Juraj Lenčo scite author profile

SummaryIntracellular bacterial pathogens generally express chaperones such as Hsp100s during multiplication in host cells, allowing them to survive potentially hostile conditions. Francisella tularensis is a highly infectious bacterium causing the zoonotic disease tularaemia. The ability of F. tularensis to multiply and survive in macrophages is considered essential for its virulence. Although previous mutant screens in Francisella have identified the Hsp100 chaperone ClpB as important for intracellular survival, no detailed study has been performed. We demonstrate here that ClpB of F. tularensis live vaccine strain (LVS) is important for resistance to cellular stress. Promoter analysis shows that the transcriptional start is preceded by a s 32-like promoter sequence and we demonstrate that expression of clpB is induced by heat shock. This indicates that expression of clpB is dependent on the heat-shock response mediated by s 32, the only alternative s-factor present in Francisella. Our studies demonstrate that ClpB contributes to intracellular multiplication in vitro, but is not essential. However, ClpB is absolutely required for Francisella to replicate in target organs and induce disease in mice. Proteomic analysis of membrane-enriched fractions shows that five proteins are recovered at lower levels in the mutant strain. The crucial role of ClpB for in vivo persistence of Francisella may be linked to its assumed function in reactivation of aggregated proteins under in vivo stress conditions.

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Proteomic analysis of anti-Francisella tularensis LVS antibody response in murine model of tularemia

Havlasová

Hernychová

Brychta

et al. 2005

Proteomics

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Francisella tularensis live vaccine strain infection of mice has been established as an experimental model of tularemia that is suitable for studies of immune mechanisms against the intracellular pathogen. In this study, the model was used to explore immunogenic repertoire of F. tularensis with the aim of identifying new molecules able to activate the host immune system, potential bacterial markers with vaccine, and diagnostic applications. Immunoproteomic approach based on the combination of two-dimensional gel electrophoresis, immunoblotting, and mass spectrometry was applied. Globally, 36 different proteins were identified, which strongly reacted with sera from experimentally infected mice, including several putative virulence markers of intracellular pathogens as nucleoside diphosphate kinase, isocitrate dehydrogenase, RNA-binding protein Hfq, and molecular chaperone ClpB. Of them, 27 proteins are described for the first time as immunorelevant Francisella proteins. When comparing murine immunoproteome of F. tularensis with our previous data from human patients, 25 of the total of 50 identified murine sera immunoreactive spots were recognized by human sera collected from patients suffering from tularemia, as well. Immune sera from two Lps gene congenic strains of mice, C3H/HeN (Lpsn) and C3H/HeJ (Lpsd), represented murine immunoproteome in this study. The spectrum of immunoreactive spots detected by two-dimensional immunoblotting varied throughout the course of infection depending on murine strain. Nevertheless, the antibody patterns of the two strains showed significant homogeneity in being directed against almost identical subset of antigens.

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Conventional-Flow Liquid Chromatography–Mass Spectrometry for Exploratory Bottom-Up Proteomic Analyses

et al. 2018

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Due to its sensitivity and productivity, bottom-up proteomics based on liquid chromatography−mass spectrometry (LC−MS) has become the core approach in the field. The de facto standard LC−MS platform for proteomics operates at sub-μL/min flow rates, and nanospray is required for efficiently introducing peptides into a mass spectrometer. Although this is almost a "dogma", this view is being reconsidered in light of developments in highly efficient chromatographic columns, and especially with the introduction of exceptionally sensitive MS instruments. Although conventional-flow LC−MS platforms have recently penetrated targeted proteomics successfully, their possibilities in discovery-oriented proteomics have not yet been thoroughly explored. Our objective was to determine what are the extra costs and what optimization and adjustments to a conventional-flow LC−MS system must be undertaken to identify a comparable number of proteins as can be identified on a nanoLC−MS system. We demonstrate that the amount of a complex tryptic digest needed for comparable proteome coverage can be roughly 5-fold greater, providing the column dimensions are properly chosen, extra-column peak dispersion is minimized, column temperature and flow rate are set to levels appropriate for peptide separation, and the composition of mobile phases is fine-tuned. Indeed, we identified 2 835 proteins from 2 μg of HeLa cells tryptic digest separated during a 60 min gradient at 68 μL/min on a 1.0 mm × 250 mm column held at 55 °C and using an aqua−acetonitrile mobile phases containing 0.1% formic acid, 0.4% acetic acid, and 3% dimethyl sulfoxide. Our results document that conventional-flow LC−MS is an attractive alternative for bottom-up exploratory proteomics.

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Identification of immunoreactive antigens in membrane proteins enriched fraction from Francisella tularensis LVS

Janovská¹,

Pávková²,

Hubálek³

et al. 2007

Immunology Letters

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Comparative proteome analysis of cellular proteins extracted from highly virulent Francisella tularensis ssp. tularensis and less virulent F. tularensis ssp. holarctica and F. tularensis ssp. mediaasiatica

et al. 2004

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Francisella tularensis is the causative agent of the zoonotic disease tularemia. Four subspecies of this pathogen, namely ssp. tularensis, mediaasiatica, holarctica, and novicida are spread throughout the northern hemisphere. Although there are marked variations in their virulence to mammals, the subspecies are difficult to identify as they are closely genetically related. We carried out the comparative proteome analysis of cellular extracts from isolates representing the highly virulent subspecies tularensis, and the less virulent subspecies mediaasiatica and holarctica in order to identify new diagnostic markers and putative factors of virulence. We identified 27 protein spots that were either specifically present or at significantly higher abundance in ssp. tularensis strains, 22 proteins in ssp. mediaasiatica strains, and 26 proteins in ssp. holarctica strains. Subspecies tularensis-specific proteins might represent putative virulence factors. Of 27 identified tularensis-specific spots 17 represented charge and mass variants of proteins occurring in other subspecies, 7 spots were found to be present at higher abundance, and 3 spots were specifically present in tularensis strains. Amongst them, PilP protein, as a component necessary for the biogenesis of the type IV pilus, virulence and adhesion factor for many human pathogen, was identified. Furthermore, the identification of additional 27 proteins common for ssp. tularensis and mediaasiatica, and 19 proteins shared by ssp. mediaasiatica and holarctica documented apparent closer genetic similarity between ssp. tularensis and mediaasiatica.

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Cationic Versus Anionic Phthalocyanines for Photodynamic Therapy: What a Difference the Charge Makes

et al. 2020

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The literature reports on cationic and anionic phthalocyanines (Pcs) for photodynamic therapy suggest systematically significant differences in activity. In this work, ten different zinc(II) Pcs with carboxylate functions or quaternary nitrogens (hydrophilic anionic, hydrophilic cationic, amphiphilic anionic, and amphiphilic cationic) were investigated, with the aim of revealing reasons for such differences. In vitro assays on HeLa, MCF-7, and HCT-116 cells confirmed higher photoactivity for cationic Pcs (EC 50 ∼ 3−50 nM) than for anionic Pcs (EC 50 ∼ 0.3−10 μM), the latter being additionally significantly more active in serum-free medium. The environmental pH, binding to serum proteins, interaction with biomembranes, differences in subcellular localization, and relocalization after irradiation were found to be the main factors contributing to the generally lower photoactivity of anionic Pcs than that of the cationic derivatives. This result is not limited only to the presented derivatives and should be considered in the design of novel photosensitizers.

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Coxiella burnetiiWhole Cell Lysate Protein Identification by Mass Spectrometry and Tandem Mass Spectrometry

Škultéty

Hernychová²,

Toman

et al. 2005

Annals of the New York Academy of Sciences

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The whole cell lysate of Coxiella burnetii strain RSA 493 was separated by two-dimensional electrophoresis and more than 500 protein spots were found on silver-stained reference map. Spots from the gels were subjected to identification based on peptide mass fingerprinting (PMF). In order to identify additional proteins, tandem mass spectrometry (MS/MS) using electrospray and matrix-assisted laser desorption/ionization techniques was applied. The three independent approaches resulted in the identification of 197 open reading frames (ORFs). Fifty-two proteins were identified by PMF and at least with one of the MS/MS methods, 37 proteins with both MS/MS instruments, and 19 proteins with all three techniques applied. All predicted C. burnetii ORFs were compared with the Clusters of Orthologous Groups database. The data related to identified proteins were stored and indexed in a file that can be read and searched using Microsoft Access.

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Dissolving Peptides in 0.1% Formic Acid Brings Risk of Artificial Formylation

2020

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The ability of concentrated formic acid to formylate reactive amino acid residues is known from previous reports. In contrast, solvents containing a low concentration of formic acid are generally recognized as a safe environment for proteomic applications. The primary objective of this study was to explain the excessive formylation rate in tryptic peptides that did not come into contact with concentrated formic acid. We found out that the peptide formylation was associated with dissolving the peptides in a solvent containing mere 0.1% formic acid. Similar conclusions were drawn after analyzing publicly available proteomic data. We further demonstrated that these unwanted modifications can be averted via handling the samples at a low temperature or, obviously, via replacing formic acid in the solvent with trifluoroacetic acid. These simple countermeasures can contribute to a reduction in the part of the MS/MS spectra that remain unassigned to a peptide sequence.

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Juraj Lenčo

The heat‐shock protein ClpB of Francisella tularensis is involved in stress tolerance and is required for multiplication in target organs of infected mice

Proteomic analysis of anti-Francisella tularensis LVS antibody response in murine model of tularemia

Conventional-Flow Liquid Chromatography–Mass Spectrometry for Exploratory Bottom-Up Proteomic Analyses

Identification of immunoreactive antigens in membrane proteins enriched fraction from Francisella tularensis LVS

Comparative proteome analysis of cellular proteins extracted from highly virulent Francisella tularensis ssp. tularensis and less virulent F. tularensis ssp. holarctica and F. tularensis ssp. mediaasiatica

Cationic Versus Anionic Phthalocyanines for Photodynamic Therapy: What a Difference the Charge Makes

Coxiella burnetiiWhole Cell Lysate Protein Identification by Mass Spectrometry and Tandem Mass Spectrometry

Dissolving Peptides in 0.1% Formic Acid Brings Risk of Artificial Formylation

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