Nadja Leukert scite author profile

To identify new components that regulate the inflammatory cascade during sepsis, we characterized the functions of myeloid-related protein-8 (Mrp8, S100A8) and myeloid-related protein-14 (Mrp14, S100A9), two abundant cytoplasmic proteins of phagocytes. We now demonstrate that mice lacking Mrp8-Mrp14 complexes are protected from endotoxin-induced lethal shock and Escherichia coli-induced abdominal sepsis. Both proteins are released during activation of phagocytes, and Mrp8-Mrp14 complexes amplify the endotoxin-triggered inflammatory responses of phagocytes. Mrp8 is the active component that induces intracellular translocation of myeloid differentiation primary response protein 88 and activation of interleukin-1 receptor-associated kinase-1 and nuclear factor-kappaB, resulting in elevated expression of tumor necrosis factor-alpha (TNF-alpha). Using phagocytes expressing a nonfunctional Toll-like receptor 4 (TLR4), HEK293 cells transfected with TLR4, CD14 and MD2, and by surface plasmon resonance studies in vitro, we demonstrate that Mrp8 specifically interacts with the TLR4-MD2 complex, thus representing an endogenous ligand of TLR4. Therefore Mrp8-Mrp14 complexes are new inflammatory components that amplify phagocyte activation during sepsis upstream of TNFalpha-dependent effects.

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Biophysical characterization of S100A8 and S100A9 in the absence and presence of bivalent cations

Vogl¹,

Leukert²,

Barczyk³

et al. 2006

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

150

165

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S100A8 and S100A9 are two proinflammatory molecules belonging to the S100 family of calcium-binding proteins. Common to all S100 proteins S100A8 and S100A9 form non-covalently associated complexes which have been shown to exhibit different functional properties. Besides dimerization, recent research is focused on the importance of higher oligomeric structures of S100 proteins induced by bivalent cations. While S100A8/S100A9-heterodimers are formed in the absence of calcium, tetramerization is strictly calcium-dependent. Heterodimer formation is not a simple process and our biophysical analyses (FRET, ESI-MS) demonstrate that simply mixing both subunits is not sufficient to induce complex formation. Steps of denaturation/renaturation are necessary for the recombinant complex to show identical biophysical properties as S100A8/S100A9 obtained from granulocytes. In addition to calcium both proteins are able to bind zinc with high affinity. Here we demonstrate for the first time by different biophysical methods (MALDI-MS, ESI-MS, fluorescence spectroscopy) that zinc-binding, like calcium, induces (S100A8/S100A9)(2)-tetramers. Using mass spectrometric investigations we demonstrate that zinc triggers the formation of (S100A8/S100A9)(2)-tetramers by zinc-specific binding sites rather than by interactions with calcium-specific EF-hands. The zinc-induced tetramer is structurally very similar to the calcium-induced tetramer. Thus, like calcium, zinc acts as a regulatory factor in S100A8/S100A9-dependent signaling pathways.

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Calcium-dependent Tetramer Formation of S100A8 and S100A9 is Essential for Biological Activity

Leukert¹,

Vogl²,

Strupat³

et al. 2006

Journal of Molecular Biology

168

158

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The Transcriptional Repressor cAMP Response Element Modulator α Interacts with Histone Deacetylase 1 to Repress Promoter Activity

Tenbrock

Juang

Leukert³

et al. 2006

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Transcriptional repression is a fundamental mechanism of gene regulation. cAMP response element (CRE) modulator (CREM)α is an ubiquitously expressed transcription factor and a counterpart of the activator CREB. In T cells, CREM is responsible for the termination of the IL-2 expression by a chromatin-dependent mechanism. We demonstrate in this study that CREMα associates with histone deacetylase (HDAC)1 through its H domain, which is located between the kinase inducible and DNA binding domains. The CREMα-mediated recruitment of HDAC1 to the CRE sites of the IL-2 and c-Fos promoter causes histone deacetylation and inaccessibility to restriction enzymes and limited transcriptional activity. Importantly, the CRE sites of these promoters are crucial for the activity and binding of HDAC1. Therefore, CREMα exerts its repressor activity by a mechanism that involves recruitment of HDAC1, increased deacetylation of histones, and repression of promoter activity.

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Evidence for the Involvement of the Unique C-Tail of S100A9 in the Binding of Arachidonic Acid to the Heterocomplex S100A8/A9

Sopalla

Leukert²,

Sorg³

et al. 2002

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Protein complexes formed by S100A8 and S100A9 represent the only AA-binding capacity in the human neutrophilic cytosol and are involved in the intracellular arachidonic acid metabolism. The formation of S100A8/A9 protein complexes and the binding of calcium to the complexes are prerequisites for the specific binding of polyunsaturated fatty acids. The present study was undertaken to characterize the fatty acid binding site within the protein complex. Deletions at both termini and point mutations of different basic amino acids especially within the extended C-terminal tail of human S100A9 were introduced. The S100A9 mutant proteins were then analyzed with respect to protein-protein interaction (GST pull down-assay and yeast two-hybrid system) and functional properties (arachidonic acid and calcium binding). The data give strong evidence that the unique C-tail of S100A9 containing the three consecutive histidine residues (His103-His105) represents the region to which the fatty acid carboxy-group is bound to the protein complex. The localization of the AA-binding site within the unique C-tail of S100A9 correlates with the fact that fatty acid binding has not yet been reported for other S100 proteins.

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Nadja Leukert

Mrp8 and Mrp14 are endogenous activators of Toll-like receptor 4, promoting lethal, endotoxin-induced shock

Biophysical characterization of S100A8 and S100A9 in the absence and presence of bivalent cations

Calcium-dependent Tetramer Formation of S100A8 and S100A9 is Essential for Biological Activity

The Transcriptional Repressor cAMP Response Element Modulator α Interacts with Histone Deacetylase 1 to Repress Promoter Activity

Evidence for the Involvement of the Unique C-Tail of S100A9 in the Binding of Arachidonic Acid to the Heterocomplex S100A8/A9

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