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I present an overview of published methods for measuring mitogen activated protein (MAP) kinase activity on endogenous associated substrates, exogenously added substrates as well as determination of activation loop phosphorylation as a read-out of kinase activity in vivo. Detailed procedures for these assays are given for two MAP kinases (MAPKs) Fus3 and Kss1 and compared with other published protocols, including the protocols for Hog1 and Mpk1 MAPKs. Measuring kinase activity in immune complex assays can serve as an approach for identification of potential substrates of protein kinases as well as for detecting other kinase-associated proteins.  相似文献   

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Deminoff SJ  Howard SC  Hester A  Warner S  Herman PK 《Genetics》2006,173(4):1909-1917
Protein kinases mediate much of the signal transduction in eukaryotic cells and defects in kinase function are associated with a variety of human diseases. To understand and correct these defects, we will need to identify the physiologically relevant substrates of these enzymes. The work presented here describes a novel approach to this identification process for the cAMP-dependent protein kinase (PKA) in Saccharomyces cerevisiae. This approach takes advantage of two catalytically inactive PKA variants, Tpk1K336A/H338A and Tpk1R324A, that exhibit a stable binding to their substrates. Most protein kinases, including the wild-type PKA, associate with substrates with a relatively low affinity. The binding observed here was specific to substrates and was dependent upon PKA residues known to be important for interactions with peptide substrates. The general utility of this approach was demonstrated by the ability to identify both previously described and novel PKA substrates in S. cerevisiae. Interestingly, the positions of the residues altered in these variants implicated a particular region within the PKA kinase domain, corresponding to subdomain XI, in the binding and/or release of protein substrates. Moreover, the high conservation of the residues altered and, in particular, the invariant nature of the R324 position suggest that this approach might be generally applicable to other protein kinases.  相似文献   

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The substrates of most protein kinases remain unknown because of the difficulty tracing signaling pathways and identifying sites of protein phosphorylation. Here we describe a method useful in detecting subclasses of protein kinase substrates. Although the method is broadly applicable to any protein kinase for which a substrate consensus motif has been identified, we illustrate here the use of antibodies broadly reactive against phosphorylated Ser/Thr-motifs typical of AGC kinase substrates. Phosphopeptide libraries with fixed residues corresponding to consensus motifs RXRXXT*/S* (Akt motif) and S*XR (protein kinase C motif) were used as antigens to generate antibodies that recognize many different phosphoproteins containing the fixed motif. Because most AGC kinase members are phosphorylated and activated by phosphoinositide-dependent protein kinase-1 (PDK1), we used PDK1-/- ES cells to profile potential AGC kinase substrates downstream of PDK1. To identify phosphoproteins detected using the Akt substrate antibody, we characterized the antibody binding specificity to generate a specificity matrix useful in predicting antibody reactivity. Using this approach we predicted and then identified a 30-kDa phosphoprotein detected by both Akt and protein kinase C substrate antibodies as S6 ribosomal protein. Phosphospecific motif antibodies offer a new approach to protein kinase substrate identification that combines immunoreactivity data with protein data base searches based upon antibody specificity.  相似文献   

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The landscape of human phosphorylation networks has not been systematically explored, representing vast, unchartered territories within cellular signaling networks. Although a large number of in vivo phosphorylated residues have been identified by mass spectrometry (MS)‐based approaches, assigning the upstream kinases to these residues requires biochemical analysis of kinase‐substrate relationships (KSRs). Here, we developed a new strategy, called CEASAR, based on functional protein microarrays and bioinformatics to experimentally identify substrates for 289 unique kinases, resulting in 3656 high‐quality KSRs. We then generated consensus phosphorylation motifs for each of the kinases and integrated this information, along with information about in vivo phosphorylation sites determined by MS, to construct a high‐resolution map of phosphorylation networks that connects 230 kinases to 2591 in vivo phosphorylation sites in 652 substrates. The value of this data set is demonstrated through the discovery of a new role for PKA downstream of Btk (Bruton's tyrosine kinase) during B‐cell receptor signaling. Overall, these studies provide global insights into kinase‐mediated signaling pathways and promise to advance our understanding of cellular signaling processes in humans.  相似文献   

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Ecto‐protein kinases phosphorylate extracellular membrane proteins and exhibit similarities to casein kinases and protein kinases A and C. However, the identification of their protein substrates still remains a challenge because a clear separation from intracellular phosphoproteins is difficult. Here, we describe a straightforward method for the identification of extracellularly phosphorylated membrane proteins in human umbilical vein endothelial cells (HUVECs) and K562 cells which used the protease bromelain to selectively remove ectoproteins from intact cells and combined this with the subsequent analysis using IMAC and LC‐MS/MS. A “false‐positive” strategy in which cells without protease treatment served as controls was applied. Using this approach we identified novel phosphorylation sites on five ectophosphoproteins (NOTCH1, otopetrin 1, regulator of G‐protein signalling 13 (RGS13), protein tyrosine phosphatase receptor type D isoform 3 (PTPRD), usherin isoform B (USH2A)). Use of bromelain appears to be a reliable technique for the further identification of phosphorylated surface‐exposed peptides when extracellular adenosine‐5'‐triphosphate is elevated during purinergic signalling.  相似文献   

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Classical mitogen-activated protein (MAP) kinases are activated by dual phosphorylation of the Thr-Xxx-Tyr motif in their activation loop, which is catalyzed by members of the MAP kinase kinase family. The atypical MAP kinases extracellular signal-regulated kinase 3 (ERK3) and ERK4 contain a single phospho-acceptor site in this segment and are not substrates of MAP kinase kinases. Previous studies have shown that ERK3 and ERK4 are phosphorylated on activation loop residue Ser-189/Ser-186, resulting in their catalytic activation. However, the identity of the protein kinase mediating this regulatory event has remained elusive. We have used an unbiased biochemical purification approach to isolate the kinase activity responsible for ERK3 Ser-189 phosphorylation. Here, we report the identification of group I p21-activated kinases (PAKs) as ERK3/ERK4 activation loop kinases. We show that group I PAKs phosphorylate ERK3 and ERK4 on Ser-189 and Ser-186, respectively, both in vitro and in vivo, and that expression of activated Rac1 augments this response. Reciprocally, silencing of PAK1/2/3 expression by RNA interference (RNAi) completely abolishes Rac1-induced Ser-189 phosphorylation of ERK3. Importantly, we demonstrate that PAK-mediated phosphorylation of ERK3/ERK4 results in their enzymatic activation and in downstream activation of MAP kinase-activated protein kinase 5 (MK5) in vivo. Our results reveal that group I PAKs act as upstream activators of ERK3 and ERK4 and unravel a novel PAK-ERK3/ERK4-MK5 signaling pathway.  相似文献   

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The lethal toxin (LeTx) of Bacillus anthracis is the major virulence factor responsible for the death of infected animals and for cytolysis of cultured macrophages. Its catalytic component, LF, contains the characteristic zinc-binding motif of metalloproteases, it binds zinc and indirect evidence suggests that this hydrolytic activity is essential for LeTx cytotoxicity ( Limpel et al . 1994 ; Kochi et al . 1994 ). To identify substrates of LF, we have used the yeast two-hybrid system, employing an LF inactive mutant as bait. This approach has led to the identification of the MAP kinase kinases (MAPKKs) Mek1 and Mek2 as proteins capable of specific interaction with LF. LF cleaves Mek1 and Mek2 within their N-terminus in vitro and in vivo , hydrolysing a Pro8-Ile9 and a Pro10-Arg11 peptide bond in Mek1 and Mek2, respectively ( Vitale et al . 1998 ), similarly to that found with a different approach by Duesbery et al . (1998) . The removal of the amino terminus of MAPKKs eliminates the 'docking site' involved in the specific interaction with MAPKs and interferes with the phospho-activation of the MAPKs ERK1 and ERK2, which become phosphorylated in cultured macrophages following toxin challenge. We are currently investigating the relevance of MAPKKs cleavage for LeTx cytotoxicity and the consequences for the activity of the MAP pathway.  相似文献   

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Most signaling networks are regulated by reversible protein phosphorylation. The specificity of this regulation depends in part on the capacity of protein kinases to recognize and efficiently phosphorylate particular sequence motifs in their substrates. Sequenced plant genomes potentially encode over than 1000 protein kinases, representing 4% of the proteins, twice the proportion found in humans. This plethora of plant kinases requires the development of high-throughput strategies to identify their substrates. In this study, we have implemented a semi-degenerate peptide array screen to define the phosphorylation preferences of four kinases from Arabidopsis thaliana that are representative of the plant calcium-dependent protein kinase and Snf1-related kinase superfamily. We converted these quantitative data into position-specific scoring matrices to identify putative substrates of these kinases in silico in protein sequence databases. Our data show that these kinases display related but nevertheless distinct phosphorylation motif preferences, suggesting that they might share common targets but are likely to have specific substrates. Our analysis also reveals that a conserved motif found in the stress-related dehydrin protein family may be targeted by the SnRK2-10 kinase. Our results indicate that semi-degenerate peptide array screening is a versatile strategy that can be used on numerous plant kinases to facilitate identification of their substrates, and therefore represents a valuable tool to decipher phosphorylation-regulated signaling networks in plants.  相似文献   

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Aurora-A, -B, and -C are members of a small family of mitotic serine/threonine kinases that regulate centrosome maturation, chromosome segregation, and cytokinesis. They are often overexpressed in different human tumor types and have been identified as attractive targets for anticancer drug development. As specific inhibitors of the Aurora kinases are entering phase I clinical trials, there is a high need for appropriate Aurora-A biomarkers to follow mechanism of action or response. To identify novel Aurora-A substrates potentially useful as specific biomarkers we applied several modifications to the original KESTREL (Kinase Substrate Tracking and Elucidation) method in conjunction with gel electrophoresis and MALDI-MS and LC-MS/MS. The major modifications to the method included the introduction of a heating step to inactivate endogenous kinases after cell lysis and the execution of the in vitro kinase reaction in the presence of 5 mM Mg(2+) and at high (1 mM) ATP concentration. Total and fractionated extracts from nocodazole-treated HeLa cells were used as a source of Aurora-A substrates. Using this approach, we were able to detect a number of Aurora-A specific phospholabeled signals and to identify vimentin as a putative Aurora-A substrate. Vimentin was then confirmed as an in vitro substrate of Aurora-A by the phosphorylation of the recombinant protein followed by MS and antibody detection.  相似文献   

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Mek1 is a Chk2/Rad53/Cds1-related protein kinase that is required for proper meiotic progression of Schizosaccharomyces pombe. However, the molecular mechanisms of Mek1 regulation and Mek1 phosphorylation targets are unclear. Here, we report that Mek1 is phosphorylated at serine-12 (S12), S14 and threonine-15 (T15) by Rad3 (ATR) and/or Tel1 (ATM) kinases that are activated by meiotic programmed double-strand breaks (DSBs). Mutations of these sites by alanine replacement caused abnormal meiotic progression and recombination rates. Phosphorylation of these sites triggers autophosphorylation of Mek1; indeed, alanine replacement mutations of Mek1-T318 and -T322 residues in the activation loop of Mek1 reduced Mek1 kinase activity and meiotic recombination rates. Substrates of Mek1 include Mus81-T275, Rdh54-T6 and Rdh54-T673. Mus81-T275 is known to regulate the Mus81 function in DNA cleavage, whereas Rdh54-T6A/T673A mutant cells showed abnormal meiotic recombination. Taken together, we conclude that the phosphorylation of Mek1 by Rad3 or Tel1, Mek1 autophosphorylation and Mus81 or Rdh54 phosphorylation by Mek1 regulate meiotic progression in S. pombe.  相似文献   

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The dual specificity phosphatase DUSP1 was the first mitogen activated protein kinase phosphatase (MKP) to be identified. It dephosphorylates conserved tyrosine and threonine residues in the activation loops of mitogen activated protein kinases ERK2, JNK1 and p38‐alpha. Here, we report the crystal structure of the human DUSP1 catalytic domain at 2.49 Å resolution. Uniquely, the protein was crystallized as an MBP fusion protein in complex with a monobody that binds to MBP. Sulfate ions occupy the phosphotyrosine and putative phosphothreonine binding sites in the DUSP1 catalytic domain.  相似文献   

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The Thioredoxin (Trx)/Thioredoxin reductase (TrxR)-system has emerged as a crucial component of many cellular functions particularly antioxidant defence. We investigated the effect of the selective TrxR inhibitor 1-chloro-2,4-dinitrobenzene (CDNB) on survival and redox status in neuronal cell lines. CDNB was found to cause apoptosis without depletion of glutathione or loss of mitochondrial complex I-activity. Cells treated with CDNB displayed an early increase of reactive oxygen species and rapid activation of stress inducible protein kinases c-Jun N-terminal kinase (JNK) and mitogen activated protein kinase kinase 4 (MKK4). Thus TrxR inhibition by CDNB results in generation of reactive oxygen species and subsequent activation of stress-inducible kinases without impairment of the cellular antioxidant status or mitochondrial function. Inhibition of the specific kinases involved in cell death triggered by Trx/TrxR dysfunction could represent a novel and selective therapeutic approach in neurodegenerative disorders.  相似文献   

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