Karen Atkins scite author profile

Staphylococcal immunoglobulin-binding protein, Sbi, is a 436-residue protein produced by many strains of Staphylococcus aureus. It was previously characterized as being cell surface-associated and having binding capacity for human IgG and ␤ 2 -glycoprotein I. Here we show using small angle x-ray scattering that the proposed extracellular region of Sbi (Sbi-E) is an elongated molecule consisting of four globular domains, two immunoglobulin-binding domains (I and II) and two novel domains (III and IV). We further show that together domains III and IV (Sbi-III-IV), as well as domain IV on its own (Sbi-IV), bind complement component C3 via contacts involving both the C3dg fragment and the C3a anaphylatoxin domain. Preincubation of human serum with either Sbi-E or Sbi-III-IV is inhibitory to all complement pathways, whereas domain IV specifically inhibits the alternative pathway. Monitoring C3 activation in serum incubated with Sbi fragments reveals that Sbi-E and Sbi-III-IV both activate the alternative pathway, leading to consumption of C3. By contrast, inhibition of this pathway by Sbi-IV does not involve C3 consumption. The observation that Sbi-E activates the alternative pathway is counterintuitive to intact Sbi being cell wall-associated, as recruiting complement to the surface of S. aureus would be deleterious to the bacterium. Upon re-examination of this issue, we found that Sbi was not associated with the cell wall fraction, but rather was found in the growth medium, consistent with it being an excreted protein. As such, our data suggest that Sbi helps mediate bacterial evasion of complement via a novel mechanism, namely futile fluid-phase consumption.

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Metabonomics uncovers a reversible proatherogenic lipid profile during infliximab therapy of inflammatory bowel disease

Bjerrum

Steenholdt

Ainsworth

et al. 2017

BMC Med

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BackgroundOne-third of inflammatory bowel disease (IBD) patients show no response to infliximab (IFX) induction therapy, and approximately half of patients responding become unresponsive over time. Thus, identification of potential treatment response biomarkers are of great clinical significance. This study employs spectroscopy-based metabolic profiling of serum from patients with IBD treated with IFX and healthy subjects (1) to substantiate the use of spectroscopy as a semi-invasive diagnostic tool, (2) to identify potential biomarkers of treatment response and (3) to characterise the metabolic changes during management of patients with tumour necrosis factor-α inhibitors.MethodsSuccessive serum samples collected during IFX induction treatment (weeks 0, 2, 6 and 14) from 87 IBD patients and 37 controls were analysed by 1H nuclear magnetic resonance (NMR) spectroscopy. Data were analysed with principal components analysis and orthogonal projection to latent structures discriminant analysis using SIMCA-P+ v12 and MATLAB.ResultsMetabolic profiles were significantly different between active ulcerative colitis and controls, active Crohn’s disease and controls, and quiescent Crohn’s disease and controls. Metabolites holding differential power belonged primarily to lipids and phospholipids with proatherogenic characteristics and metabolites in the pyruvate metabolism, suggestive of an intense inflammation-driven energy demand. IBD patients not responding to IFX were identified as a potentially distinct group based on their metabolic profile, although no applicable response biomarkers could be singled out in the current setting.Conclusion 1H NMR spectroscopy of serum samples is a powerful semi-invasive diagnostic tool in flaring IBD. With its use, we provide unique insights into the metabolic changes taking place during induction treatment with IFX. Of distinct clinical relevance is the identification of a reversible proatherogenic lipid profile in IBD patients with active disease, which partially explains the increased risk of cardiovascular disease associated with IBD.Electronic supplementary materialThe online version of this article (doi:10.1186/s12916-017-0949-7) contains supplementary material, which is available to authorized users.

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Assignment of the orphan nuclear receptor Nurr1 by NMR

et al. 2010

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The orphan nuclear receptor Nurr1 has been implicated in a number of conditions including Parkinson's disease and Schizophrenia. As such, it is of interest to study its interactions with other proteins, possibly mediated by small molecules, considering possible use as a drug target. We produced (2)H, (15)N, (13)C labelled-Nurr1 to generate the backbone amide NH, carbonyl C', C(alpha) and C(beta) assignments. About 84.0% of residues could be assigned. Most of the 37 missing assignments fall in 3 regions of the protein. Two of these surround a putative ligand-binding region of Nurr1, suggesting that this region of the protein is flexible, despite the ligand-binding pocket being filled with hydrophobic side-chains from residues surrounding the ligand binding pocket.

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Metabolic Fluxes in Cancer Metabolism

Günther

Chong

Volpari

et al. 2015

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Karen Atkins

S. aureus IgG-binding proteins SpA and Sbi: Host specificity and mechanisms of immune complex formation

Interaction of Human Complement with Sbi, a Staphylococcal Immunoglobulin-binding Protein

Metabonomics uncovers a reversible proatherogenic lipid profile during infliximab therapy of inflammatory bowel disease

Assignment of the orphan nuclear receptor Nurr1 by NMR

Metabolic Fluxes in Cancer Metabolism

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