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11 results on '"Miller, Martin Lee"'

1. The protein kinase SIK downregulates the polarity protein Par3

Author

Vanlandewijck, Michael, Dadras, Mahsa Shahidi, Lomnytska, Marta, Mahzabin, Tanzila, Miller, Martin Lee, Busch, Christer, Brunak, Søren, Heldin, Carl-Henrik, and Moustakas, Aristidis

Abstract

The multifunctional cytokine transforming growth factor β (TGFβ) controls homeostasis and disease during embryonic and adult life. TGFβ alters epithelial cell differentiation by inducing epithelial-mesenchymal transition (EMT), which involves downregulation of several cell-cell junctional constituents. Little is understood about the mechanism of tight junction disassembly by TGFβ. We found that one of the newly identified gene targets of TGFβ, encoding the serine/threonine kinase salt-inducible kinase 1 (SIK), controls tight junction dynamics. We provide bioinformatic and biochemical evidence that SIK can potentially phosphorylate the polarity complex protein Par3, an established regulator of tight junction assembly. SIK associates with Par3, and induces degradation of Par3 that can be prevented by proteasomal and lysosomal inhibition or by mutation of Ser885, a putative phosphorylation site on Par3. Functionally, this mechanism impacts on tight junction downregulation. Furthermore, SIK contributes to the loss of epithelial polarity and examination of advanced and invasive human cancers of diverse origin displayed high levels of SIK expression and a corresponding low expression of Par3 protein. HighSIKmRNA expression also correlates with lower chance for survival in various carcinomas. In specific human breast cancer samples, aneuploidy of tumor cells best correlated with cytoplasmic SIK distribution, and SIK expression correlated with TGFβ/Smad signaling activity and low or undetectable expression of Par3. Our model suggests that SIK can act directly on the polarity protein Par3 to regulate tight junction assembly.

Published
2018

2. The SH2 domain interaction landscape

Author

Tinti, M., Kiemer, Lars, Costa, Stefano, Miller, Martin Lee, Sacco, F., Olsen, Jesper Velgaard, Carducci, M., Paoluzi, S., Langone, F., Workman, Christopher, Blom, Nikolaj, Machida, K., Thompson, C.M., Schutkowski, M., Brunak, Søren, Mann, Matthias, Mayer, B.J., Castagnoli, L., Cesareni, G., Tinti, M., Kiemer, Lars, Costa, Stefano, Miller, Martin Lee, Sacco, F., Olsen, Jesper Velgaard, Carducci, M., Paoluzi, S., Langone, F., Workman, Christopher, Blom, Nikolaj, Machida, K., Thompson, C.M., Schutkowski, M., Brunak, Søren, Mann, Matthias, Mayer, B.J., Castagnoli, L., and Cesareni, G.

Abstract

Members of the SH2 domain family modulate signal transduction by binding to short peptides containing phosphorylated tyrosines. Each domain displays a distinct preference for the sequence context of the phosphorylated residue. We have developed a high-density peptide chip technology that allows for probing of the affinity of most SH2 domains for a large fraction of the entire complement of tyrosine phosphopeptides in the human proteome. Using this technique, we have experimentally identified thousands of putative SH2-peptide interactions for more than 70 different SH2 domains. By integrating this rich data set with orthogonal context-specific information, we have assembled an SH2-mediated probabilistic interaction network, which we make available as a community resource in the PepspotDB database. A predicted dynamic interaction between the SH2 domains of the tyrosine phosphatase SHP2 and the phosphorylated tyrosine in the extracellular signal-regulated kinase activation loop was validated by experiments in living cells.

Published
2013

3. The SH2 Domain Interaction Landscape

Author

Tinti, Michele, Kiemer, Lars, Costa, Stefano, Miller, Martin Lee, Sacco, Francesca, Olsen, Jesper, Carducci, Martina, Paoluzi, Serena, Langone, Francesca, Workman, Christopher, Blom, Nikolaj, Machida, Kazuya, Thompson, Christopher M., Schutkowski, Mike, Brunak, Søren, Mann, Matthias, Mayer, Bruce J., Castagnoli, Luisa, Cesareni, Gianni, Tinti, Michele, Kiemer, Lars, Costa, Stefano, Miller, Martin Lee, Sacco, Francesca, Olsen, Jesper, Carducci, Martina, Paoluzi, Serena, Langone, Francesca, Workman, Christopher, Blom, Nikolaj, Machida, Kazuya, Thompson, Christopher M., Schutkowski, Mike, Brunak, Søren, Mann, Matthias, Mayer, Bruce J., Castagnoli, Luisa, and Cesareni, Gianni

Abstract

Cells respond to growth factors and additional external and internal molecular cues by changing their tyrosine phosphorylation profile. This in turn triggers the modulation of complexes that read and process the information. Cesareni and colleagues now help to define the code that permits recognition of phosphotyrosine residues by SH2 domains, the most abundant class of phosphotyrosine binding domains.

Published
2013

5. Meta-analysis of heterogeneous data sources for genome-scale identification of risk genes in complex phenotypes

Author

Pers, Tune Hannes, Hansen, Niclas Tue, Hansen, Kasper Lage, Koefoed, Pernille, Dworzynski, Piotr, Miller, Martin Lee, Flint, Tracey J, Mellerup, Erling, Dam, Henrik, Andreassen, Ole A, Djurovic, Srdjan, Melle, Ingrid, Børglum, Anders D, Werge, Thomas, Purcell, Shaun, Ferreira, Manuel A, Kouskoumvekaki, Irene, Workman, Christopher, Hansen, Torben, Mors, Ole, Brunak, Søren, Pers, Tune Hannes, Hansen, Niclas Tue, Hansen, Kasper Lage, Koefoed, Pernille, Dworzynski, Piotr, Miller, Martin Lee, Flint, Tracey J, Mellerup, Erling, Dam, Henrik, Andreassen, Ole A, Djurovic, Srdjan, Melle, Ingrid, Børglum, Anders D, Werge, Thomas, Purcell, Shaun, Ferreira, Manuel A, Kouskoumvekaki, Irene, Workman, Christopher, Hansen, Torben, Mors, Ole, and Brunak, Søren

Abstract

Meta-analyses of large-scale association studies typically proceed solely within one data type and do not exploit the potential complementarities in other sources of molecular evidence. Here, we present an approach to combine heterogeneous data from genome-wide association (GWA) studies, protein-protein interaction screens, disease similarity, linkage studies, and gene expression experiments into a multi-layered evidence network which is used to prioritize the entire protein-coding part of the genome identifying a shortlist of candidate genes. We report specifically results on bipolar disorder, a genetically complex disease where GWA studies have only been moderately successful. We validate one such candidate experimentally, YWHAH, by genotyping five variations in 640 patients and 1,377 controls. We found a significant allelic association for the rs1049583 polymorphism in YWHAH (adjusted P = 5.6e-3) with an odds ratio of 1.28 [1.12-1.48], which replicates a previous case-control study. In addition, we demonstrate our approach's general applicability by use of type 2 diabetes data sets. The method presented augments moderately powered GWA data, and represents a validated, flexible, and publicly available framework for identifying risk genes in highly polygenic diseases. The method is made available as a web service at www.cbs.dtu.dk/services/metaranker. Genet. Epidemiol. 2011. © 2011 Wiley-Liss, Inc.

Published
2011

6. Linear motif atlas for phosphorylation-dependent signaling

Author

Miller, Martin Lee, Jensen, Lars Juhl, Diella, Francesca, Jørgensen, Claus, Tinti, Michele, Li, Lei, Hsiung, Marilyn, Parker, Sirlester A, Bordeaux, Jennifer, Sicheritz-Ponten, Thomas, Olhovsky, Marina, Pasculescu, Adrian, Alexander, Jes, Knapp, Stefan, Blom, Nikolaj, Bork, Peer, Li, Shawn, Cesareni, Gianni, Pawson, Tony, Turk, Benjamin E, Yaffe, Michael B, Brunak, Søren, Linding, Rune, Miller, Martin Lee, Jensen, Lars Juhl, Diella, Francesca, Jørgensen, Claus, Tinti, Michele, Li, Lei, Hsiung, Marilyn, Parker, Sirlester A, Bordeaux, Jennifer, Sicheritz-Ponten, Thomas, Olhovsky, Marina, Pasculescu, Adrian, Alexander, Jes, Knapp, Stefan, Blom, Nikolaj, Bork, Peer, Li, Shawn, Cesareni, Gianni, Pawson, Tony, Turk, Benjamin E, Yaffe, Michael B, Brunak, Søren, and Linding, Rune

Abstract

Systematic and quantitative analysis of protein phosphorylation is revealing dynamic regulatory networks underlying cellular responses to environmental cues. However, matching these sites to the kinases that phosphorylate them and the phosphorylation-dependent binding domains that may subsequently bind to them remains a challenge. NetPhorest is an atlas of consensus sequence motifs that covers 179 kinases and 104 phosphorylation-dependent binding domains [Src homology 2 (SH2), phosphotyrosine binding (PTB), BRCA1 C-terminal (BRCT), WW, and 14-3-3]. The atlas reveals new aspects of signaling systems, including the observation that tyrosine kinases mutated in cancer have lower specificity than their non-oncogenic relatives. The resource is maintained by an automated pipeline, which uses phylogenetic trees to structure the currently available in vivo and in vitro data to derive probabilistic sequence models of linear motifs. The atlas is available as a community resource (http://netphorest.info).

Published
2008

7. NetPhosYeast: prediction of protein phosphorylation sites in yeast

Author

Ingrell, C.R., Miller, Martin Lee, Jensen, O.N., Blom, Nikolaj, Ingrell, C.R., Miller, Martin Lee, Jensen, O.N., and Blom, Nikolaj

Abstract

We here present a neural network-based method for the prediction of protein phosphorylation sites in yeast-an important model organism for basic research. Existing protein phosphorylation site predictors are primarily based on mammalian data and show reduced sensitivity on yeast phosphorylation sites compared to those in humans, suggesting the need for an yeast-specific phosphorylation site predictor. NetPhosYeast achieves a correlation coefficient close to 0.75 with a sensitivity of 0.84 and specificity of 0.90 and outperforms existing predictors in the identification of phosphorylation sites in yeast.

Published
2007

8. Meta-analysis of heterogeneous data sources for genome-scale identification of risk genes in complex phenotypes

Author

Pers, Tune H., primary, Hansen, Niclas Tue, additional, Lage, Kasper, additional, Koefoed, Pernille, additional, Dworzynski, Piotr, additional, Miller, Martin Lee, additional, Flint, Tracey J., additional, Mellerup, Erling, additional, Dam, Henrik, additional, Andreassen, Ole A., additional, Djurovic, Srdjan, additional, Melle, Ingrid, additional, Børglum, Anders D., additional, Werge, Thomas, additional, Purcell, Shaun, additional, Ferreira, Manuel A., additional, Kouskoumvekaki, Irene, additional, Workman, Christopher T., additional, Hansen, Torben, additional, Mors, Ole, additional, and Brunak, Søren, additional

Published
2011
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10. Linear Motif Atlas for Phosphorylation-Dependent Signaling

Author

Miller, Martin Lee, primary, Jensen, Lars Juhl, additional, Diella, Francesca, additional, Jørgensen, Claus, additional, Tinti, Michele, additional, Li, Lei, additional, Hsiung, Marilyn, additional, Parker, Sirlester A., additional, Bordeaux, Jennifer, additional, Sicheritz-Ponten, Thomas, additional, Olhovsky, Marina, additional, Pasculescu, Adrian, additional, Alexander, Jes, additional, Knapp, Stefan, additional, Blom, Nikolaj, additional, Bork, Peer, additional, Li, Shawn, additional, Cesareni, Gianni, additional, Pawson, Tony, additional, Turk, Benjamin E., additional, Yaffe, Michael B., additional, Brunak, Søren, additional, and Linding, Rune, additional

Published
2008
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