Siwei Tang scite author profile

Inflammation is tightly regulated by nuclear factor-kappa B (NF-kappaB), and if left unchecked excessive NF-kappaB activation for cytokine overproduction can lead to various pathogenic consequences including carcinogenesis. A proinflammatory cytokine, tumor necrosis factor-alpha (TNF-alpha), can be used to explore possible mechanisms whereby unknown functional pathways modulate the NF-kappaB activity for regulating TNF-alpha-induced inflammation. Given the multifunctional nature of 14-3-3 family proteins and the recent finding of their presence in the TNF-alpha/NF-kappaB pathway network, we used a dual-tagging quantitative proteomic method to first profile the TNF-alpha-inducible interacting partners of 14-3-3 epsilon, the least characterized 14-3-3 isomer in the family. For the first time, we found that TNF-alpha stimulation enhances the interactions between 14-3-3 epsilon and some key components in the mitogen-activated protein kinase (MAPK) signal module which is located at the immediate upstream of NF-kappaB, including transforming growth factor-beta activated kinase-1 (TAK1) and its interacting protein, protein phosphatase 2C beta (PPM1B). By using confocal laser scanning, we observed the TNF-alpha-induced colocalizations among 14-3-3 epsilon, TAK1, and protein phosphatase 2C beta (PPM1B), and these interactions were also TNF-alpha-inducible in different cell types. Further, we found that during the full course of the cellular response to TNF-alpha, the interactions between 14-3-3 epsilon and these two proteins were dynamic and were closely correlated with the time course-dependent changes in NF-kappaB activity, suggesting that these 14-3-3 epsilon interactions are the critical points of convergence for TNF-alpha signaling for modulating NF-kappaB activity. We then postulated a mechanistic view describing how 14-3-3 epsilon coordinates its dynamic interactions with TAK1 and PPM1B for differentially modulating TNF-alpha-induced changes in NF-kappaB activity. By using bioinformatics tools, we constructed the network involving most of the 14-3-3 epsilon interacting proteins identified in our proteomic study. We revealed that 14-3-3 epsilon coordinates the cross talks between the MAPK signal module and other molecular pathways/biological processes primarily including protein metabolism and synthesis, DNA repair, and cell cycle regulation where pharmacological targets for therapeutic intervention could be systematically located.

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Subcellular Quantitative Proteomics Reveals Multiple Pathway Cross-Talk That Coordinates Specific Signaling and Transcriptional Regulation for the Early Host Response to LPS

Long

Yao

et al. 2010

J. Proteome Res.

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Toll-like receptor 4 (TLR4) specifically recognizes lipopolysaccharide (LPS) to initiate signal transduction events that modulate host inflammatory responses. Although increasing numbers of genes have been characterized individually for their involvement in TLR4 signaling, the LPS-induced TLR4-mediated signaling pathway and connected networks are incompletely delineated. Given that most components of signaling pathways are activated at an early phase of the LPS-induced response, we have employed a subcellular, SILAC-based quantitative proteomics approach to identify proteins in LPS-stimulated macrophages showing either cytosolic- or nuclear-specific changes in abundance. Subcellular fractionation not only reduces the spectral complexity for identifying maximum numbers of proteins but also enriches for low-abundance proteins within the compartment in which they function. Following 10 min LPS stimulation, the abundances of 508 proteins were found elevated in the cytosol, while the elevated levels of 678 proteins together with the decreased abundances of another 80 proteins were quantified in nuclei. Coincident with observations that many key proteins involved in signal relays in the MAPK and NF-kappaB cascades were found simultaneously regulated in the cytosol, various transcriptional factors (TFs) such as IRFs were found activated in the nuclei. We also extended links between these intracellular pathways and various biological processes by identifying multiple pathway modules. For the first time, our combined data sets from quantitative proteomics and bioinformatics analyses provide a direct, system-wide insight into how cross-talk between upstream signaling pathways modulates the activities of particular TFs for regulating sets of pro-inflammatory genes.

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PPE38 of Mycobacterium marinum Triggers the Cross-Talk of Multiple Pathways Involved in the Host Response, As Revealed by Subcellular Quantitative Proteomics

et al. 2013

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The PE/PPE family of proteins which are in high abundance in pathogenic species such as Mycobacterium tuberculosis and M. marinum, play the critical role in generating antigenic variation and evasion of host immune responses. However, little is known about their functional roles in mycobacterial pathogenesis. Previously, we found that PPE38 is associated with the virulence of mycobacteria, presumably by modulating the host immune response. To clarify the link between PPE38 and host response, we employed a subcellular, amino acid-coded mass tagging (AACT)/SILAC-based quantitative proteomic approach to determine the proteome changes during host response to M. marinum PPE38. As a result, 291 or 290 proteins were found respectively to be up- or down-regulated in the nucleus. Meanwhile, 576 upregulated and 272 downregulated proteins were respectively detected in the cytosol. The data of quantitative proteomic changes and concurrent biological validations revealed that M. marinum PPE38 could trigger extensive inflammatory responses in macrophages, probably through interacting with toll-like receptor 2 (TLR2). We also found that PPE38 may arrest MHC-1 processing and presentation in infected macrophages. Using bioinformatics tools to analyze global changes in the host proteome, we obtained a PPE38-respondor network involved in various transcriptional factors (TFs) and TF-associated proteins. The results of our systems investigation now indicate that there is cross-talk involving a broad range of diverse biological pathways/processes that coordinate the host response to M. marinum PPE38.

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Siwei Tang

14-3-3 Epsilon Dynamically Interacts with Key Components of Mitogen-Activated Protein Kinase Signal Module for Selective Modulation of the TNF-α-Induced Time Course-Dependent NF-κB Activity

Subcellular Quantitative Proteomics Reveals Multiple Pathway Cross-Talk That Coordinates Specific Signaling and Transcriptional Regulation for the Early Host Response to LPS

PPE38 of Mycobacterium marinum Triggers the Cross-Talk of Multiple Pathways Involved in the Host Response, As Revealed by Subcellular Quantitative Proteomics

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