein kinase-encoding genes able to suppress multiple phenotypic traits caused by the ptc1 deletion yielded a single gene, MKK1, coding for a MAPK kinase (MAPKK) known to activate the cell-wall integrity (CWI) Slt2 MAPK. In contrast, mutation of the MKK1 paralog, MKK2, had a less significant effect. Deletion of MKK1 abolished the increased phosphorylation of Slt2 induced by the absence of Ptc1 both under basal and CWI pathway stimulatory conditions. We demonstrate that Ptc1 acts at the level of the MAPKKs of the CWI pathway, but only the Mkk1 kinase activity is essential for ptc1 mutants to display high Slt2 activation. We also show that Ptc1 is able to dephosphorylate Mkk1 in vitro. Our results reveal the preeminent role of Mkk1 in signaling through the CWI pathway and strongly suggest that hyperactivation of Slt2 caused by upregulation of Mkk1 is at the basis of most of the phenotypic defects associated with lack of Ptc1 function.KEYWORDS synthetic genetic interactions; cell-wall integrity pathway; protein dephosphorylation; Saccharomyces cerevisiae P ROTEIN kinases play an essential role in nearly every aspect of cell physiology, and the activity of these key players is frequently modulated by phosphorylation. Therefore, protein phosphatases (PPases) are important regulators of protein kinases and cellular homeostasis. Among them, type 2C Ser/Thr PPases constitute an evolutionarily conserved group that, in contrast to other PPase families, are monomeric enzymes apparently lacking regulatory subunits. In the yeast Saccharomyces cerevisiae, seven members (Ptc1-Ptc7) have been identified and at least partially characterized [see Arino et al. (2011) for a review].Ptc1 is the closest homolog of human Wip1, a phosphatase involved in the regulation of stress-induced and DNA damage-induced networks in diverse physiologic and pathologic conditions (Le Guezennec and Bulavin 2010;Zhu and Bulavin 2012) and by far the most widely studied yeast isoform. Both the large number of characteristic phenotypes and the specific changes in the transcriptomic profile (Gonzalez et al. 2006) derived from deletion of the gene suggest that this phosphatase is involved in a large variety of cellular processes not shared by other Ptc family members. Early evidence indicated that Ptc1 was involved in the negative regulation of the high-osmolarity glycerol (HOG) pathway (Maeda et al. 1993;Maeda et al. 1994), and subsequent work demonstrated that Ptc1 could dephosphorylate the Hog1 MAPK in vitro and in vivo (Warmka et al. 2001 interacts with the N-terminal domain of Nbp2, an SH3 domaincontaining protein that serves as an adaptor for the recruitment of Ptc1 to the Pbs2-Hog1 complex, and this interaction is necessary for Ptc1 to participate in the regulation of HOGmediated signaling (Uetz et al. 2000;Ito et al. 2001;Ma...

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Section: Discussionsupporting

confidence: 91%

Section: Ptc1 Reduces Cwi Signaling By Acting At the Mapkk Levelmentioning

confidence: 61%

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confidence: 79%

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Wide-Ranging Effects of the Yeast Ptc1 Protein Phosphatase Acting Through the MAPK Kinase Mkk1

et al. 2015

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“…3A,B) (Hruby et al, 2011;Labedzka et al, 2012). Deleting 229 or 529 residues from the C-terminus of Myo1p (Myo1 1-1700 , Myo1 1-1400 ) hardly affected the interaction with Bni5p whereas a Myo1-fragment covering only the N-terminal 1100 residues displayed only very weak binding (Fig.…”

Section: Bni5p Induces Myo1p Higher-order Structuresmentioning

confidence: 97%

Septin rings act as template for myosin higher-order structures and inhibit redundant polarity establishment

Schneider

Grois

Renz

et al. 2013

Journal of Cell Science

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SummaryThe mechanisms of the coordinated assembly and disassembly of the septin/myosin ring is central for the understanding of polar growth and cytokinesis in yeast and other organisms. The septin-and myosin-binding protein Bni5p provides a dual function during the formation and disassembly of septin/myosin rings. Early in the cell cycle, Bni5p captures Myo1p at the incipient bud site and actively transforms it into higher-order structures. Additionally, Bni5p stabilizes the septin/myosin ring and is released from the septins shortly before the onset of cytokinesis. If this Bni5p dissociation from the septins is artificially prevented, ring disassembly is impaired and the untimely appearance of septin/myosin ring is induced. The prematurely formed septin/myosin rings delay the establishment of a new polarity axis and the progression into a new cell cycle. This observation suggests a negative feedback between septin/myosin ring formation and polarity establishment that might help to guarantee the singular assembly of this structure and the synchronization of its formation with the cell cycle.

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“…Analysis of the ptc1⌬ mutant using DNA microarrays showed no significant effects on expression of glucoseregulated genes (21,22). Ptc1 binds to the adaptor protein Nbp2, which mediates its association with multiple protein kinases, but SNF1 was not identified as an interaction partner (23). We here examine the effects of the ptc1⌬ mutation and Ptc1 overexpression, in combination with reg1⌬ and/or sit4⌬ mutations, on Thr-210 phosphorylation of wild-type and mutant forms of SNF1.…”

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confidence: 99%

Ptc1 Protein Phosphatase 2C Contributes to Glucose Regulation of SNF1/AMP-activated Protein Kinase (AMPK) in Saccharomyces cerevisiae

Ruiz

Carlson

2013

Journal of Biological Chemistry

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Background: SNF1/AMP-activated protein kinases (AMPKs) are central energy regulators that are inactivated by dephosphorylation of the activation loop. Results: Mutation of Ptc1 protein phosphatase 2C (PP2C) affects dephosphorylation of SNF1/AMPK in Saccharomyces cerevisiae. Conclusion: Ptc1 and Sit4 type 2A-related phosphatase contribute to glucose-regulated dephosphorylation, whereas Reg1-Glc7 PP1 plays the major role. Significance: At least three phosphatases regulate yeast SNF1/AMPK in vivo.

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A constraint network of interactions: protein–protein interaction analysis of the yeast type II phosphatase Ptc1p and its adaptor protein Nbp2p

Cited by 35 publications

References 53 publications

Wide-Ranging Effects of the Yeast Ptc1 Protein Phosphatase Acting Through the MAPK Kinase Mkk1

Wide-Ranging Effects of the Yeast Ptc1 Protein Phosphatase Acting Through the MAPK Kinase Mkk1

Septin rings act as template for myosin higher-order structures and inhibit redundant polarity establishment

Ptc1 Protein Phosphatase 2C Contributes to Glucose Regulation of SNF1/AMP-activated Protein Kinase (AMPK) in Saccharomyces cerevisiae

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