Identification and validation of two peptide markers for the recognition of Clostridioides difficile MLST-1 and MLST-11 by MALDI-MS.

OBJECTIVES: Clostridioides difficile infection (CDI) has become the main cause of nosocomial infective diarrhoea. To survey and control the spread of different C. difficile strains, there is a need for suitable rapid tests. The aim of this study was to identify peptide/protein markers for the rapid recognition of C. difficile strains by matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). METHODS: We analysed 44 well-characterized strains, belonging to eight different multi-locus sequence types (MLST), using ultrahigh-resolution Fourier transform ion cyclotron resonance (FTICR) MS. The amino acid sequence of two peptide markers specific for MLST-1 and MLST-11 strains was elucidated by MALDI-TOF-MS/MS. The investigation of 2689 C. difficile genomes allowed the determination of the sensitivity and specificity of these markers. C18-solid-phased extraction was used to enrich the MLST-1 marker. RESULTS: Two peptide markers (m/z 4927.81 and m/z 5001.84) were identified and characterized for MLST-1 and MLST-11 strains, respectively. The MLST-1 marker was found in 786 genomes of which three did not belong to MLST-1. The MLST-11 marker was found in 319 genomes, of which 14 did not belong to MLST-11. Importantly, all MLST-1 and MLST-11 genomes were positive for their respective marker. Furthermore, a peptide marker (m/z 5015.86) specific for MLST-15 was found in 59 genomes. We translated our findings into a fast and simple method that allowed the unambiguous identification of the MLST-1 marker on a MALDI-TOF-MS platform. CONCLUSIONS: MALDI-FTICR MS-based peptide profiling resulted in the identification of peptide markers for C. difficile MLST-1 and MLST-11.

Direct detection of extended-spectrum beta-lactamases (CTX-M) from blood cultures by LC-MS/MS bottom-up proteomics.

Rapid bacterial species identification and antibiotic susceptibility testing in positive blood cultures have an important impact on the antibiotic treatment for patients. To identify extended-spectrum beta-lactamases (ESBL) directly in positive blood culture bottles, we developed a workflow of saponin extraction followed by a bottom-up proteomics approach using liquid chromatography coupled to tandem mass spectrometry (LC-MS/MS). The workflow was applied to positive blood cultures with Escherichia coli and Klebsiella pneumoniae collected prospectively in two academic hospitals over a 4-month period. Of 170 positive blood cultures, 22 (12.9%) contained ESBL-positive isolates based on standard susceptibility testing. Proteomic analysis identified CTX-M ESBLs in 95% of these isolates directly in positive blood cultures, whereas no false positives were found in the non-ESBL producing positive blood cultures. The results were confirmed by molecular characterisation of beta-lactamase genes. Based on this proof-of-concept study, we conclude that LC-MS/MS-based protein analysis can directly identify extended-spectrum beta lactamases in E. coli and K. pneumoniae positive blood cultures, and could be further developed for application in routine diagnostics.

High NaCl concentrations induce the nod genes of Rhizobium tropici CIAT899 in the absence of flavonoid inducers.

The nodulation (nod) genes of Rhizobium tropici CIAT899 can be induced by very low concentrations (micromolar to nanomolar range) of several flavonoid molecules secreted by the roots of leguminous plants under a number of different conditions. Some of these conditions have been investigated and appear to have a great influence on the concentration and the number of different Nod factors, which can induce root nodule primordia and pseudonodules in several leguminous plant roots. In one such condition, we added up to 300 mM NaCl to the induction medium of R. tropici CIAT899 containing the nod gene inducer apigenin. At the higher concentrations of NaCl, larger amounts and more different Nod factors were produced than in the absence of extra NaCl. To our surprise, under control conditions (300 mM NaCl without apigenin), some Nod-factor-like spots were also observed on the thin-layer plates used to detect incorporation of radiolabeled glucosamine into newly synthesized Nod factors. This phenomenon was further investigated with thin-layer plates, fusions of nod genes to the lacZ gene, high-performance liquid chromatography, mass spectrometry, and the formation of pseudonodules on bean roots. Here, we report that, in the absence of flavonoid inducers, high concentrations of NaCl induced nod genes and the production of Nod factors.

Proteomic analysis of skin irritation reveals the induction of HSP27 by sodium lauryl sulphate in human skin.

BACKGROUND: There is an increasing need for screening of mild irritants in vitro to reduce animal testing. OBJECTIVES: Proteomics were used to search for new markers of which the expression changes after mild irritation. METHODS: Sodium lauryl sulphate (SLS) was applied topically on excised human skin. Epidermal proteins were isolated from SLS-treated skin specimens that showed hardly any morphological changes. The proteins were analysed by two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) and proteins that significantly increased or decreased after SLS treatment in a dose-dependent way were characterized by mass spectrometry. Subsequently, immunohistochemistry was performed on skin samples treated with SLS in vivo and nonanoic acid (NAA) or benzalkonium chloride (BC) in vitro to evaluate one of the identified proteins for its predictive value. RESULTS: We identified seven proteins as potentially new epidermal markers for skin irritation. Among these seven proteins, the 27 kDa heat shock protein (HSP27) was identified as the most prominently upregulated protein. A strong nuclear HSP27 staining was seen in the SLS-treated skin, whereas in the vehicle controls only cytoplasmic staining was observed. Moreover, nuclear staining was also observed after topical application of SLS in vivo and after exposure to NAA and BC in vitro. CONCLUSIONS: Our findings suggest that HSP27 may serve as a sensitive marker of skin irritation and eventually as a novel tool in clinics for testing the sensitivity of the patient for a panel of irritants.

Processing of natural and recombinant CXCR3-targeting chemokines and implications for biological activity.

Chemokines comprise a class of peptides with chemotactic activity towards leukocytes. The potency of different chemokines for the same receptor often varies as a result of differences in primary structure. In addition, post-translational modifications have been shown to affect the effectiveness of chemokines. Although in several studies, natural CXCR3-targeting chemokines have been isolated, detailed information about the proteins and their possible modifications is lacking. Using a combination of liquid chromatography and mass spectrometry we studied the protein profile of CXCR3-targeting chemokines expressed by interferon-gamma-stimulated human keratinocytes. The biological implications of one of the identified modifications was studied in more detail using calcium mobilization and chemotaxis assays. We found that the primary structure of human CXCL10 is different from the generally accepted sequence. In addition we identified a C-terminally truncated CXCL10, lacking the last four amino acids. Native CXCL11 was primarily found in its intact mature form but we also found a mass corresponding to an N-terminally truncated human CXCL11, lacking the first two amino acids FP, indicating that this chemokine is a substrate for dipeptidylpeptidase IV. Interestingly, this same truncation was found when we expressed human CXCL11 in Drosophila S2 cells. The biological activity of this truncated form of CXCL11 was greatly reduced, both in calcium mobilization (using CXCR3 expressing CHO cells) as well as its chemotactic activity for CXCR3-expressing T-cells. It is concluded that detailed information on chemokines at the protein level is important to characterize the exact profile of these chemotactic peptides as modifications can severely alter their biological activity.

Two metal-binding peptides from the insect Orchesella cincta (Collembola) as a result of metallothionein cleavage.

Metallothionein (MT) is an ubiquitous heavy metal-binding protein which has been identified in animals, plants, protists, fungi and bacteria. In insects, primary structures of MTs are known only for Drosophila and the collembolan, Orchesella cincta. The MT cDNA from O. cincta encodes a 77 amino acid protein with 19 cysteines. Isolations of the protein itself have demonstrated the presence of two smaller metal-binding peptides, whose amino acid sequences correspond to parts of the cDNA, and which apparently result from cleavage of the native protein. The present study was undertaken to complete the picture of cleavage sites within the MT protein by applying protein isolation techniques in combination with mass spectrometry and N-terminal sequence analysis. Further, recombinant expression allowed us to study the intrinsic stability of the MT and to perform in vitro cleavage studies. The results show that the MT from O. cincta is specifically cleaved at two sites, both after the amino acid sequence Thr-Gln (TQ). One of these sites is located in the N-terminal region and the other in the linker region between two putative metal-binding clusters. When expressed in Escherichia coli, the recombinant O. cincta MT can be isolated in an uncleaved form; however, this protein can be cleaved in vitro by the proteolytic activity of O. cincta. In combination with other studies, the results suggest that the length of the linker region is important for the stability of MT as a two domain metal-binding protein.

Cross reactivity of three T cell attracting murine chemokines stimulating the CXC chemokine receptor CXCR3 and their induction in cultured cells and during allograft rejection.

Recent work identified the murine gene homologous to the human T cell attracting chemokine CXC receptor ligand 11 (CXCL11, also termed I-TAC, SCYB11, ss-R1, H174, IP-9). Here, the biological activity and expression patterns of murine CXCL11 relative to CXCL9 (MIG) and CXCL10 (IP-10/crg-2), the other two CXCR3 ligands, were assessed. Calcium mobilization and chemotaxis experiments demonstrated that murine CXCL11 stimulated murine CXCR3 at much lower doses than murine CXCL9 or murine CXCL10. Murine CXCL11 also evoked calcium mobilization in CHO cells transfected with human CXCR3 and was chemotactic for CXCR3-expressing human T lymphocytes as well as for 300--19 pre-B cells transfected with human or murine CXCR3. Moreover, murine CXCL11 blocked the chemotactic effect of human CXCL11 on human CXCR3 transfectants. Depending on cell type (macrophage-like cells RAW264.7, J774A.1, fetal F20 and adult dermal fibroblasts, immature and mature bone marrow-derived dendritic cells) and stimulus (interferons, LPS, IL-1 beta and TNF-alpha), an up to 10,000-fold increase of CXCL9, CXCL10 and CXCL11 mRNA levels, quantified by real-time PCR, was observed. In vivo, the three chemokines are constitutively expressed in various tissues from healthy BALB/c mice and were strongly up-regulated during rejection of allogeneic heart transplants. Chemokine mRNA levels exceeded those of CXCR3 and IFN-gamma which were induced with similar kinetics by several orders of magnitude.

Metallothionein-bound cadmium in the gut of the insect Orchesella cincta (Collembola) in relation to dietary cadmium exposure.

Metallothionein is considered to be a potential biomarker for heavy metal exposure in the terrestrial environment. However, limited information is available on metallothioneins from insects, a major class of terrestrial invertebrates. In this study we have quantified metallothioneins in the springtail Orchesella cincta by determining metallothionein-bound cadmium after separation of these proteins using gel filtration and reversed phase chromatography from total body homogenates of animals dietary exposed to different concentrations of cadmium. Furthermore, we have studied in more detail where cadmium and metallothionein-bound cadmium is located within this animal. The concentration of metallothionein-bound cadmium increases with the exposure concentration in the same way as the total internal concentration. Both reach a plateau at an exposure concentration of approximately 1.0 micromol Cd/dry food. Cadmium is primarily located within the gut of O. cincta and isolation of metallothionein from this organ gives results identical to isolations from total bodies. Based on this results an estimation of the metallothionein level at the highest exposure concentration results in a concentration of about 115 microg metallothionein/g fresh gut. The O. cincta metallothionein gives the possibility of using this protein as a biomarker for heavy metal exposure in soil insects.

Primary structure of a cadmium-induced metallothionein from the insect Orchesella cincta (Collembola).

The induction of metallothionein was studied in the springtail Orchesella cincta (Collembola), a species of insect living in forest soils. Upon dietary exposure to Cd, two Cd-binding, cysteine-rich peptides were isolated from whole-body homogenates, using gel filtration and reversed-phase FPLC. Mass spectrometric analysis revealed that the molecular masses of these peptides were 2989 Da and 4139 Da, respectively. Amino acid sequencing of the 2989-Da peptide resulted in a sequence typical for a metallothionein. Sequencing of the 4139-Da protein was unsuccessful, probably due to N-terminal blockage. Using different PCR techniques (3' and 5' RACE) with (degenerate) primers based on the identified amino acid sequence of the 2989 Da peptide, a metallothionein cDNA was isolated. The sequence of this cDNA potentially codes for a protein of 77 amino acids. The 2989 Da peptide corresponds to the C-terminal part of this protein. The 4139-Da protein is probably encoded by the N-terminal part of this protein. These results suggest that the identified peptides are products of one gene, and that the primary gene product is subject to post-translational processing. The deduced amino acid sequence of the O. cincta metallothionein shows low sequence similarity with metallothioneins from Drosophila. The similarity between O. cincta MT and MTs of invertebrates is not higher than that between O. cincta and vertebrates.