Your search keyword '"Matroule Jean-Yves"' showing total 13 results

1. Characteristics of the copper‐induced viable‐but‐non‐culturable state in bacteria.

Author

Maertens, Laurens, Matroule, Jean-Yves, and Van Houdt, Rob

Subjects

*DRUG resistance in bacteria, *BACTERIA, *OXIDASES

Abstract

The antimicrobial applications of copper (Cu) are exploited in several industries, such as agriculture and healthcare settings. While Cu is capable of efficiently killing microorganisms, sub-lethal doses can induce a viable-but-non-culturable (VBNC) state in bacteria of many distinct clades. VBNC cells cannot be detected by standard culture-based detection methods, and can become a threat to plants and animals as they often retain virulent traits upon resuscitation. Here we discuss the putative mechanisms of the Cu-induced VBNC state. Common observations in Cu-induced VBNC cells include a cellular response to reactive oxygen species, the exhaustion of energy reserves, and a reconfiguration of the proteome. While showing partial overlap with other VBNC state-inducing stressors, these changes seem to be part of an adaptive response to Cu toxicity. Furthermore, we argue that Cu resistance mechanisms such as P-type ATPases and multicopper oxidases may ward off entry into the VBNC state to some extent. The spread of these mechanisms across multi-species populations could increase population-level resistance to Cu antimicrobials. As Cu resistance mechanisms are often co-selected with antibiotic resistance mechanisms, this threat is exacerbated. [ABSTRACT FROM AUTHOR]

Published

2021

2. Cytokinesis Monitoring during Development: Rapid Pole-to-Pole Shuttling of a Signaling Protein by Localized Kinase and Phosphatase in Caulobacter

Author

Matroule, Jean-Yves, Lam, Hubert, Burnette, Dylan T., and Jacobs-Wagner, Christine

Subjects

*CYTOKINESIS, *PROTEINS, *PHOSPHATASES, *GENETICS, *CELLS, *MEDICAL sciences

Abstract

For successful generation of different cell types by asymmetric cell division, cell differentiation should be initiated only after completion of division. Here, we describe a control mechanism by which Caulobacter couples the initiation of a developmental program to the completion of cytokinesis. Genetic evidence indicates that localization of the signaling protein DivK at the flagellated pole prevents premature initiation of development. Photobleaching and FRET experiments show that polar localization of DivK is dynamic with rapid pole-to-pole shuttling of diffusible DivK generated by the localized activities of PleC phosphatase and DivJ kinase at opposite poles. This shuttling is interrupted upon completion of cytokinesis by the segregation of PleC and DivJ to different daughter cells, resulting in disruption of DivK localization at the flagellated pole and subsequent initiation of development in the flagellated progeny. Thus, dynamic polar localization of a diffusible protein provides a control mechanism that monitors cytokinesis to regulate development. [Copyright &y& Elsevier]

Published

2004

3. The Asymmetric Spatial Distribution of Bacterial Signal Transduction Proteins Coordinates Cell Cycle Events

Author

Lam, Hubert, Matroule, Jean-Yves, and Jacobs-Wagner, Christine

Subjects

*CELL cycle, *PROTEINS, *BIOMOLECULES, *PHOSPHORYLATION, *CHEMICAL reactions

Abstract

The polar localization of signaling proteins that are essential for Caulobacter cell cycle control is temporally regulated. Here we provide evidence that phosphorylation of the essential response regulator, DivK, is required for both its function and its cell cycle-regulated localization. The asymmetric location of the DivJ and PleC histidine kinases and their antagonistic activities on the cellular concentration of phosphorylated DivK provide positional and temporal information for the ordered sequence of DivK localization during the cell cycle. DivJ activity on DivK affects its correct localization, which, in turn, is required for PleC function. Since DivJ and PleC regulate different cell cycle events, the interconnected function of these two histidine kinases through localization of a common response regulator provides a mechanism for coordinating cell cycle progression. Study of a DivK homolog in the morphologically symmetric bacterium Sinorhizobium meliloti suggests that this type of cell cycle mechanism is widespread in prokaryotes. [Copyright &y& Elsevier]

Published

2003

4. Mechanism of colon cancer cell apoptosis mediated by pyropheophorbide-a methylester photosensitization.

Author

Matroule, Jean-Yves, Carthy, Chris M, Granville, David J, Jolois, Olivier, Hunt, David W C, and Piette, Jacques

Subjects

*CANCER cells, *APOPTOSIS, *PHOTOSENSITIZATION, *PHOTOCHEMOTHERAPY

Abstract

Pyropheophorbide-a methylester (PPME) is a second generation of photosensitizers used in photodynamic therapy (PDT). We demonstrated that PPME photosensitization triggered apoptosis of colon cancer cells as measured by using several classical parameters such as DNA laddering, PARP cleavage, caspase activation and mitochondrial release of cytochrome c. Preincubation of cells with N-acetyl cysteine (NAC) or pyrolidine dithiocarbamate (PDTC) protected against apoptosis mediated by PPME photosensitization showing that reactive oxygen species (ROS) are involved as second messengers. On the other hand, photosensitization carried out in the presence of deuterium oxide (D2O) which enhances singlet oxygen (1O2) lifetime only increases necrosis without affecting apoptosis. Since PPME was localized in the endoplasmic reticulum (ER)/Golgi system and lysosomes, other messengers than ROS were tested such as calcium, Bid, Bap31, phosphorylated Bcl-2 and caspase-12 but none was clearly identified as being involved in triggering cytochrome c release from mitochondria. On the other hand, we demonstrated that the transduction pathways leading to NF-κB activation and apoptosis were clearly independent although NF-κB was shown to counteract apoptosis mediated by PPME photosensitization. Oncogene (2001) 20, 4070–4084. [ABSTRACT FROM AUTHOR]

Published

2001

5. A cytoplasmic chemoreceptor and reactive oxygen species mediate bacterial chemotaxis to copper.

Author

Louis, Gwennaëlle, Cherry, Pauline, Michaux, Catherine, Rahuel-Clermont, Sophie, Dieu, Marc, Tilquin, Françoise, Maertens, Laurens, Van Houdt, Rob, Renard, Patricia, Perpete, Eric, and Matroule, Jean-Yves

Subjects

*REACTIVE oxygen species, *COPPER, *INDUCTIVELY coupled plasma atomic emission spectrometry, *SUPEROXIDES, *CHEMOTAXIS, *CELL physiology, *BACTERIAL physiology, *CHEMOKINE receptors

Abstract

Chemotaxis is a widespread strategy used by unicellular and multicellular living organisms to maintain their fitness in stressful environments. We previously showed that bacteria can trigger a negative chemotactic response to a copper (Cu)-rich environment. Cu ion toxicity on bacterial cell physiology has been mainly linked to mismetallation events and reactive oxygen species (ROS) production, although the precise role of Cu-generated ROS remains largely debated. Here, using inductively coupled plasma optical emission spectrometry on cell fractionates, we found that the cytoplasmic Cu ion content mirrors variations of the extracellular Cu ion concentration. ROS-sensitive fluorescent probe and biosensor allowed us to show that the increase of cytoplasmic Cu ion content triggers a dose-dependent oxidative stress, which can be abrogated by superoxide dismutase and catalase overexpression. The inhibition of ROS production in the cytoplasm not only improves bacterial growth but also impedes Cu chemotaxis, indicating that ROS derived from cytoplasmic Cu ions mediate the control of bacterial chemotaxis to Cu. We also identified the Cu chemoreceptor McpR, which binds Cu ions with low affinity, suggesting a labile interaction. In addition, we demonstrate that the cysteine 75 and histidine 99 within the McpR sensor domain are key residues in Cu chemotaxis and Cu coordination. Finally, we discovered that in vitro both Cu(I) and Cu(II) ions modulate McpR conformation in a distinct manner. Overall, our study provides mechanistic insights on a redoxbased control of Cu chemotaxis, indicating that the cellular redox status can play a key role in bacterial chemotaxis. [ABSTRACT FROM AUTHOR]

Published

2023

6. Brucella abortus Cell Cycle and Infection Are Coordinated.

Author

De Bolle, Xavier, Crosson, Sean, Matroule, Jean-Yves, and Letesson, Jean-Jacques

Subjects

*BRUCELLA abortus, *CELL cycle, *BIOLOGICAL rhythms, *MEDICAL microbiology, *CELL proliferation

Abstract

Brucellae are facultative intracellular pathogens. The recent development of methods and genetically engineered strains allowed the description of cell-cycle progression of Brucella abortus , including unipolar growth and the ordered initiation of chromosomal replication. B. abortus cell-cycle progression is coordinated with intracellular trafficking in the endosomal compartments. Bacteria are first blocked at the G1 stage, growth and chromosome replication being resumed shortly before reaching the intracellular proliferation compartment. The control mechanisms of cell cycle are similar to those reported for the bacterium Caulobacter crescentus , and they are crucial for survival in the host cell. The development of single-cell analyses could also be applied to other bacterial pathogens to investigate their cell-cycle progression during infection. [ABSTRACT FROM AUTHOR]

Published

2015

7. The Transcriptomic Landscape of Cupriavidus metallidurans CH34 Acutely Exposed to Copper.

Author

Maertens, Laurens, Leys, Natalie, Matroule, Jean-Yves, and Van Houdt, Rob

Subjects

*COPPER clusters, *MESSENGER RNA, *NON-coding RNA, *GENE clusters, *COPPER analysis, *LINCRNA

Abstract

Bacteria are increasingly used for biotechnological applications such as bioremediation, biorecovery, bioproduction, and biosensing. The development of strains suited for such applications requires a thorough understanding of their behavior, with a key role for their transcriptomic landscape. We present a thorough analysis of the transcriptome of Cupriavidus metallidurans CH34 cells acutely exposed to copper by tagRNA-sequencing. C. metallidurans CH34 is a model organism for metal resistance, and its potential as a biosensor and candidate for metal bioremediation has been demonstrated in multiple studies. Several metabolic pathways were impacted by Cu exposure, and a broad spectrum of metal resistance mechanisms, not limited to copper-specific clusters, was overexpressed. In addition, several gene clusters involved in the oxidative stress response and the cysteine-sulfur metabolism were induced. In total, 7500 transcription start sites (TSSs) were annotated and classified with respect to their location relative to coding sequences (CDSs). Predicted TSSs were used to re-annotate 182 CDSs. The TSSs of 2422 CDSs were detected, and consensus promotor logos were derived. Interestingly, many leaderless messenger RNAs (mRNAs) were found. In addition, many mRNAs were transcribed from multiple alternative TSSs. We observed pervasive intragenic TSSs both in sense and antisense to CDSs. Antisense transcripts were enriched near the 5′ end of mRNAs, indicating a functional role in post-transcriptional regulation. In total, 578 TSSs were detected in intergenic regions, of which 35 were identified as putative small regulatory RNAs. Finally, we provide a detailed analysis of the main copper resistance clusters in CH34, which include many intragenic and antisense transcripts. These results clearly highlight the ubiquity of noncoding transcripts in the CH34 transcriptome, many of which are putatively involved in the regulation of metal resistance. [ABSTRACT FROM AUTHOR]

Published

2020

8. An interdisciplinary study around the reliquary of the late cardinal Jacques de Vitry.

Author

Decorte, Ronny, Polet, Caroline, Boudin, Mathieu, Tilquin, Françoise, Matroule, Jean-Yves, Dieu, Marc, Charles, Catherine, Carlier, Aurore, Lebecque, Fiona, and Deparis, Olivier

Subjects

*CULTURAL property, *COLLAGEN, *ANIMAL species, *UNCERTAINTY

Abstract

The reliquary of Jacques de Vitry, a prominent clergyman and theologian in the early 13th century, has experienced several transfers over the last centuries, which seriously question the attribution of the remains to the late Cardinal. Uncertainty about the year of his birth poses an additional question regarding his age at death in 1240. The reliquary, located in the Saint Marie d’Oigines church, Belgium, was reopened in 2015 for an interdisciplinary study around his relics as well as the Treasure of Oignies, a remarkable cultural heritage notably built from Jacques de Vitry’s donation. Anthropological, isotopic and genetic analyses were performed independently on the remains found in the reliquary. Results of the analyses provided evidence that the likelihood that these remains are those of Jacques de Vitry is very high: the remains belong to the same human male individual and the historical tradition about his age is confirmed. In addition, a separate relic (left tibia) was analysed and found to match with the remains of the reliquary (right tibia). The unique Jacques de Vitry’s mitre, made of parchment, was sampled non-destructively and the extracted parchment collagen was analysed by a proteomic method in order to determine the animal species. The results showed that, surprisingly, not all parts of the mitre were made from the same species. All together, these findings are expected to fertilize knowledge carried by historical tradition around the relics of Jacques de Vitry and his related cultural heritage. [ABSTRACT FROM AUTHOR]

Published

2019

9. Refolding and biophysical characterization of the Caulobacter crescentus copper resistance protein, PcoB: An outer membrane protein containing an intrinsically disordered domain.

Author

Hennaux, Laurelenn, Kohchtali, Amira, Bâlon, Hugo, Matroule, Jean-Yves, Michaux, Catherine, and Perpète, Eric A.

Subjects

*CAULOBACTER crescentus, *MEMBRANE proteins, *ESCHERICHIA coli, *PROTEIN folding, *CELLULAR inclusions

Abstract

Copper cations play fundamental roles in biological systems, such as protein folding and stabilization, or enzymatic reactions. Although copper is essential to the cell, it can become cytotoxic if present in too high concentration. Organisms have therefore developed specific regulation mechanisms towards copper. This is the case of the Pco system present in the bacterium Caulobacter crescentus , which is composed of two proteins: a soluble periplasmic protein PcoA and an outer membrane protein PcoB. PcoA oxidizes Cu+ to Cu2+, whereas PcoB is thought to be an efflux pump for Cu2+. While the PcoA protein has already been studied, very little is known about the structure and function of PcoB. In the present work, PcoB has been overexpressed in high yield in E. coli strains and successfully refolded by the SDS-cosolvent method. Binding to divalent cations has also been studied using several spectroscopic techniques. In addition, a three-dimensional structure model of PcoB, experimentally supported by circular dichroism, has been constructed, showing a β-barrel conformation with a N-terminal disordered chain. This peculiar intrinsic disorder property has also been confirmed by various bioinformatic tools. [Display omitted] • The structure of PcoB is composed of a β-barrel and an unstructured chain. • PcoB has peculiar intrinsic disorder property. • The PcoB inclusion bodies are refolded by the combination of SDS and a co-solvent. • PcoB specifically binds divalent copper cations. [ABSTRACT FROM AUTHOR]

Published

2022

10. Phosphate Starvation Triggers Production and Secretion of an Extracellular Lipoprotein in Caulobacter crescentus.

Author

Le Blastier, Sophie, Hamels, Aurore, Cabeen, Matthew, Schille, Lionel, Tilquin, Françoise, Dieu, Marc, Raes, Martine, and Matroule, Jean-Yves

Subjects

*PHOSPHATES, *BONE products, *LIPOPROTEINS, *PROTEASE inhibitors, *EXTRACELLULAR enzymes, *GENOMES, *CELL membranes, *ALKALINE phosphatase, *BIOLOGICAL transport

Abstract

Life in oligotrophic environments necessitates quick adaptive responses to a sudden lack of nutrients. Secretion of specific degradative enzymes into the extracellular medium is a means to mobilize the required nutrient from nearby sources. The aquatic bacterium Caulobacter crescentus must often face changes in its environment such as phosphate limitation. Evidence reported in this paper indicates that under phosphate starvation, C. crescentus produces a membrane surface-anchored lipoprotein named ElpS subsequently released into the extracellular medium. A complete set of 12 genes encoding a type II secretion system (T2SS) is located adjacent to the elpS locus in the C. crescentus genome. Deletion of this T2SS impairs release of ElpS in the environment, which surprisingly remains present at the cell surface, indicating that the T2SS is not involved in the translocation of ElpS to the outer membrane but rather in its release. Accordingly, treatment with protease inhibitors prevents release of ElpS in the extracellular medium suggesting that ElpS secretion relies on a T2SS-secreted protease. Finally, secretion of ElpS is associated with an increase in alkaline phosphatase activity in culture supernatants, suggesting a role of the secreted protein in inorganic phosphate mobilization. In conlusion, we have shown that upon phosphate starvation, C. crescentus produces an outer membrane bound lipoprotein, ElpS, which is further cleaved and released in the extracellular medium in a T2SS-dependent manner. Our data suggest that ElpS is associated with an alkaline phosphatase activity, thereby allowing the bacterium to gather inorganic phosphates from a poor environment. [ABSTRACT FROM AUTHOR]

Published

2010

11. Overproduced Brucella abortus PdhS-mCherry forms soluble aggregates in Escherichia coli, partially associating with mobile foci of IbpA-YFP.

Author

Van der Henst, Charles, Charlier, Caroline, Deghelt, Michaël, Wouters, Johan, Matroule, Jean-Yves, Letesson, Jean-Jacques, and De Bolle, Xavier

Subjects

*BRUCELLA abortus, *ESCHERICHIA coli, *POLYPEPTIDES, *MOLECULAR chaperones, *HISTIDINE

Abstract

Background: When heterologous recombinant proteins are produced in Escherichia coli, they often precipitate to form insoluble aggregates of unfolded polypeptides called inclusion bodies. These structures are associated with chaperones like IbpA. However, there are reported cases of "non-classical" inclusion bodies in which proteins are soluble, folded and active. Results: We report that the Brucella abortus PdhS histidine kinase fused to the mCherry fluorescent protein forms intermediate aggregates resembling "non-classical" inclusion bodies when overproduced in E. coli, before forming "classical" inclusion bodies. The intermediate aggregates of PdhS-mCherry are characterized by the solubility of PdhS-mCherry, its ability to specifically recruit known partners fused to YFP, suggesting that PdhS is folded in these conditions, and the quick elimination (in less than 10 min) of these structures when bacterial cells are placed on fresh rich medium. Moreover, soluble PdhS-mCherry foci do not systematically colocalize with IpbA-YFP, a marker of inclusion bodies. Instead, time-lapse experiments show that IbpA-YFP exhibits rapid pole-to-pole shuttling, until it partially colocalizes with PdhS-mCherry aggregates. Conclusion: The data reported here suggest that, in E. coli, recombinant proteins like PdhS-mCherry may transit through a soluble and folded state, resembling previously reported "non-classical" inclusion bodies, before forming "classical" inclusion bodies. The dynamic localization of IbpA-YFP foci suggests that the IbpA chaperone could scan the E. coli cell to find its substrates. [ABSTRACT FROM AUTHOR]

Published

2010

12. Distinct transduction mechanisms of cyclooxygenase 2 gene activation in tumour cells after photodynamic therapy.

Author

Volanti, Cedric, Hendrickx, Nico, Van Lint, Johan, Matroule, Jean-Yves, Agostinis, Patrizia, and Piette, Jacques

Subjects

*PHOTOCHEMOTHERAPY, *CELL death, *APOPTOSIS, *CANCER treatment, *CYTOKINES, *PHOSPHOTRANSFERASES

Abstract

Photodynamic therapy (PDT) is a minimally invasive treatment for cancer and several noncancerous proliferating cell diseases. PDT relies on the uptake of a photosensitizing compound by the pathologic tissue followed by a selective irradiation with visible light, which leads to oxidative stress-mediated cell death. However, some studies showed that PDT induces the release of proangiogenic factors, such as vascular endothelial growth factor, and/or cyclooxygenase-2 (COX-2), thereby promoting cancer cell regrowth following PDT. In this work, we focused on the molecular mechanisms regulating COX-2 expression after low-dose PDT in two cancer cell lines, namely HeLa and T24. We report that PDT induces COX-2 expression in these cells and this expression is mainly due to nuclear factor kappa B (NF-?B)-dependent transcription of cox-2 gene without any post-transcriptional regulation. However, the transduction mechanism leading to NF-?B activation and subsequent cox-2 gene transcription differs in both cell types. In T24, NF-?B activation occurs through a protein kinase C (PKC)a- and phosphoinositide-3-kinase (PI3K)-dependent I kappa B kinase (IKK) complex activation, whereas in HeLa cells, NF-?B activation is mediated by PKC- and PI3K-independent IKK complex activation.Oncogene (2005) 24, 2981-2991. doi:10.1038/sj.onc.1208481 Published online 7 February 2005 [ABSTRACT FROM AUTHOR]

Published

2005

13. Cell death and growth arrest in response to photodynamic therapy with membrane-bound photosensitizers

Author

Piette, Jacques, Volanti, Cédric, Vantieghem, Annelies, Matroule, Jean-Yves, Habraken, Yvette, and Agostinis, Patrizia

Subjects

*PHOTOCHEMOTHERAPY, *CANCER treatment, *PHOTOSENSITIZERS, *REACTIVE oxygen species

Abstract

Photodynamic therapy (PDT) is a treatment for cancer and for certain benign conditions that is based on the use of a photosensitizer and light to produce reactive oxygen species in cells. Many of the photosensitizers currently used in PDT localize in different cell compartments such as mitochondria, lysosomes, endoplasmic reticulum and generate cell death by triggering necrosis and/or apoptosis. Efficient cell death is observed when light, oxygen and the photosensitizer are not limiting (“high dose PDT”). When one of these components is limiting (“low dose PDT”), most of the cells do not immediately undergo apoptosis or necrosis but are growth arrested with several transduction pathways activated. This commentary will review the mechanism of apoptosis and growth arrest mediated by two important PDT agents, i.e. pyropheophorbide and hypericin. [Copyright &y& Elsevier]

Published

2003