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ABSTRACT: Interactions between proteins are central to any cellular process, and mapping these into a protein network is informative both for the function of individual proteins and the functional organization of the cell as a whole. Many strategies have been developed that are up to this task, and the last 10 years have seen the high-throughput application of a number of those in large-scale, sometimes proteome-wide, interactome mapping efforts. Although initially the quality of the data produced in these screening campaigns has been questioned, quality standards and empirical validation schemes are now in place to ensure high-quality data generation. Through their integration with other 'omics' data, interactomics datasets have proven highly valuable towards applications in different areas of clinical importance.
Expert Review of Proteomics 10/2010; 7(5):679-90. · 3.68 Impact Factor
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ABSTRACT: Proteins of the SOCS (suppressors of cytokine signalling) family are characterized by a conserved modular structure with pre-SH2 (Src homology 2), SH2 and SOCS-box domains. Several members, including CIS (cytokine-inducible SH2 protein), SOCS1 and SOCS3, are induced rapidly upon cytokine receptor activation and function in a negative-feedback loop, attenuating signalling at the receptor level. We used a recently developed mammalian two-hybrid system [MAPPIT (mammalian protein-protein interaction trap)] to analyse SOCS protein-interaction patterns in intact cells, allowing direct comparison with biological function. We find that, besides the SH2 domain, the C-terminal part of the CIS SOCS-box is required for functional interaction with the cytokine receptor motifs examined, but not with the N-terminal death domain of the TLR (Toll-like receptor) adaptor MyD88. Mutagenesis revealed that one single tyrosine residue at position 253 is a critical binding determinant. In contrast, substrate binding by the highly related SOCS2 protein, and also by SOCS1 and SOCS3, does not require their SOCS-box.
Biochemical Journal 02/2007; 401(1):257-67. · 4.90 Impact Factor
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ABSTRACT: Hypothalamic leptin receptor signalling plays a central role in weight regulation by controlling fat storage and energy expenditure. In addition, leptin also has direct effects on peripheral cell types involved in regulation of diverse body functions including immune response, bone formation and reproduction. Previous studies have demonstrated the important role of SOCS3 (suppressor of cytokine signalling 3) in leptin physiology. Here, we show that CIS (cytokine-inducible SH2 protein) and SOCS2 can also interact with the leptin receptor. Using MAPPIT (mammalian protein-protein interaction trap), a cytokine receptor-based two-hybrid method operating in intact cells, we show specific binding of CIS with the conserved Y985 and Y1077 motifs in the cytosolic domain of the leptin receptor. SOCS2 only interacts with the Y1077 motif, but with higher binding affinity and can interfere with CIS and STAT5a prey recruitment at this site. Furthermore, although SOCS2 does not associate with Y985 of the leptin receptor, we find that SOCS2 can block interaction of CIS with this position. This unexpected interference can be explained by the direct binding of SOCS2 on the CIS SOCS box, whereby elongin B/C recruitment is crucial to suppress CIS activity.
Journal of Cell Science 07/2006; 119(Pt 11):2214-24. · 6.11 Impact Factor
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ABSTRACT: Reverse mammalian protein-protein interaction trap (MAPPIT) is a mammalian reverse two-hybrid technology. The method is adapted from the forward MAPPIT technique, a two-hybrid complementation system in which the interaction between a bait-fusion protein and a prey-fusion protein restores ligand-dependent cytokine receptor signaling. In the reverse mode described in detail here, a positive readout is generated on disruption of the designated protein-protein interactions. Reverse MAPPIT functions in intact human cells, facilitating simultaneous analysis of disruption, toxicity and permeability of the tested compounds, making it particularly suitable for screening for molecules that target therapeutically interesting protein-protein interactions or for mapping the interaction interface between proteins. The total handling time of a typical reverse MAPPIT experiment is approximately 9 h and is spread over 4-5 d.
Nature Protocol 02/2006; 1(1):92-7. · 8.36 Impact Factor
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ABSTRACT: Interactions between proteins are at the heart of the cellular machinery. It is therefore not surprising that altered interaction profiles caused by aberrant protein expression patterns or by the presence of mutations can trigger cellular dysfunction, eventually leading to disease. Moreover, many viral and bacterial pathogens rely on protein-protein interactions to exert their damaging effects. Interfering with such interactions is an obvious pharmaceutical goal, but detailed insights into the protein binding properties as well as efficient screening platforms are needed. In this report, we describe a cytokine receptor-based assay with a positive readout to screen for disrupters of designated protein-protein interactions in intact mammalian cells and evaluate this concept using polypeptides as well as small organic molecules. These reverse mammalian protein-protein interaction trap (MAPPIT) screens were developed to monitor interactions between the erythropoietin receptor (EpoR) and suppressors of cytokine signaling (SOCS) proteins, between FKBP12 and ALK4, and between MDM2 and p53.
Nature Methods 07/2005; 2(6):427-33. · 19.28 Impact Factor
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ABSTRACT: Signaling via the erythropoietin receptor (EpoR) depends on the interaction of several proteins with phosphorylated tyrosine-containing motifs in its cytosolic domain. Detailed mapping of these interactions is required for an accurate insight into Epo signaling. We recently developed a mammalian protein-protein interaction trap (MAPPIT), a cytokine receptor-based 2-hybrid method that operates in intact Hek293-T mammalian cells. As baits, we used intracellular segments of the EpoR containing 1 or 2 tyrosines. Several known signaling molecules, including cytokine-inducible SH2-containing protein (CIS), suppressor of cytokine signaling-2 (SOCS2), phosphatidylinositol 3'-kinase (PI3-K), phospholipase C-gamma (PLC-gamma), and signal transducer and activator of transcription 5 (STAT5) were used as prey. We also extended the MAPPIT method to enable interaction analysis with wild-type EpoR. In this relay MAPPIT approach, instead of using isolated EpoR fragments as bait, we used the full-length EpoR itself as a "receptor bait." Finally, we introduced MAPPIT in the erythroleukemic TF-1 cell line, which is a more natural setting of the EpoR. With these strategies several known interactions with the EpoR were analyzed and evidence for new interactions was obtained.
Blood 07/2005; 105(11):4264-71. · 9.90 Impact Factor
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ABSTRACT: We recently reported a two-hybrid trap for detecting protein-protein interactions in intact mammalian cells (MAPPIT). The bait protein was fused to a STAT recruitment-deficient, homodimeric cytokine receptor and the prey protein to functional STAT recruitment sites. In such a configuration, STAT-dependent responses can be used to monitor a given bait-prey interaction. Using this system, we were able to demonstrate both modification-independent and tyrosine phosphorylation- dependent interactions. Protein modification in this approach is, however, strictly dependent on the receptor-associated JAK tyrosine kinases. We have now extended this concept by using extracellular domains of the heteromeric granulocyte/macrophage colony-stimulating factor receptor (GM-CSFR). Herein, the bait was fused to the (beta)c chain and its modifying enzyme to the GM-CSFRalpha chain (or vice versa). We demonstrate several serine phosphorylation-dependent interactions in the TGFbeta/Smad pathway using the catalytic domains of the ALK4 or ALK6 serine/threonine kinase receptors. In all cases tested, STAT-dependent signaling was completely abolished when mutant baits were used wherein critical serine residues were replaced by alanines. This approach operates both in transient and stable expression systems and may not be limited to serine phosphorylation but has the potential for studying various different types of protein modification-dependent interactions in intact cells.
Nucleic Acids Research 08/2003; 31(14):e75. · 8.03 Impact Factor
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ABSTRACT: The adipocyte-derived hormone leptin signals the status of body energy stores by activating its receptor in hypothalamic nuclei. In contrast to the initial expectations, leptin treatment of human obesity was largely unsuccessful. One explanation for this is the marked leptin resistance, which likely operates in part at the receptor level. The leptin receptor is a member of the class I cytokine receptor family, which uses the Janus kinase/signal transducer and activator of transcription pathway as a major signaling route. In this review, we focus on the molecular mechanisms underlying leptin receptor activation. Different modes of leptin-induced clustering of the ectodomains and the subsequent signaling events will be discussed.
FEBS Letters 08/2003; 546(1):45-50. · 3.54 Impact Factor
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ABSTRACT: Identifying the interaction partners of a protein is a straightforward way to gain insight into the protein's function and to position it in an interaction network such as a signal transduction pathway. Various techniques have been developed to serve this purpose, and some are specifically designed to study posttranslational modifications in mammalian proteins and to clarify their normal physiological context. However, several intrinsic constraints limit the use of these technologies, and most are not suitable for screening for new interacting partners. In the Mammalian Protein-Protein Interaction Trap (MAPPIT) Protocol described here, knowledge of cytokine receptor signaling has been used to design a versatile genetic tool that can be used analytically and for detection of new protein-protein interactions in mammalian cells.
Science s STKE 01/2003; 2002(162):pl18.
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Nature Cell Biology 11/2001; 3(12):1114-1119. · 19.49 Impact Factor
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ABSTRACT: Interactions between proteins play a pivotal role in virtually all cellular processes, and many of these interactions represent interesting targets for drug development. Among the wide array of interactor-hunting technologies that has emerged, genetic two-hybrid methods account for a large amount of the currently available interaction data and is being successfully applied in interactome-scale mapping projects. Reverse two-hybrid approaches have been developed that allow selected interactions to be assayed for disrupting compounds.Section editors:Anne-Claude Gavin – EMBL, Heidelberg, GermanyAlbert Heck – Utrecht University, Utrecht, Germany
Drug Discovery Today: Technologies.
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ABSTRACT: In the post-genome era, functional annotation of the predicted gene-sets will be one of the most important upcoming challenges. So-called interactome analysis positions a protein in its subcellular environment by mapping its interaction partners. Such interaction maps are essential for an accurate insight into protein function since many cellular processes are organised to operate in protein complexes. These assemblies have dynamic structures and can interact with each other, two properties which are often controlled by regulated protein expression and modification. Various methods exist to unravel protein interaction circuitries, which can be roughly divided into biochemical and genetic strategies. In this review we focus on the different strategies to study protein-protein interactions in living mammalian cells. Recently developed analytical and screening methods are also addressed.
European cytokine network 13(3):276-84. · 1.73 Impact Factor
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ABSTRACT: The pancreatitis-associated protein (PAP)/regenerating protein (REG) family represents a complex group of small secretory proteins, which can function as acute phase reactants, lectins, antiapoptotic factors or growth factors for pancreatic beta-cells and neural cells. Transcriptional induction of rPAP/Reg genes was studied here in PC12 cells made responsive to leptin. Northern-blots showed quantitative differences in induction of four major family members by leptin and IL-6. Surprisingly, induction by leptin was strongly enhanced upon forskolin co-treatment whereas induction by IL-6 was counteracted. Functional studies involving progressive rPAP I promoter deletions showed, in the case of leptin, a clear correlation with predicted cis-regulatory elements. Leptin-induced stimulation was dependent on STAT3, since over-expression of dominant-negative STAT3, but not of dominant-negative STAT1, completely blocked transcriptional activation. In case of IL-6, an enhancer element outside the cloned promoter fragment is required for full stimulation. The effects of forskolin in a leptin and IL-6 context could not be explained at the promoter level, but rather events occurring upstream in the signalling cascade must be postulated to explain the differential co-regulatory effects.
European cytokine network 13(1):78-85. · 1.73 Impact Factor
