Your search keyword '"Kracht, Michael"' showing total 24 results

1. NF-κB p65 dimerization and DNA-binding is important for inflammatory gene expression.

Author

Riedlinger T, Liefke R, Meier-Soelch J, Jurida L, Nist A, Stiewe T, Kracht M, and Schmitz ML

Subjects

Animals, Binding Sites genetics, Cell Line, Tumor, Chromatin genetics, Chromatin Assembly and Disassembly genetics, Dimerization, HeLa Cells, Humans, Mice, Protein Binding genetics, Transcription Factor AP-1 genetics, Transcription Factor RelB genetics, DNA genetics, DNA-Binding Proteins genetics, Gene Expression genetics, Inflammation genetics, Transcription Factor RelA genetics

Abstract

Increasing evidence shows that many transcription factors execute important biologic functions independent from their DNA-binding capacity. The NF-κB p65 (RELA) subunit is a central regulator of innate immunity. Here, we investigated the relative functional contribution of p65 DNA-binding and dimerization in p65-deficient human and murine cells reconstituted with single amino acid mutants preventing either DNA-binding (p65 E/I) or dimerization (p65 FL/DD). DNA-binding of p65 was required for RelB-dependent stabilization of the NF-κB p100 protein. The antiapoptotic function of p65 and expression of the majority of TNF-α-induced genes were dependent on p65's ability to bind DNA and to dimerize. Chromatin immunoprecipitation with massively parallel DNA sequencing experiments revealed that impaired DNA-binding and dimerization strongly diminish the chromatin association of p65. However, there were also p65-independent TNF-α-inducible genes and a subgroup of p65 binding sites still allowed some residual chromatin association of the mutants. These sites were enriched in activator protein 1 (AP-1) binding motifs and showed increased chromatin accessibility and basal transcription. This suggests a mechanism of assisted p65 chromatin association that can be in part facilitated by chromatin priming and cooperativity with other transcription factors such as AP-1.-Riedlinger, T., Liefke, R., Meier-Soelch, J., Jurida, L., Nist, A., Stiewe, T., Kracht, M., Schmitz, M. L. NF-κB p65 dimerization and DNA-binding is important for inflammatory gene expression.

Published

2019

2. Intravenous delivery of HIV-based lentiviral vectors preferentially transduces F4/80+ and Ly-6C+ cells in spleen, important target cells in autoimmune arthritis.

Author

van den Brand BT, Vermeij EA, Waterborg CE, Arntz OJ, Kracht M, Bennink MB, van den Berg WB, and van de Loo FA

Subjects

Animals, Antigens, Differentiation genetics, Antigens, Differentiation immunology, Antigens, Ly genetics, Antigens, Ly immunology, Arthritis, Experimental chemically induced, Arthritis, Experimental genetics, Arthritis, Experimental pathology, Autoimmunity, Collagen Type II, Cytokines biosynthesis, Cytokines immunology, Dendritic Cells pathology, Green Fluorescent Proteins, HIV genetics, Injections, Intravenous, MAP Kinase Kinase Kinases genetics, MAP Kinase Kinase Kinases immunology, Male, Mice, Mice, Inbred DBA, Spleen pathology, Synovial Fluid chemistry, T-Lymphocyte Subsets pathology, Transduction, Genetic, Transgenes, Arthritis, Experimental immunology, Dendritic Cells immunology, Gene Expression, Genetic Vectors, Spleen immunology, T-Lymphocyte Subsets immunology

Abstract

Antigen presenting cells (APCs) play an important role in arthritis and APC specific gene therapeutic targeting will enable intracellular modulation of cell activity. Viral mediated overexpression is a potent approach to achieve adequate transgene expression levels and lentivirus (LV) is useful for sustained expression in target cells. Therefore, we studied the feasibility of lentiviral mediated targeting of APCs in experimental arthritis. Third generation VSV-G pseudotyped self-inactivating (SIN)-LV were injected intravenously and spleen cells were analyzed with flow cytometry for green fluorescent protein (GFP) transgene expression and cell surface markers. Collagen-induced arthritis (CIA) was induced by immunization with bovine collagen type II in complete Freund's adjuvant. Effect on inflammation was monitored macroscopically and T-cell subsets in spleen were analyzed by flow cytometry. Synovium from arthritic knee joints were analyzed for proinflammatory cytokine expression. Lentiviruses injected via the tail vein preferentially infected the spleen and transduction peaks at day 10. A dose escalating study showed that 8% of all spleen cells were targeted and further analysis showed that predominantly Ly6C+ and F4/80+ cells in spleen were targeted by the LV. To study the feasibility of blocking TAK1-dependent pathways by this approach, a catalytically inactive mutant of TAK1 (TAK1-K63W) was overexpressed during CIA. LV-TAK1-K63W significantly reduced incidence and arthritis severity macroscopically. Further histological analysis showed a significant decrease in bone erosion in LV-TAK1-K63W treated animals. Moreover, systemic Th17 levels were decreased by LV-TAK1-K63W treatment in addition to diminished IL-6 and KC production in inflamed synovium. In conclusion, systemically delivered LV efficiently targets monocytes and macrophages in spleen that are involved in autoimmune arthritis. Moreover, this study confirms efficacy of TAK1 targeting in arthritis. This approach may provide a valuable tool in targeting splenic APCs, to unravel their role in autoimmune arthritis and to identify and validate APC specific therapeutic targets.

Published

2013

3. Small interfering RNAs generated by recombinant dicer induce inflammatory gene expression independent from the TAK1-NFkappaB-MAPK signaling pathways.

Author

Kettner-Buhrow D, Dittrich-Breiholz O, Schneider H, Wolter S, Resch K, and Kracht M

Subjects

Gene Expression Profiling, HeLa Cells, Humans, MAP Kinase Kinase Kinases metabolism, MAP Kinase Signaling System, NF-kappa B metabolism, Oligonucleotide Array Sequence Analysis, Ribonuclease III genetics, Gene Expression genetics, Inflammation Mediators metabolism, RNA, Small Interfering genetics, Ribonuclease III metabolism

Abstract

Generation of mixtures of small interfering (si) RNAs by recombinant dicer avoids selection of efficient target sites within mRNAs but little is known about off-target effects of this approach. Using recombinant human dicer we generated siRNA mixtures (dsiRNA) directed against the protein kinase TAK1 and its subunit TAB1, important upstream molecules in the pathways activated by IL-1, TNF, and toll-like receptors (TLR). dsiRNA against TAK1 or TAB1 significantly suppressed their target proteins as well as TAK1-mediated activation of NFkappaB, p38 MAPK, and JNK, and of IL-8 transcription. However, microarray analysis of 136 endogenous inflammatory genes revealed that dsiRNA against TAB1 or TAK1 did not suppress IL-1 or TNF-induced genes but rather induced a broader range of 15 inflammatory genes as well as seven known interferon-response genes. The same genes were induced by dsiRNA directed against luciferase but not by a synthetic control siRNA molecule. Hence, our results show that complex mixtures of siRNA induce an inflammatory gene response that is independent from TAK1-mediated signal transduction. In the light of the increasing usage of enzymatically prepared libraries of siRNA these results provide important insight into potential off-target effects of this approach.

Published

2006

4. Inhibition of mRNA deadenylation and degradation by different types of cell stress.

Author

Gowrishankar G, Winzen R, Dittrich-Breiholz O, Redich N, Kracht M, and Holtmann H

Subjects

Cytokines metabolism, Electrophoresis, Polyacrylamide Gel, HeLa Cells metabolism, Heat-Shock Response, Humans, Hydrogen Peroxide metabolism, Hydrogen Peroxide pharmacology, Inflammation chemically induced, Interleukin-1 metabolism, Keratinocytes metabolism, Osmolar Concentration, RNA, Messenger antagonists & inhibitors, RNA, Messenger metabolism, Temperature, Time Factors, Adenine metabolism, Gene Expression radiation effects, HeLa Cells radiation effects, Keratinocytes radiation effects, RNA, Messenger radiation effects, Ultraviolet Rays

Abstract

We have previously observed rapid and strong inhibition of mRNA deadenylation and degradation in response to UV-B light [Gowrishankar et al., Biol. Chem. 386 (2005), pp. 1287-1293]. Expression analysis using a microarray for inflammatory genes showed that UV-B light induces stabilization of all short-lived mRNAs assayed. Stabilization was observed in HeLa cells, as well as in the keratinocyte line HaCaT. It affected constitutively expressed mRNA species, as well as species induced by the inflammatory cytokine IL-1. Many of the latter encode proteins involved in inflammation, suggesting that stress-induced inhibition of mRNA deadenylation contributes to changes in inflammatory gene expression. Deadenylation and degradation of tet-off-expressed mRNAs were also inhibited upon exposure to H2O2. However, scavengers of reactive oxygen species did not interfere with UV-B-induced inhibition of degradation, arguing against the involvement of UV-induced H2O2 in these effects of UV-B light. Heat shock and hyperosmolarity also inhibited mRNA deadenylation and degradation, whereas gamma-radiation did not. Thus, inhibition of mRNA deadenylation and degradation is a cellular response elicited by several but not all inducers of cell stress.

Published

2006

5. The NF-κB-dependent and -independent transcriptome and chromatin landscapes of human coronavirus 229E-infected cells.

Author

Poppe, Michael, Wittig, Sascha, Jurida, Liane, Bartkuhn, Marek, Wilhelm, Jochen, Müller, Helmut, Beuerlein, Knut, Karl, Nadja, Bhuju, Sabin, Ziebuhr, John, Schmitz, M. Lienhard, and Kracht, Michael

Subjects

CORONAVIRUS diseases, CHROMATIN, CYTOPLASM, GENE expression, CYTOKINES, INTERLEUKIN-1, RNA polymerases

Abstract

Coronavirus replication takes place in the host cell cytoplasm and triggers inflammatory gene expression by poorly characterized mechanisms. To obtain more insight into the signals and molecular events that coordinate global host responses in the nucleus of coronavirus-infected cells, first, transcriptome dynamics was studied in human coronavirus 229E (HCoV-229E)-infected A549 and HuH7 cells, respectively, revealing a core signature of upregulated genes in these cells. Compared to treatment with the prototypical inflammatory cytokine interleukin(IL)-1, HCoV-229E replication was found to attenuate the inducible activity of the transcription factor (TF) NF-κB and to restrict the nuclear concentration of NF-κB subunits by (i) an unusual mechanism involving partial degradation of IKKβ, NEMO and IκBα and (ii) upregulation of TNFAIP3 (A20), although constitutive IKK activity and basal TNFAIP3 expression levels were shown to be required for efficient virus replication. Second, we characterized actively transcribed genomic regions and enhancers in HCoV-229E-infected cells and systematically correlated the genome-wide gene expression changes with the recruitment of Ser5-phosphorylated RNA polymerase II and prototypical histone modifications (H3K9ac, H3K36ac, H4K5ac, H3K27ac, H3K4me1). The data revealed that, in HCoV-infected (but not IL-1-treated) cells, an extensive set of genes was activated without inducible p65 NF-κB being recruited. Furthermore, both HCoV-229E replication and IL-1 were shown to upregulate a small set of genes encoding immunomodulatory factors that bind p65 at promoters and require IKKβ activity and p65 for expression. Also, HCoV-229E and IL-1 activated a common set of 440 p65-bound enhancers that differed from another 992 HCoV-229E-specific enhancer regions by distinct TF-binding motif combinations. Taken together, the study shows that cytoplasmic RNA viruses fine-tune NF-κB signaling at multiple levels and profoundly reprogram the host cellular chromatin landscape, thereby orchestrating the timely coordinated expression of genes involved in multiple signaling, immunoregulatory and metabolic processes. [ABSTRACT FROM AUTHOR]

Published

2017

6. Cyclin-Dependent Kinases as Coregulators of Inflammatory Gene Expression.

Author

Schmitz, M. Lienhard and Kracht, Michael

Subjects

*CYCLIN-dependent kinases, *GENE expression, *GENETIC transcription, *PELVIC inflammatory disease, *CYTOKINES

Abstract

Cyclin-dependent kinases (CDKs) exert a variety of functions through regulation of the cell cycle and gene expression, thus implicating them in diverse biological processes. Recent studies have deciphered the molecular mechanisms employed by nuclear CDKs to support the expression of inflammatory mediators. Induced transcription of many proinflammatory genes is increased during the G1 phase of the cell cycle in a CDK-dependent manner. This process involves the cytokine-induced recruitment of CDK6 to the nuclear chromatin fraction where it associates with transcription factors of the NF-κB, STAT, and AP-1 families. The ability of CDK6 to trigger the expression of VEGF-A and p16 INK4A and to recruit the NF-κB subunit p65 to its target sites is largely independent of its kinase function. The involvement of CDKs in proinflammatory gene expression also allows therapeutic targeting of their functions to interfere with tumor-promoting inflammation or chronic inflammatory diseases. [ABSTRACT FROM AUTHOR]

Published

2016

7. The cytokine-induced conformational switch of nuclear factor kB p65 is mediated by p65 phosphorylation.

Author

MILANOVIC, Maja, KRACHT, Michael, and SCHMITZ, M. Lienhard

Subjects

*NF-kappa B, *CYTOKINES, *MONOCLONAL antibodies, *IMMUNOPRECIPITATION, *UBIQUITINATION, *PHOSPHORYLATION, *GENE expression

Abstract

The transcription factor NF-κB (nuclear factor κB) serves to up-regulate gene expression in response to precarious signals such as the pro-inflammatory cytokines TNF (tumour necrosis factor) and IL-1 (interleukin 1). In the present study we show that stimulation of cells with TNF or IL-1 results in a profound conformational switch of the NF-κB subunit p65, as revealed by limited proteolysis assays. We also describe the identification of a conformation-specific monoclonal antibody that preferentially immunoprecipitates the inducibly refolded p65 protein. The cytokine-triggered reconfiguration of p65 mainly occurs for p65 contained in the nuclear fraction. Phosphorylations serve as the central driving force for the inducible reconfiguration of p65. Accordingly, mutation of single phosphorylation sites in the C-terminal transactivation domain led to large conformational changes which result in strongly decreased ubiquitination and also in differential protein–protein interactions. Induced conformational changes of p65 thus increase the intramolecular flexibility and therefore expand and specify the repertoire of possible protein–protein interactions. Constitutively bound chaperones of the Hsp (heat-shock protein)/Hsc70 (heat-shock cognate protein, 73 kDa) family are not important for the cytokine-induced conformational switch, but rather control the fidelity of protein rearrangement. Accordingly, pharmacological inhibition of Hsp/Hsc70 interferes with p65-triggered gene expression. [ABSTRACT FROM AUTHOR]

Published

2014

8. Regulation of TAK1/TAB1-Mediated IL-1β Signaling by Cytoplasmic PPARβ/δ.

Author

Stockert, Josefine, Wolf, Alexander, Kaddatz, Kerstin, Schnitzer, Evelyn, Finkernagel, Florian, Meissner, Wolfgang, Müller-Brüsselbach, Sabine, Kracht, Michael, and Müller, Rolf

Subjects

PEROXISOME proliferator-activated receptors, GENETIC regulation, STEROID receptors, CYTOPLASM, CELLULAR signal transduction, GENE targeting, TRANSCRIPTION factors, NF-kappa B

Abstract

The peroxisome proliferator-activated receptor subtypes PPARα, PPARβ/δ, PPARγ are members of the steroid hormone receptor superfamily with well-established functions in transcriptional regulation. Here, we describe an unexpected cytoplasmic function of PPARβ/δ. Silencing of PPARβ/δ expression interferes with the expression of a large subset of interleukin-1β (IL-1β)-induced target genes in HeLa cells, which is preceded by an inhibition of the IL-1β-induced phosphorylation of TAK1 and its downstream effectors, including the NFκBα inhibitor IκBα (NFKBIA) and the NFκBα subunit p65 (RELA). PPARβ/δ enhances the interaction between TAK1 and the small heat-shock protein HSP27, a known positive modulator of TAK1-mediated IL-1β signaling. Consistent with these findings, PPARβ/δ physically interacts with both the endogenous cytoplasmic TAK1/TAB1 complex and HSP27, and PPARβ/δ overexpression increases the TAK1-induced transcriptional activity of NFκB. These observations suggest that PPARβ/δ plays a role in the assembly of a cytoplasmic multi-protein complex containing TAK1, TAB1, HSP27 and PPARβ/δ, and thereby participates in the NFκB response to IL-1β. [ABSTRACT FROM AUTHOR]

Published

2013

9. Cyclin-Dependent Kinase 6 Phosphorylates NF-κB P65 at Serine 536 and Contributes to the Regulation of Inflammatory Gene Expression.

Author

Buss, Holger, Handschick, Katja, Jurrmann, Nadine, Pekkonen, Pirita, Beuerlein, Knut, Müller, Helmut, Wait, Robin, Saklatvala, Jeremy, Ojala, Päivi M., Lienhard Schmitz, M., Naumann, Michael, and Kracht, Michael

Subjects

CYCLIN-dependent kinases, GENE expression, NF-kappa B, CERVICAL intraepithelial neoplasia, CELL proliferation

Abstract

Nuclear factor kappa-B (NF-κB) activates multiple genes with overlapping roles in cell proliferation, inflammation and cancer. Using an unbiased approach we identified human CDK6 as a novel kinase phosphorylating NF-κB p65 at serine 536. Purified and reconstituted CDK6/cyclin complexes phosphorylated p65 in vitro and in transfected cells. The physiological role of CDK6 for basal as well as cytokine-induced p65 phosphorylation or NF-κB activation was revealed upon RNAimediated suppression of CDK6. Inhibition of CDK6 catalytic activity by PD332991 suppressed activation of NF-κB and TNFinduced gene expression. In complex with a constitutively active viral cyclin CDK6 stimulated NF-κB p65-mediated transcription in a target gene specific manner and this effect was partially dependent on its ability to phosphorylate p65 at serine 536. Tumor formation in thymi and spleens of v-cyclin transgenic mice correlated with increased levels of p65 Ser536 phosphorylation, increased expression of CDK6 and upregulaton of the NF-κB target cyclin D3. These results suggest that aberrant CDK6 expression or activation that is frequently observed in human tumors can contribute through NF-κB to chronic inflammation and neoplasia. [ABSTRACT FROM AUTHOR]

Published

2012

10. Identification and Functional Characterization of Novel Phosphorylation Sites in TAK1-Binding Protein (TAB) 1.

Author

Wolf, Alexander, Beuerlein, Knut, Eckart, Christoph, Weiser, Hendrik, Dickkopf, Beate, Müller, Helmut, Sakurai, Hiroaki, and Kracht, Michael

Subjects

CARRIER proteins, AMINO acids, TUMOR necrosis factors, GENETIC regulation, GENE expression, PHOSPHOTRANSFERASES

Abstract

TAB1 was defined as a regulatory subunit of the protein kinase TAK1, which functions upstream in the pathways activated by interleukin (IL)-1, tumor necrosis factor (TNF), toll-like receptors (TLRs) and stressors. However, TAB1 also functions in the p38 MAPK pathway downstream of TAK1. We identified amino acids (aa) 452/453 and 456/457 of TAB1 as novel sites phosphorylated by TAK1 as well as by p38 MAPK in intact cells as well as in vitro. Serines 452/453 and 456/457 were phosphorylated upon phosphatase blockade by calyculin A, or in response to IL-1 or translational stressors such as anisomycin and sorbitol. Deletion or phospho-mimetic mutations of aa 452-457 of TAB1 retain TAB1 and p38 MAPK in the cytoplasm. The TAB1 mutant lacking aa 452-457 decreases TAB1-dependent phosphorylation of p38 MAPK. It also enhances TAB1-dependent CCL5 secretion in response to IL-1 and increases activity of a post-transcriptional reporter gene, which contains the CCL5 39 untranslated region. These data suggest a complex role of aa 452-457 of TAB1 in controlling p38 MAPK activity and subcellular localization and implicate these residues in TAK1- or p38 MAPK-dependent post-transcriptional control of gene expression. [ABSTRACT FROM AUTHOR]

Published

2011

11. Inhibition of mRNA deadenylation and degradation by ultraviolet light.

Author

Gowrishankar, Gayatri, Winzen, Reinhard, Bollig, Frank, Ghebremedhin, Beniam, Redich, Natalie, Ritter, Birgit, Resch, Klaus, Kracht, Michael, and Holtmann, Helmut

Subjects

GENE expression, CELLS, ULTRAVIOLET radiation, MESSENGER RNA, HELA cells

Abstract

Post-transcriptional mechanisms contribute to the changes in gene expression induced by cell stress. The effect of UV-B light on mRNA degradation in HeLa cells was investigated using a transcriptional chase system to determine the decay kinetics of tet-off vector-derived mRNAs containing or lacking a destabilizing AU-rich element. Degradation of both mRNAs was strongly inhibited in cells exposed to UV-B light. Removal of the poly(A)-tail, considered a crucial step in mRNA degradation, was strikingly impaired. UV light also inhibited deadenylation and degradation of endogenous mRNA of the chemoattractant cytokine interleukin (IL)-8. Both effects occurred rapidly and independently of newly induced genes. Importantly, stabilization of IL-8 mRNA was accompanied by a strong increase in the duration of IL-8 protein formation. Furthermore, general inhibition of protein synthesis, a hallmark of the response to cell stress, required far higher doses of UV-B than inhibition of mRNA deadenylation and degradation. The difference in sensitivity of cells to these effects of UV-B light establishes a dose range in which mRNA stabilization can lead to dramatically enhanced expression of proteins derived from normally unstable mRNAs, such as those of inflammatory cytokines, growth factors and proto-oncogenes, and thereby have a major impact on the response to UV light. [ABSTRACT FROM AUTHOR]

Published

2005

12. Silencing or permanent activation: host-cell responses in models of persistent Chlamydia pneumoniae infection.

Author

Peters, Jan, Hess, Simone, Endlich, Katja, Thalmann, Jessica, Holzberg, David, Kracht, Michael, Schaefer, Myriam, Bartling, Gerda, and Klos, Andreas

Subjects

CHLAMYDIA infections, CHLAMYDOPHILA pneumoniae infections, ANTIBACTERIAL agents, PENICILLIN, BETA lactam antibiotics, CHRONIC diseases, GENE expression

Abstract

Chlamydia pneumoniae causes respiratory infections. In chronic diseases associated with Chlamydia, such as arteriosclerosis, C. pneumoniae is present in a persistent form, which might participate in pathogenesis of chronic inflammatory disease. To elucidate how these intracellular bacteria modulate host-cells during persistence, we compared the expression pattern of a range of host genes after short (24 h) and long (up to 7 days) times of chlamydia infection in HeLa-cells. One day post infection, in three cell-culture models of persistence, namely treatment with penicillin or IFN-γ, or iron-depletion, infection induced the genes of CTGF, IL-6, IL-8, IL-11, LIF, EGR-1 and ETV4 in a similar fashion. However, after a longer time, two modes of host-cell reaction emerged that were dependent on the persistence model used. After IFN-γ and penicillin treatment chlamydia-induced host-cell gene expression was inhibited, while it stayed upregulated in iron-depletion. Human monocytes/macrophages, in which persistence naturally occurs, were additionally investigated: for several genes, UV-inactivated and viable chlamydia caused long-lasting upregulation. Thus, this study reveals (i) the ability of C. pneumoniae to participate in two putative pathomechanisms of persistence, silencing and permanent activation, which might represent different in vivo situations and (ii) a strong dependence on the mode of persistence induction. [ABSTRACT FROM AUTHOR]

Published

2005

13. The p38 MAP kinase pathway signals for cytokine-induced mRNA stabilization via MAP kinase-activated protein kinase 2 and an AU-rich region-targeted mechanism.

Author

Winzen, Reinhard, Kracht, Michael, Ritter, Birgit, Wilhelm, Arno, Chen, Chyi-Ying A., Shyu, Ann-Binn, Müller, Monika, Gaestel, Matthias, Resch, Klaus, and Holtmann, Helmut

Subjects

*CYTOKINES, *MESSENGER RNA, *CELLULAR signal transduction, *INTERLEUKINS, *TETRACYCLINES, *GENE expression

Abstract

Stabilization of mRNAs contributes to the strong and rapid induction of genes in the inflammatory response. The signaling mechanisms involved were investigated using a tetracycline-controlled expression system to determine the half-lives of interleukin (IL)-6 and IL-8 mRNAs. Transcript stability was low in untreated HeLa cells, but increased in cells expressing a constitutively active form of the MAP kinase kinase kinase MEKK1. Destabilization and signal-induced stabilization was Transferred to the stable β-globin mRNA by a 161-nucleotide fragment of IL-8 mRNA which contains an AU-rich region, as well as by defined AU-rich elements (AREs) of the c-fos and GM-CSF mRNAs. Of the different MEKK1-activated signaling pathways, no significant effects on mRNA degradation were observed for the SAPK/JNK, extracellular regulated kinase and NF-κB pathways. Selective activation of the p38 MAP kinase (=SAPK2) pathway by MAP kinase kinase 6 induced mRNA stabilization. A dominant-negative mutant of p38 MAP kinase interfered with MEKK1 and also IL-1-induced stabilization. Furthermore, an active form of the p38 MAP kinase-activated protein kinase (MAPKAP K2 or MK2) induced mRNA stabilization, whereas a negative interfering MK2 mutant interfered with MAP kinase kinase 6-induced stabilization. These findings indicate that file p38 MAP kinase pathway contributes to cytokine/stress-induced gene expression by stabilizing mRNAs through all MK2-dependent, ARE-targeted mechanism. [ABSTRACT FROM AUTHOR]

Published

1999

14. Regulation of Transcription Factor NF-κB in Its Natural Habitat: The Nucleus.

Author

Bacher, Susanne, Meier-Soelch, Johanna, Kracht, Michael, Schmitz, M. Lienhard, Ljubimov, Alexander V., and Kaltschmidt, Barbara

Subjects

TRANSCRIPTION factors, GENE expression, CELLULAR aging, CANCER cells, HABITATS, GENE clusters

Abstract

Activation of the transcription factor NF-κB elicits an individually tailored transcriptional response in order to meet the particular requirements of specific cell types, tissues, or organs. Control of the induction kinetics, amplitude, and termination of gene expression involves multiple layers of NF-κB regulation in the nucleus. Here we discuss some recent advances in our understanding of the mutual relations between NF-κB and chromatin regulators also in the context of different levels of genome organization. Changes in the 3D folding of the genome, as they occur during senescence or in cancer cells, can causally contribute to sustained increases in NF-κB activity. We also highlight the participation of NF-κB in the formation of hierarchically organized super enhancers, which enable the coordinated expression of co-regulated sets of NF-κB target genes. The identification of mechanisms allowing the specific regulation of NF-κB target gene clusters could potentially enable targeted therapeutic interventions, allowing selective interference with subsets of the NF-κB response without a complete inactivation of this key signaling system. [ABSTRACT FROM AUTHOR]

Published

2021

15. Dynamic mRNP Remodeling in Response to Internal and External Stimuli.

Author

Zarnack, Kathi, Balasubramanian, Sureshkumar, Gantier, Michael P., Kunetsky, Vladislav, Kracht, Michael, Schmitz, M. Lienhard, and Sträßer, Katja

Subjects

GENETIC regulation, RNA-binding proteins, RIBOSOMES, GENE expression

Abstract

Signal transduction and the regulation of gene expression are fundamental processes in every cell. RNA-binding proteins (RBPs) play a key role in the post-transcriptional modulation of gene expression in response to both internal and external stimuli. However, how signaling pathways regulate the assembly of RBPs with mRNAs remains largely unknown. Here, we summarize observations showing that the formation and composition of messenger ribonucleoprotein particles (mRNPs) is dynamically remodeled in space and time by specific signaling cascades and the resulting post-translational modifications. The integration of signaling events with gene expression is key to the rapid adaptation of cells to environmental changes and stress. Only a combined approach analyzing the signal transduction pathways and the changes in post-transcriptional gene expression they cause will unravel the mechanisms coordinating these important cellular processes. [ABSTRACT FROM AUTHOR]

Published

2020

16. Chemotherapeutic Drugs Inhibiting Topoisomerase 1 Activity Impede Cytokine-Induced and NF-κB p65-Regulated Gene Expression.

Author

Riedlinger, Tabea, Bartkuhn, Marek, Zimmermann, Tobias, Hake, Sandra B., Nist, Andrea, Stiewe, Thorsten, Kracht, Michael, and Schmitz, M. Lienhard

Subjects

INFECTION risk factors, CAMPTOTHECIN, CYTOKINES, ENZYMES, GENE expression, HISTONES, INFLAMMATORY mediators, TUMOR necrosis factors, DNA-binding proteins, SEQUENCE analysis

Abstract

Inhibitors of DNA topoisomerase I (TOP1), an enzyme relieving torsional stress of DNA by generating transient single-strand breaks, are clinically used to treat ovarian, small cell lung and cervical cancer. As torsional stress is generated during transcription by progression of RNA polymerase II through the transcribed gene, we tested the effects of camptothecin and of the approved TOP1 inhibitors Topotecan and SN-38 on TNFα-induced gene expression. RNA-seq experiments showed that inhibition of TOP1 but not of TOP2 activity suppressed the vast majority of TNFα-triggered genes. The TOP1 effects were fully reversible and preferentially affected long genes. TNFα stimulation led to inducible recruitment of TOP1 to the gene body of IL8, where its inhibition by camptothecin reduced transcription elongation and also led to altered histone H3 acetylation. Together, these data show that TOP1 inhibitors potently suppress expression of proinflammatory cytokines, a feature that may contribute to the increased infection risk occurring in tumor patients treated with these agents. On the other hand, TOP1 inhibitors could also be considered as a therapeutic option in order to interfere with exaggerated cytokine expression seen in several inflammatory diseases. [ABSTRACT FROM AUTHOR]

Published

2019

17. Functional Analysis of KSRP Interaction with the AU-Rich Element of Interleukin-8 and Identification of Inflammatory mRNA Targets.

Author

Winzen, Reinhard, Thakur, Basant Kumar, Dittrich-Breiholz, Oliver, Shah, Meera, Redich, Natalie, Dhamija, Sonam, Kracht, Michael, and Holtmann, Helmut

Subjects

CARRIER proteins, INTERLEUKIN-8, MESSENGER RNA, INFLAMMATION, GENE expression, INTERLEUKIN-1

Abstract

mRNA stability is a major determinant of inflammatory gene expression. Rapid degradation of interleukin-8 (IL-8) mRNA is imposed by a bipartite AU-rich element (ARE) in the 3' untranslated region (R. Winzen et al., Mol. Cell. Biol. 24:4835-4847, 2004). Small interfering RNA-mediated knockdown of the ARE-binding protein KSRP resulted in stabilization of IL-8 mRNA or of a β-globin reporter mRNA containing the IL-8 ARE. Rapid deadenylation was impaired, indicating a crucial role for KSRP in this step of mRNA degradation. The two IL-8 ARE domains both contribute to interaction with KSRP, corresponding to the importance of both domains for rapid degradation. Exposure to the inflammatory cytokine IL-1 has been shown to stabilize IL-8 mRNA through p38 mitogen-activated protein (MAP) kinase and MK2. IL-1 treatment impaired the interaction of KSRP with the IL-8 ARE in a manner dependent on p38 MAP kinase but apparently independent of MK2. Instead, evidence that TTP, a target of MK2, can also destabilize the IL-8 ARE reporter mRNA is presented. In a comprehensive approach to identify mRNAs controlled by KSRP, two criteria were evaluated by microarray analysis of (i) association of mRNAs with KSRP in pulldown assays and (ii) increased amounts in KSRP knockdown cells. According to both criteria, a group of 100 mRNAs is controlled by KSRP, many of which are unstable and encode proteins involved in inflammation. These results indicate that KSRP functions as a limiting factor in inflammatory gene expression. [ABSTRACT FROM AUTHOR]

Published

2007

18. Identification of FOXJ1 effectors during ciliogenesis in the foetal respiratory epithelium and embryonic left-right organiser of the mouse.

Author

Stauber, Michael, Weidemann, Marina, Dittrich-Breiholz, Oliver, Lobschat, Katharina, Alten, Leonie, Mai, Michaela, Beckers, Anja, Kracht, Michael, and Gossler, Achim

Subjects

*CILIA & ciliary motion, *GENE targeting, *GENE expression, *EMBRYOLOGY, *MICROARRAY technology

Abstract

Formation of motile cilia in vertebrate embryos is essential for proper development and tissue function. Key regulators of motile ciliogenesis are the transcription factors FOXJ1 and NOTO, which are conserved throughout vertebrates. Downstream target genes of FOXJ1 have been identified in a variety of species, organs and cultured cell lines; in murine embryonic and foetal tissues, however, FOXJ1 and NOTO effectors have not been comprehensively analysed and our knowledge of the downstream genetic programme driving motile ciliogenesis in the mammalian lung and ventral node is fragmentary. We compared genome-wide expression profiles of undifferentiated E14.5 vs. abundantly ciliated E18.5 micro-dissected airway epithelia as well as Foxj1 + vs. Foxj1 -deficient foetal (E16.5) lungs of the mouse using microarray hybridisation. 326 genes deregulated in both screens are candidates for FOXJ1-dependent, ciliogenesis-associated factors at the endogenous onset of motile ciliogenesis in the lung, including 123 genes that have not been linked to ciliogenesis before; 46% of these novel factors lack known homologues outside mammals. Microarray screening of Noto + vs. Noto null early headfold embryos (E7.75) identified 59 of the lung candidates as NOTO/FOXJ1-dependent factors in the embryonic left-right organiser that carries a different subtype of motile cilia. For several uncharacterised factors from this small overlap – including 1700012B09Rik , 1700026L06Rik and Fam183b – we provide extended experimental evidence for a ciliary function. [ABSTRACT FROM AUTHOR]

Published

2017

19. Cyclin-Dependent Kinase 6 Is a Chromatin-Bound Cofactor for NF-κB-Dependent Gene Expression.

Author

Handschick, Katja, Beuerlein, Knut, Jurida, Liane, Bartkuhn, Marek, Müller, Helmut, Soelch, Johanna, Weber, Axel, Dittrich-Breiholz, Oliver, Schneider, Heike, Scharfe, Maren, Jarek, Michael, Stellzig, Julia, Schmitz, M.?Lienhard, and Kracht, Michael

Subjects

*CYCLIN-dependent kinases, *CHROMATIN, *NF-kappa B, *INFLAMMATION, *CANCER cell proliferation, *GENE expression

Abstract

Summary: Given the intimate link between inflammation and dysregulated cell proliferation in cancer, we investigated cytokine-triggered gene expression in different cell cycle stages. Transcriptome analysis revealed that G1 release through cyclin-dependent kinase 6 (CDK6) and CDK4 primes and cooperates with the cytokine-driven gene response. CDK6 physically and functionally interacts with the NF-κB subunit p65 in the nucleus and is found at promoters of many transcriptionally active NF-κB target genes. CDK6 recruitment to distinct chromatin regions of inflammatory genes was essential for proper loading of p65 to its cognate binding sites and for the function of p65 coactivators, such as TRIP6. Furthermore, cytokine-inducible nuclear translocation and chromatin association of CDK6 depends on the kinase activity of TAK1 and p38. These results have widespread biological implications, as aberrant CDK6 expression or activation that is frequently observed in human tumors modulates NF-κB to shape the cytokine and chemokine repertoires in chronic inflammation and cancer. [ABSTRACT FROM AUTHOR]

Published

2014

20. Interleukin-17 (IL-17) and IL-1 Activate Translation of Overlapping Sets of mRNAs, Including That of the Negative Regulator of Inflammation, MCPIP1.

Author

Dhamija, Sonam, Winzen, Reinhard, Doerrie, Anneke, Behrens, Gesine, Kuehne, Nancy, Schauerte, Celina, Neumann, Elena, Dittrich-Breiholz, Oliver, Kracht, Michael, and Holtmann, Helmut

Subjects

*INTERLEUKIN-17, *GENE expression, *INFLAMMATION, *RIBOSOMES, *CYTOKINES, *RNA

Abstract

Changes in gene expression during inflammation are in part caused by post-transcriptional mechanisms. A transcriptomewide screen for changes in ribosome occupancy indicated that the inflammatory cytokine IL-17 activates translation of a group ofmRNAsthat overlaps partially with those affected similarly by IL-1. Included are mRNAs of IκBζ and of MCPIP1, important regulators of the quality and course of immune and inflammatory responses. Evidence for increased ribosome association of these mRNAs was also obtained in LPS-activated RAW264.7 macrophages and human peripheral blood mononuclear cells. Like IL-1, IL-17 activated translation of IκBζ mRNAby counteracting the function of a translational silencing element in its 3'-UTR defined previously. Translational silencing of MCPIP1 mRNA in unstimulated cells resulted from the combined suppressive activities of its 5'-UTR, which contains upstream open reading frames, and of its 3'-UTR, which silences independently of the 5'-UTR. Only the silencing function of the 3'-UTR was counteracted by IL-17 as well as by IL-1. Translational silencing by the 3'-UTR was dependent on a putative stem-loop-forming region previously associated with rapid degradation of the mRNA. The results suggest that translational control exerted by IL-1 and IL-17 plays an important role in the coordination of an inflammatory reaction. [ABSTRACT FROM AUTHOR]

Published

2013

21. c-Jun N-terminal kinase phosphorylates DCP1a to control formation of P bodies.

Author

Rzeczkowski, Katharina, Beuerlein, Knut, Müller, Helmut, Dittrich-Breiholz, Oliver, Schneider, Heike, Kettner-Buhrow, Daniela, Holtmann, Helmut, and Kracht, Michael

Subjects

*CYTOKINES, *MESSENGER RNA, *GENE expression, *PHOSPHORYLATION, *GENETIC mutation

Abstract

Cytokines and stress-inducing stimuli signal through c-Jun N-terminal kinase (JNK) using a diverse and only partially defined set of downstream effectors. In this paper, the decapping complex subunit DCP1a was identified as a novel JNK target. JNK phosphorylated DCP1a at residue S315 in vivo and in vitro and coimmunoprecipitated and colocalized with DCP1a in processing bodies (P bodies). Sustained JNK activation by several different inducers led to DCP1a dispersion from P bodies, whereas IL-1 treatment transiently increased P body number. Inhibition of TAK1--JNK signaling also affected the number and size of P bodies and the localization of DCP1a, Xrn1, and Edc4. Transcriptome analysis further identified a central role for DCP1a in IL-1--induced messenger ribonucleic acid (mRNA) expression. Phosphomimetic mutation of S315 stabilized IL-8 but not IκBα mRNA, whereas overexpressed DCP1a blocked IL-8 transcription and suppressed p65 NF-κB nuclear activity. Collectively, these data reveal DCP1a as a multifunctional regulator of mRNA expression and suggest a novel mechanism controlling the subcellular localization of DCP1a in response to stress or inflammatory stimuli. [ABSTRACT FROM AUTHOR]

Published

2011

22. Simultaneous Blockade of NFκB, JNK, and p38 MAPK by a Kinase-inactive Mutant of the Protein Kinase TAK1 Sensitizes Cells to Apoptosis and Affects a Distinct Spectrum of Tumor Necrosis Target Genes.

Author

Thiefes, Axel, Wolter, Sabine, Mushinski, J. Frederic, Hoffmann, Elke, Dittrich-Breiholz, Oliver, Graue, Nadine, Dörrie, Anneke, Schneider, Heike, Wirth, Dagmar, Luckow, Bruno, Resch, Klaus, and Kracht, Michael

Subjects

*RETROVIRUS genetics, *VIRAL genetics, *TUMOR necrosis factors, *GROWTH factors, *GENE expression, *CHROMATIN, *INTERLEUKIN-1, *ACUTE phase proteins, *ANTI-inflammatory agents, *DRUG development

Abstract

The inflammatory response is characterized by the induction (or repression) of hundreds of genes. The activity of many of these genes is controlled by MAPKs and the IκB kinase-NFκB pathway. To reveal the effects of blocking these pathways simultaneously, fibroblasts were infected with retroviruses encoding TAK1K63W, an inactive mutant of the protein kinase TAK1. Expression of this protein inhibited tumor necrosis factor (TNF)-induced activation of NFκB, JNK, and p38 MAPK and sensitized the cells to TNF-induced apoptosis. 23 different microarray experiments were used to analyze the expression of >7000 genes in these cells. We identified 518 genes that were regulated by TNF in both TAK1K63W-expressing cells and control cells, 37 genes induced by TNF only when TAK1K63W was present, and 48 TNF-induced genes that were suppressed by TAK1K63W. The TNF-inducible genes that were most strongly suppressed by TAK1K63W, ccl2, ccl7, ccl5, cxcl1, cxcl5, cxcl10, saa3, and slpi also had much lower basal levels of expression, indicating that TAK1 also played a role in their normal expression. Chromatin immunoprecipitation studies on four of these genes suggested that inactivation of TAK1 activity led to direct suppression of expression at the transcriptional level because of impaired recruitment of RNA polymerase II to their promoters, ccl2 induction by TNF or interleukin-1 was also suppressed in cells that expressed TAK1 antisense RNA or that were genetically deficient in JNK1/2 or p65 NFκB. These data suggest that regulation of the expression of a selected group of inflammation-related genes is funneled through TAK1, making it a potentially useful target for more specific anti-inflammatory drug development. [ABSTRACT FROM AUTHOR]

Published

2005

23. NFkB activation by Fas is mediated through FADD, caspase-8, and RIP and is inhibited by FLIP.

Author

Kreuz, Sebastian, Siegmund, Daniela, Rumpf, Jost-Julian, Samel, Dierk, Leverkus, Martin, Janssen, Ottmar, Häcker, Georg, Dittrich-Breiholz, Oliver, Kracht, Michael, Scheurich, Peter, and Wajant, Harald

Subjects

*APOPTOSIS, *CELL death, *ENZYMES, *GENES, *GENE expression, *CELLS

Abstract

Fas (APO-1/CD95) is the prototypic death receptor, and the molecular mechanisms of Fas-induced apoptosis are comparably well understood. Here, we show that Fas activates NFκB via a pathway involving RIP, FADD, and caspase-8. Remarkably, the enzymatic activity of the latter was dispensable for Fas-induced NFκB signaling pointing to a scaffolding-related function of caspase-8 in nonapoptotic Fas signaling. NFκB was activated by overexpressed FLIP1, and FLIPS in a cell type-specific manner. However, in the context of Fas signaling both isoforms blocked FasL-induced NFκB activation. Moreover, down-regulation of both endogenous FLIP isoforms or of endogenous FLIP1 alone was sufficient to enhance FasL-induced expression of the NFκB target gene ILS. As NFκB signaling is inhibited during apoptosis, FasL-induced NFκB activation was most prominent in cells that were protected by Bc12 expression or caspase inhibitors and expressed no or minute amounts of FLIR Thus, protection against Fas-induced apoptosis in a FLIP-independent manner converted a proapoptotic Fas signal into an inflammatory NFκB-related response. [ABSTRACT FROM AUTHOR]

Published

2004

24. Cellular Gene Expression That Correlates with EBER Expression in Epstein-Barr Virus-Infected Lymphoblastoid Cell Lines.

Author

Gregorovic, Goran, Bosshard, Rachel, Karstegl, Claudio Elgueta, White, Robert E., Pattle, Samuel, Chiang, Alan K. S., Dittrich-Breiholz, Oliver, Kracht, Michael, Russ, Rainer, and Farrell, Paul J.

Subjects

*GENE expression, *LYMPHOBLASTOID cell lines, *LYMPHOCYTES, *APOPTOSIS, *EPSTEIN-Barr virus

Abstract

Novel Epstein-Barr Virus (EBV) strains with deletion of either EBER1 or EBER2 and corresponding revertant viruses were constructed and used to infect B lymphocytes to make lymphoblastoid cell lines (LCLs). The LCLs were used in microarray expression profiling to identify genes whose expression correlates with the presence of EBER1 or EBER2. Functions of regulated genes identified in the microarray analysis include membrane signaling, regulation of apoptosis, and the interferon/antiviral response. Although most emphasis has previously been given to EBER1 because it is more abundant than EBER2, the differences in cell gene expression were greater with EBER2 deletion. In this system, deletion of EBER1 or EBER2 had little effect on the EBV transformation frequency of primary B cells or the growth of the resulting LCLs. Using the recombinant viruses and novel EBER expression vectors, the nuclear redistribution of rpL22 protein by EBER1 in 293 cells was confirmed, but in LCLs almost all of the cells had a predominantly cytoplasmic expression of this ribosomal protein, which was not detectably changed by EBER1. The changes in LCL gene expression identified here will provide a basis for identifying the mechanisms of action of EBER RNAs. [ABSTRACT FROM AUTHOR]

Published

2011