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1. Discovery of anti-infective compounds against Mycobacterium marinum after biotransformation of simple natural stilbenes by a fungal secretome

Author

Jahn Nitschke, Robin Huber, Stefania Vossio, Dimitri Moreau, Laurence Marcourt, Katia Gindro, Emerson F. Queiroz, Thierry Soldati, and Nabil Hanna

Subjects
anti-infectives, natural products, phenotypic screening, Mycobacterium marinum, Dictyostelium discoideum, stilbene derivatives, Microbiology, QR1-502
Abstract

IntroductionMycobacterium tuberculosis (Mtb), the causative agent of tuberculosis, remains a serious threat to human health worldwide and the quest for new anti-tubercular drugs is an enduring and demanding journey. Natural products (NPs) have played a significant role in advancing drug therapy of infectious diseases.MethodsThis study evaluated the suitability of a high-throughput infection system composed of the host amoeba Dictyostelium discoideum (Dd) and Mycobacterium marinum (Mm), a close relative of Mtb, to identify anti-infective compounds. Growth of Dd and intracellular Mm were quantified by using luminescence and fluorescence readouts in phenotypic assays. The system was first benchmarked with a set of therapeutic anti-Mtb antibiotics and then used to screen a library of biotransformed stilbenes.ResultsThe study confirmed both efficacy of established antibiotics such as rifampicin and bedaquiline, with activities below defined anti-mycobacterium susceptibility breakpoints, and the lack of activity of pyrazinamide against Mm. The screening revealed the promising anti-infective activities of trans-δ-viniferins and in particular of two compounds 17 and 19 with an IC50 of 18.1 μM, 9 μM, respectively. Both compounds had no activity on Mm in broth. Subsequent exploration via halogenation and structure-activity relationship studies led to the identification of derivatives with improved selectivity and potency. The modes of action of the anti-infective compounds may involve inhibition of mycobacterial virulence factors or boosting of host defense.DiscussionThe study highlights the potential of biotransformation and NP-inspired derivatization approaches for drug discovery and underscores the utility of the Dd-Mm infection system in identifying novel anti-infective compounds.

Published
2024
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3. Temporal genome-wide fitness analysis of Mycobacterium marinum during infection reveals the genetic requirement for virulence and survival in amoebae and microglial cells

Author

Louise H. Lefrançois, Jahn Nitschke, Huihai Wu, Gaël Panis, Julien Prados, Rachel E. Butler, Tom A. Mendum, Nabil Hanna, Graham R. Stewart, and Thierry Soldati

Subjects
Mycobacterium marinum, phenotypic profiling, Dictyostelium discoideum, BV2 microglial cells, essentiality, Tn-Seq, Microbiology, QR1-502
Abstract

ABSTRACTTuberculosis remains the most pervasive infectious disease and the recent emergence of drug-resistant strains emphasizes the need for more efficient drug treatments. A key feature of pathogenesis, conserved between the human pathogen Mycobacterium tuberculosis and the model pathogen Mycobacterium marinum, is the metabolic switch to lipid catabolism and altered expression of virulence genes at different stages of infection. This study aims to identify genes involved in sustaining viable intracellular infection. We applied transposon sequencing (Tn-Seq) to M. marinum, an unbiased genome-wide strategy combining saturation insertional mutagenesis and high-throughput sequencing. This approach allowed us to identify the localization and relative abundance of insertions in pools of transposon mutants. Gene essentiality and fitness cost of mutations were quantitatively compared between in vitro growth and different stages of infection in two evolutionary distinct phagocytes, the amoeba Dictyostelium discoideum and the murine BV2 microglial cells. In the M. marinum genome, 57% of TA sites were disrupted and 568 genes (10.2%) were essential, which is comparable to previous Tn-Seq studies on M. tuberculosis and M. bovis. Major pathways involved in the survival of M. marinum during infection of D. discoideum are related to DNA damage repair, lipid and vitamin metabolism, the type VII secretion system (T7SS) ESX-1, and the Mce1 lipid transport system. These pathways, except Mce1 and some glycolytic enzymes, were similarly affected in BV2 cells. These differences suggest subtly distinct nutrient availability or requirement in different host cells despite the known predominant use of lipids in both amoeba and microglial cells.IMPORTANCEThe emergence of biochemically and genetically tractable host model organisms for infection studies holds the promise to accelerate the pace of discoveries related to the evolution of innate immunity and the dissection of conserved mechanisms of cell-autonomous defenses. Here, we have used the genetically and biochemically tractable infection model system Dictyostelium discoideum/Mycobacterium marinum to apply a genome-wide transposon-sequencing experimental strategy to reveal comprehensively which mutations confer a fitness advantage or disadvantage during infection and compare these to a similar experiment performed using the murine microglial BV2 cells as host for M. marinum to identify conservation of virulence pathways between hosts.

Published
2024
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4. Targeted isolation of natural analogs of anti-mycobacterial hit compounds based on the metabolite profiling of a large collection of plant extracts

Author

Olivier Auguste Kirchhoffer, Jahn Nitschke, Pierre-Marie Allard, Laurence Marcourt, Bruno David, Antonio Grondin, Nabil Hanna, Emerson Ferreira Queiroz, Thierry Soldati, and Jean-Luc Wolfender

Subjects
molecular network, bioactive compounds anticipation, anti-mycobacterial, targeted isolation, structural similarity search, large collection of plants, Chemistry, QD1-999, Botany, QK1-989
Abstract

Antibiotics resistance is a clear threat to the future of current tuberculosis treatments like rifampicin, prompting the need for new treatment options in this field. While plants can offer a plethora of chemical diversity in their constitutive natural products to tackle this issue, finding potentially bioactive compounds in them has not always proven to be that simple. Classical bioactivity-guided fractionation approaches are still trendy, but they bear significant shortfalls, like their time-consuming nature as well as the ever-increasing risk of isolating known bioactive compounds. In this regard, we have developed an alternative method to the latter approach that allows for natural derivatives of a known bioactive scaffold to be efficiently targeted and isolated within a large library of plant extracts. Hence our approach allows for the anticipation of bioactive structure independently of preliminary bioassays. By relying on the chemical diversity of a set of 1,600 plant extracts analyzed by HRMS/MS, we were able to isolate and characterize several minor derivatives of a previously reported bioactive aza-anthraquinone compound from Cananga brandisiana, selected within the plant set. Assessment of bioactivity on these derivatives (especially onychine, with an IC50 value of 39 µM in infection) confirmed their expected activity on Mycobacterium marinum in our anti-infective assay. This proof-of-concept study has established an original path towards bioactive compounds isolation, with the advantage of potentially highlighting minor bioactive compounds, whose activity may not even be detectable at the extract level.

Published
2023
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5. A TRAF-like E3 ubiquitin ligase TrafE coordinates ESCRT and autophagy in endolysosomal damage response and cell-autonomous immunity to Mycobacterium marinum

Author

Lyudmil Raykov, Manon Mottet, Jahn Nitschke, and Thierry Soldati

Subjects
host-pathogen interaction, Mycobacterium marinum, membrane damage, ESCRT, autophagy, infection, Medicine, Science, Biology (General), QH301-705.5
Abstract

Cells are perpetually challenged by pathogens, protein aggregates or chemicals, that induce plasma membrane or endolysosomal compartments damage. This severe stress is recognised and controlled by the endosomal sorting complex required for transport (ESCRT) and the autophagy machineries, which are recruited to damaged membranes to either repair or to remove membrane remnants. Yet, insight is limited about how damage is sensed and which effectors lead to extensive tagging of the damaged organelles with signals, such as K63-polyubiquitin, required for the recruitment of membrane repair or removal machineries. To explore the key factors responsible for detection and marking of damaged compartments, we use the professional phagocyte Dictyostelium discoideum. We found an evolutionary conserved E3-ligase, TrafE, that is robustly recruited to intracellular compartments disrupted after infection with Mycobacterium marinum or after sterile damage caused by chemical compounds. TrafE acts at the intersection of ESCRT and autophagy pathways and plays a key role in functional recruitment of the ESCRT subunits ALIX, Vps32 and Vps4 to damage sites. Importantly, we show that the absence of TrafE severely compromises the xenophagy restriction of mycobacteria as well as ESCRT-mediated and autophagy-mediated endolysosomal membrane damage repair, resulting in early cell death.

Published
2023
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6. Discovery of anti-infective compounds against Mycobacterium marinum after biotransformation of simple natural stilbenes by a fungal secretome.

Author

Nitschke, Jahn, Huber, Robin, Vossio, Stefania, Moreau, Dimitri, Marcourt, Laurence, Gindro, Katia, Queiroz, Emerson F., Soldati, Thierry, and Hanna, Nabil

Subjects
DICTYOSTELIUM discoideum, DRUG discovery, ANTITUBERCULAR agents, STILBENE derivatives, DRUG therapy, MYCOBACTERIUM tuberculosis
Abstract

Introduction: Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis, remains a serious threat to human health worldwide and the quest for new anti-tubercular drugs is an enduring and demanding journey. Natural products (NPs) have played a significant role in advancing drug therapy of infectious diseases. Methods: This study evaluated the suitability of a high-throughput infection system composed of the host amoeba Dictyostelium discoideum (Dd) and Mycobacterium marinum (Mm), a close relative of Mtb, to identify anti-infective compounds. Growth of Dd and intracellular Mm were quantified by using luminescence and fluorescence readouts in phenotypic assays. The system was first benchmarked with a set of therapeutic anti-Mtb antibiotics and then used to screen a library of biotransformed stilbenes. Results: The study confirmed both efficacy of established antibiotics such as rifampicin and bedaquiline, with activities below defined anti-mycobacterium susceptibility breakpoints, and the lack of activity of pyrazinamide against Mm. The screening revealed the promising anti-infective activities of trans-δ-viniferins and in particular of two compounds 17 and 19 with an IC50 of 18.1 μM, 9 μM, respectively. Both compounds had no activity on Mm in broth. Subsequent exploration via halogenation and structure-activity relationship studies led to the identification of derivatives with improved selectivity and potency. The modes of action of the anti-infective compounds may involve inhibition of mycobacterial virulence factors or boosting of host defense. Discussion: The study highlights the potential of biotransformation and NPinspired derivatization approaches for drug discovery and underscores the utility of the Dd-Mm infection system in identifying novel anti-infective compounds. [ABSTRACT FROM AUTHOR]

Published
2024
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7. List of contributors

Author

Vallejo-Cardona, Alba Adriana, primary, Fraga, Alexandra G., additional, Bhardwaj, Anshu, additional, Sarkar, Binayak, additional, Barisch, Caroline, additional, Crauste, Céline, additional, Spilling, Christopher D., additional, Segura-Cerda, Cristian Alfredo, additional, Gutiérrez-Vera, Cristián, additional, Singh, Damini, additional, Raze, Dominique, additional, Yeramian, Edouard, additional, Waelkens, Etienne, additional, Larrouy-Maumus, Gerald, additional, Vermeulen, Ilke, additional, Mallick, Ivy, additional, Verschoor, Jan, additional, Cavalier, Jean-François, additional, Velázquez-Fernández, Jesús Bernardino, additional, Grooten, Johan, additional, Swinnen, Johannes V., additional, Pedrosa, Jorge, additional, Al-Dulayymi, Juma, additional, Bloch, Katarzyna, additional, Anand, Kushi, additional, Kremer, Laurent, additional, Marsollier, Laurent, additional, Carreño, Leandro J., additional, Mahapatra, Manisha, additional, Mishra, Manjari, additional, Flores-Valdez, Mario Alberto, additional, Baird, Mark, additional, Foulon, Mélanie, additional, Sarrazin, Morgane, additional, Raikwar, Priyanshu Singh, additional, Prados-Rosales, Rafael, additional, Gokhale, Rajesh S., additional, Derua, Rita, additional, Avellan, Romain, additional, Hameed, Saif, additional, Kapoor, Shobhna, additional, Singh, Shweta, additional, Srivastava, Sonali, additional, Canaan, Stéphane, additional, Listian, Stevanus A., additional, Soldati, Thierry, additional, Dargham, Tonia, additional, Sundaramurthy, Varadharajan, additional, Singh, Vipin, additional, Salgueiro, Vivian, additional, Liu, Yi, additional, and Fatima, Zeeshan, additional

Published
2022
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9. Mechanics of Constriction during Cell Division: A Variational Approach

Author

Thierry Soldati, Almendro Vedia, Víctor Galileo, Monroy Muñoz, Francisco, Cao García, Francisco Javier, Thierry Soldati, Almendro Vedia, Víctor Galileo, Monroy Muñoz, Francisco, and Cao García, Francisco Javier

Abstract

Funding: This work was supported by Ministerio de Ciencia e Innovacio´n and Ministerio de Economı´a y Competitividad (Spain) under grants FIS 2010-17440 to FJC and FIS2009-14650- C02-01, FIS2012-35723, Consolider Ingenio en Nanociencia Molecular CSD2007-0010, and S2009MAT-1507 from Comunidad Autonoma de Madrid (Spain) to FM. VGAV acknowledges support from Ministerio de Educacio´n Cultura y Deporte (Spain) through Becas de Colaboracio´n program. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript., During symmetric division cells undergo large constriction deformations at a stable midcell site. Using a variational approach, we investigate the mechanical route for symmetric constriction by computing the bending energy of deformed vesicles with rotational symmetry. Forces required for constriction are explicitly computed at constant area and constant volume, and their values are found to be determined by cell size and bending modulus. For cell-sized vesicles, considering typical bending modulus of k = 10kBT, we calculate constriction forces in the range 0.1 - 1pN. The instability of symmetrical constriction is shown and quantified with a characteristic coefficient of the order of - 50kBT, thus evidencing that cells need a robust mechanism to stabilize constriction at midcell., Ministerio de Ciencia e Innovación, Ministerio de Economía y Competitividad, Comunidad Autonoma de Madrid, Ministerio de Educación Cultura y Deporte - Becas de Colaboración, Depto. de Estructura de la Materia, Física Térmica y Electrónica, Depto. de Química Física, Fac. de Ciencias Físicas, Fac. de Ciencias Químicas, TRUE, pub

Published
2024

10. Targeted isolation of natural analogs of anti-mycobacterial hit compounds based on the metabolite profiling of a large collection of plant extracts.

Author

Kirchhoffer, Olivier Auguste, Nitschke, Jahn, Allard, Pierre-Marie, Marcourt, Laurence, David, Bruno, Grondin, Antonio, Hanna, Nabil, Ferreira Queiroz, Emerson, Soldati, Thierry, and Wolfender, Jean-Luc

Subjects
PLANT extracts, DRUG resistance in microorganisms, METABOLITES, ANTHRAQUINONES, MYCOBACTERIUM
Abstract

Antibiotics resistance is a clear threat to the future of current tuberculosis treatments like rifampicin, prompting the need for new treatment options in this field. While plants can offer a plethora of chemical diversity in their constitutive natural products to tackle this issue, finding potentially bioactive compounds in them has not always proven to be that simple. Classical bioactivity-guided fractionation approaches are still trendy, but they bear significant shortfalls, like their time-consuming nature as well as the everincreasing risk of isolating known bioactive compounds. In this regard, we have developed an alternative method to the latter approach that allows for natural derivatives of a known bioactive scaffold to be efficiently targeted and isolated within a large library of plant extracts. Hence our approach allows for the anticipation of bioactive structure independently of preliminary bioassays. By relying on the chemical diversity of a set of 1,600 plant extracts analyzed by HRMS/MS, we were able to isolate and characterize several minor derivatives of a previously reported bioactive aza-anthraquinone compound from Cananga brandisiana, selected within the plant set. Assessment of bioactivity on these derivatives (especially onychine, with an IC50 value of 39 μM in infection) confirmed their expected activity on Mycobacterium marinum in our antiinfective assay. This proof-of-concept study has established an original path towards bioactive compounds isolation, with the advantage of potentially highlighting minor bioactive compounds, whose activity may not even be detectable at the extract level. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Temporal genome-wide fitness analysis of Mycobacterium marinum during infection reveals the genetic requirement for virulence and survival in amoebae and microglial cells

Author

Lefrançois, Louise H., primary, Nitschke, Jahn, additional, Wu, Huihai, additional, Panis, Gaël, additional, Prados, Julien, additional, Butler, Rachel E., additional, Mendum, Tom A., additional, Hanna, Nabil, additional, Stewart, Graham R., additional, and Soldati, Thierry, additional

Published
2024
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12. An evolutionary-conserved VPS34-PIKfyve-TRPML1-Myosin II axis regulates the speed of amoeboid cell migration

Author

Dehio, Philippe, primary, Michard, Céline, additional, Yam-Puc, Juan Carlos, additional, Martí i Líndez, Adrià-Arnau, additional, Fabre, Lucien, additional, Schaefer, Thorsten, additional, Wymann, Matthias P., additional, Okkenhaug, Klaus, additional, Soldati, Thierry, additional, Mehling, Matthias, additional, and Hess, Christoph, additional

Published
2024
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13. 5-ethyl-2’-deoxyuridine fragilizes Klebsiella pneumoniae outer wall and facilitates intracellular killing by phagocytic cells

Author

Estelle Ifrid, Hajer Ouertatani-Sakouhi, Tania Jauslin, Sebastien Kicka, Gianpaolo Chiriano, Christopher F. Harrison, Hubert Hilbi, Leonardo Scapozza, Thierry Soldati, and Pierre Cosson

Subjects
Medicine, Science
Abstract

Klebsiella pneumoniae is the causative agent of a variety of severe infections. Many K. pneumoniae strains are resistant to multiple antibiotics, and this situation creates a need for new antibacterial molecules. K. pneumoniae pathogenicity relies largely on its ability to escape phagocytosis and intracellular killing by phagocytic cells. Interfering with these escape mechanisms may allow to decrease bacterial virulence and to combat infections. In this study, we used Dictyostelium discoideum as a model phagocyte to screen a collection of 1,099 chemical compounds. Phg1A KO D. discoideum cells cannot feed upon K. pneumoniae bacteria, unless bacteria bear mutations decreasing their virulence. We identified 3 non-antibiotic compounds that restored growth of phg1A KO cells on K. pneumoniae, and we characterized the mode of action of one of them, 5-ethyl-2’-deoxyuridine (K2). K2-treated bacteria were more rapidly killed in D. discoideum phagosomes than non-treated bacteria. They were more sensitive to polymyxin and their outer membrane was more accessible to a hydrophobic fluorescent probe. These results suggest that K2 acts by rendering the membrane of K. pneumoniae accessible to antibacterial effectors. K2 was effective on three different K. pneumoniae strains, and acted at concentrations as low as 3 μM. K2 has previously been used to treat viral infections but its precise molecular mechanism of action in K. pneumoniae remains to be determined.

Published
2022

18. Application of the RDF framework to integrate heterogenous experimental data of a large chemo- and biodiverse collection from a research collaborative project

Author

Burdet, Frédéric, primary, Allard, Pierre-Marie, additional, Nothias, Louis-Felix, additional, Kirchhoffer, Olivier, additional, Gaudry, Arnaud, additional, Moretti, Sebastien, additional, Engler, Robin, additional, Quiros-Guerrero, Luis-Manuel, additional, Ferreira Queiroz, Emerson, additional, Nitschke, Jahn, additional, Hanna, Nabil, additional, Wu, Chunyan, additional, Grondin, Antonio, additional, David, Bruno, additional, Soldati, Thierry, additional, Wolfrum, Christian, additional, Carreira, Erick, additional, Wolfender, Jean-Luc, additional, Pagni, Marco, additional, and Mehl, Florence, additional

Published
2023
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19. Targeted isolation of natural analogs of anti-mycobacterial hit compounds based on the metabolite profiling of a large collection of plant extracts

Author

Kirchhoffer, Olivier Auguste, primary, Nitschke, Jahn, additional, Allard, Pierre-Marie, additional, Marcourt, Laurence, additional, David, Bruno, additional, Grondin, Antonio, additional, Hanna, Nabil, additional, Queiroz, Emerson Ferreira, additional, Soldati, Thierry, additional, and Wolfender, Jean-Luc, additional

Published
2023
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20. Zn 2+ Intoxication of Mycobacterium marinum during Dictyostelium discoideum Infection Is Counteracted by Induction of the Pathogen Zn 2+ Exporter CtpC

Author

Nabil Hanna, Hendrik Koliwer-Brandl, Louise H. Lefrançois, Vera Kalinina, Elena Cardenal-Muñoz, Joddy Appiah, Florence Leuba, Aurélie Gueho, Hubert Hilbi, Thierry Soldati, and Caroline Barisch

Subjects
Microbiology, QR1-502
Abstract

Microelements are essential for the function of the innate immune system. A deficiency in zinc or copper results in an increased susceptibility to bacterial infections.

Published
2021
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21. Conidial Melanin of the Human-Pathogenic Fungus Aspergillus fumigatus Disrupts Cell Autonomous Defenses in Amoebae

Author

Iuliia Ferling, Joe Dan Dunn, Alexander Ferling, Thierry Soldati, and Falk Hillmann

Subjects
Aspergillus fumigatus, Dictyostelium discoideum, Protostelium aurantium, DHN-melanin, phagocytosis, phagosome maturation, Microbiology, QR1-502
Abstract

ABSTRACT The human-pathogenic fungus Aspergillus fumigatus is a ubiquitous saprophyte that causes fatal lung infections in immunocompromised individuals. Following inhalation, conidia are ingested by innate immune cells and can arrest phagolysosome maturation. How this virulence trait could have been selected for in natural environments is unknown. Here, we found that surface exposure of the green pigment 1,8-dihydroxynaphthalene-(DHN)-melanin can protect conidia from phagocytic uptake and intracellular killing by the fungivorous amoeba Protostelium aurantium and delays its exocytosis from the nonfungivorous species Dictyostelium discoideum. To elucidate the antiphagocytic properties of the surface pigment, we followed the antagonistic interactions of A. fumigatus conidia with the amoebae in real time. For both amoebae, conidia covered with DHN-melanin were internalized at far lower rates than were seen with conidia lacking the pigment, despite high rates of initial attachment to nonkilling D. discoideum. When ingested by D. discoideum, the formation of nascent phagosomes was followed by transient acidification of phagolysosomes, their subsequent neutralization, and, finally, exocytosis of the conidia. While the cycle was completed in less than 1 h for unpigmented conidia, the process was significantly prolonged for conidia covered with DHN-melanin, leading to an extended intracellular residence time. At later stages of this cellular infection, pigmented conidia induced enhanced damage to phagolysosomes and infected amoebae failed to recruit the ESCRT (endosomal sorting complex required for transport) membrane repair machinery or the canonical autophagy pathway to defend against the pathogen, thus promoting prolonged intracellular persistence in the host cell and the establishment of a germination niche in this environmental phagocyte. IMPORTANCE Infections with Aspergillus fumigatus are usually acquired by an inhalation of spores from environmental sources. How spores of a saprophytic fungus have acquired abilities to withstand and escape the phagocytic attacks of innate immune cells is not understood. The fungal surface pigment dihydroxynaphtalene-melanin has been shown to be a crucial factor for the delay in phagosome maturation. Here, we show that this pigment also has a protective function against environmental phagocytes. Pigmented conidia escaped uptake and killing by the fungus-eating amoeba Protostelium aurantium. When ingested by the nonfungivorous phagocyte Dictyostelium discoideum, the pigment attenuated the launch of cell autonomous defenses against the fungal invader, such as membrane repair and autophagy, leading to prolonged intracellular retention. Membrane damage and cytoplasmic leakage may result in an influx of nutrients and thus may further promote intracellular germination of the fungus, indicating that A. fumigatus has acquired some of the basic properties of intracellular pathogens.

Published
2020
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22. Transcriptional Responses of Dictyostelium discoideum Exposed to Different Classes of Bacteria

Author

Otmane Lamrabet, Astrid Melotti, Frédéric Burdet, Nabil Hanna, Jackie Perrin, Jahn Nitschke, Marco Pagni, Hubert Hilbi, Thierry Soldati, and Pierre Cosson

Subjects
Dictyostelium discoideum, host-pathogen interactions, RNA-seq, Klebsiella pneumoniae, Bacillus subtilis, Mycobacterium marinum, Microbiology, QR1-502
Abstract

Dictyostelium discoideum amoebae feed by ingesting bacteria, then killing them in phagosomes. Ingestion and killing of different bacteria have been shown to rely on largely different molecular mechanisms. One would thus expect that D. discoideum adapts its ingestion and killing machinery when encountering different bacteria. In this study, we investigated by RNA sequencing if and how D. discoideum amoebae respond to the presence of different bacteria by modifying their gene expression patterns. Each bacterial species analyzed induced a specific modification of the transcriptome. Bacteria such as Bacillus subtilis, Klebsiella pneumoniae, or Mycobacterium marinum induced a specific and different transcriptional response, while Micrococcus luteus did not trigger a significant gene regulation. Although folate has been proposed to be one of the key molecules secreted by bacteria and recognized by hunting amoebae, it elicited a very specific and restricted transcriptional signature, distinct from that triggered by any bacteria analyzed here. Our results indicate that D. discoideum amoebae respond in a highly specific, almost non-overlapping manner to different species of bacteria. We additionally identify specific sets of genes that can be used as reporters of the response of D. discoideum to different bacteria.

Published
2020
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23. Identification of Anti-Mycobacterium and Anti-Legionella Compounds With Potential Distinctive Structural Scaffolds From an HD-PBL Using Phenotypic Screens in Amoebae Host Models

Author

Nabil Hanna, Sébastien Kicka, Gianpaolo Chiriano, Christopher Harrison, Hajer Ouertatani Sakouhi, Valentin Trofimov, Agata Kranjc, Jahn Nitschke, Marco Pagni, Pierre Cosson, Hubert Hilbi, Leonardo Scapozza, and Thierry Soldati

Subjects
Mycobacterium, Legionella, anti-infective, ChemGPS, amoebae, Microbiology, QR1-502
Abstract

Tubercular Mycobacteria and Legionella pneumophila are the causative agents of potentially fatal respiratory diseases due to their intrinsic pathogenesis but also due to the emergence of antibiotic resistance that limits treatment options. The aim of our study was to explore the antimicrobial activity of a small ligand-based chemical library of 1255 structurally diverse compounds. These compounds were screened in a combination of three assays, two monitoring the intracellular growth of the pathogenic bacteria, Mycobacterium marinum and L. pneumophila, and one assessing virulence of M. marinum. We set up these assays using two amoeba strains, the genetically tractable social amoeba Dictyostelium discoideum and the free-living amoeba Acanthamoeba castellanii. In summary, 64 (5.1%) compounds showed anti-infective/anti-virulence activity in at least one of the three assays. The intracellular assays hit rate varied between 1.7% (n = 22) for M. marinum and 2.8% (n = 35) for L. pneumophila with seven compounds in common for both pathogens. In parallel, 1.2% (n = 15) of the tested compounds were able to restore D. discoideum growth in the presence of M. marinum spiked in a lawn of food bacteria. We also validated the generality of the hits identified in the A. castellanii–M. marinum anti-infective screen using the D. discoideum–M. marinum host–pathogen model. The characterization of anti-infective and antibacterial hits in the latter infection model revealed compounds able to reduce intracellular growth more than 50% at 30 μM. Moreover, the chemical space and physico-chemical properties of the anti-M. marinum hits were compared to standard and candidate Mycobacterium tuberculosis (Mtb) drugs using ChemGPS-NP. A principle component analysis identified separate clusters for anti-M. marinum and anti-L. pneumophila hits unveiling the potentially new physico-chemical properties of these hits compared to standard and candidate M. tuberculosis drugs. Our studies underscore the relevance of using a combination of low-cost and low-complexity assays with full 3R compliance in concert with a rationalized focused library of compounds to identify new chemical scaffolds and to dissect some of their properties prior to taking further steps toward compound development.

Published
2020
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24. Antimycobacterial drug discovery using Mycobacteria-infected amoebae identifies anti-infectives and new molecular targets

Author

Valentin Trofimov, Sébastien Kicka, Sabrina Mucaria, Nabil Hanna, Fernando Ramon-Olayo, Laura Vela-Gonzalez Del Peral, Joël Lelièvre, Lluís Ballell, Leonardo Scapozza, Gurdyal S. Besra, Jonathan A. G. Cox, and Thierry Soldati

Subjects
Medicine, Science
Abstract

Abstract Tuberculosis remains a serious threat to human health world-wide, and improved efficiency of medical treatment requires a better understanding of the pathogenesis and the discovery of new drugs. In the present study, we performed a whole-cell based screen in order to complete the characterization of 168 compounds from the GlaxoSmithKline TB-set. We have established and utilized novel previously unexplored host-model systems to characterize the GSK compounds, i.e. the amoeboid organisms D. discoideum and A. castellanii, as well as a microglial phagocytic cell line, BV2. We infected these host cells with Mycobacterium marinum to monitor and characterize the anti-infective activity of the compounds with quantitative fluorescence measurements and high-content microscopy. In summary, 88.1% of the compounds were confirmed as antibiotics against M. marinum, 11.3% and 4.8% displayed strong anti-infective activity in, respectively, the mammalian and protozoan infection models. Additionally, in the two systems, 13–14% of the compounds displayed pro-infective activity. Our studies underline the relevance of using evolutionarily distant pathogen and host models in order to reveal conserved mechanisms of virulence and defence, respectively, which are potential “universal” targets for intervention. Subsequent mechanism of action studies based on generation of over-expresser M. bovis BCG strains, generation of spontaneous resistant mutants and whole genome sequencing revealed four new molecular targets, including FbpA, MurC, MmpL3 and GlpK.

Published
2018
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28. European contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS)

Author

Javier Egea, Isabel Fabregat, Yves M. Frapart, Pietro Ghezzi, Agnes Görlach, Thomas Kietzmann, Kateryna Kubaichuk, Ulla G. Knaus, Manuela G. Lopez, Gloria Olaso-Gonzalez, Andreas Petry, Rainer Schulz, Jose Vina, Paul Winyard, Kahina Abbas, Opeyemi S. Ademowo, Catarina B. Afonso, Ioanna Andreadou, Haike Antelmann, Fernando Antunes, Mutay Aslan, Markus M. Bachschmid, Rui M. Barbosa, Vsevolod Belousov, Carsten Berndt, David Bernlohr, Esther Bertrán, Alberto Bindoli, Serge P. Bottari, Paula M. Brito, Guia Carrara, Ana I. Casas, Afroditi Chatzi, Niki Chondrogianni, Marcus Conrad, Marcus S. Cooke, João G. Costa, Antonio Cuadrado, Pham My-Chan Dang, Barbara De Smet, Bilge Debelec–Butuner, Irundika H.K. Dias, Joe Dan Dunn, Amanda J. Edson, Mariam El Assar, Jamel El-Benna, Péter Ferdinandy, Ana S. Fernandes, Kari E. Fladmark, Ulrich Förstermann, Rashid Giniatullin, Zoltán Giricz, Anikó Görbe, Helen Griffiths, Vaclav Hampl, Alina Hanf, Jan Herget, Pablo Hernansanz-Agustín, Melanie Hillion, Jingjing Huang, Serap Ilikay, Pidder Jansen-Dürr, Vincent Jaquet, Jaap A. Joles, Balaraman Kalyanaraman, Danylo Kaminskyy, Mahsa Karbaschi, Marina Kleanthous, Lars-Oliver Klotz, Bato Korac, Kemal Sami Korkmaz, Rafal Koziel, Damir Kračun, Karl-Heinz Krause, Vladimír Křen, Thomas Krieg, João Laranjinha, Antigone Lazou, Huige Li, Antonio Martínez-Ruiz, Reiko Matsui, Gethin J. McBean, Stuart P. Meredith, Joris Messens, Verónica Miguel, Yuliya Mikhed, Irina Milisav, Lidija Milković, Antonio Miranda-Vizuete, Miloš Mojović, María Monsalve, Pierre-Alexis Mouthuy, John Mulvey, Thomas Münzel, Vladimir Muzykantov, Isabel T.N. Nguyen, Matthias Oelze, Nuno G. Oliveira, Carlos M. Palmeira, Nikoletta Papaevgeniou, Aleksandra Pavićević, Brandán Pedre, Fabienne Peyrot, Marios Phylactides, Gratiela G. Pircalabioru, Andrew R. Pitt, Henrik E. Poulsen, Ignacio Prieto, Maria Pia Rigobello, Natalia Robledinos-Antón, Leocadio Rodríguez-Mañas, Anabela P. Rolo, Francis Rousset, Tatjana Ruskovska, Nuno Saraiva, Shlomo Sasson, Katrin Schröder, Khrystyna Semen, Tamara Seredenina, Anastasia Shakirzyanova, Geoffrey L. Smith, Thierry Soldati, Bebiana C. Sousa, Corinne M. Spickett, Ana Stancic, Marie José Stasia, Holger Steinbrenner, Višnja Stepanić, Sebastian Steven, Kostas Tokatlidis, Erkan Tuncay, Belma Turan, Fulvio Ursini, Jan Vacek, Olga Vajnerova, Kateřina Valentová, Frank Van Breusegem, Lokman Varisli, Elizabeth A. Veal, A. Suha Yalçın, Olha Yelisyeyeva, Neven Žarković, Martina Zatloukalová, Jacek Zielonka, Rhian M. Touyz, Andreas Papapetropoulos, Tilman Grune, Santiago Lamas, Harald H.H.W. Schmidt, Fabio Di Lisa, and Andreas Daiber

Subjects
Reactive oxygen species, Reactive nitrogen species, Redox signaling, Oxidative stress, Antioxidants, Redox therapeutics, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

The European Cooperation in Science and Technology (COST) provides an ideal framework to establish multi-disciplinary research networks. COST Action BM1203 (EU-ROS) represents a consortium of researchers from different disciplines who are dedicated to providing new insights and tools for better understanding redox biology and medicine and, in the long run, to finding new therapeutic strategies to target dysregulated redox processes in various diseases. This report highlights the major achievements of EU-ROS as well as research updates and new perspectives arising from its members. The EU-ROS consortium comprised more than 140 active members who worked together for four years on the topics briefly described below. The formation of reactive oxygen and nitrogen species (RONS) is an established hallmark of our aerobic environment and metabolism but RONS also act as messengers via redox regulation of essential cellular processes. The fact that many diseases have been found to be associated with oxidative stress established the theory of oxidative stress as a trigger of diseases that can be corrected by antioxidant therapy. However, while experimental studies support this thesis, clinical studies still generate controversial results, due to complex pathophysiology of oxidative stress in humans. For future improvement of antioxidant therapy and better understanding of redox-associated disease progression detailed knowledge on the sources and targets of RONS formation and discrimination of their detrimental or beneficial roles is required. In order to advance this important area of biology and medicine, highly synergistic approaches combining a variety of diverse and contrasting disciplines are needed.

Published
2017
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32. Myosin-I nomenclature

Author

Gillespie, Peter G, Albanesi, Joseph P, Bähler, Martin, Bement, William M, Berg, Jonathan S, Burgess, David R, Burnside, Beth, Cheney, Richard E, Corey, David P, Coudrier, Evelyne, de Lanerolle, Primal, Hammer, John A, Hasson, Tama, Holt, Jeffrey R, Hudspeth, AJ, Ikebe, Mitsuo, Kendrick-Jones, John, Korn, Edward D, Li, Rong, Mercer, John A, Milligan, Ronald A, Mooseker, Mark S, Ostap, E Michael, Petit, Christine, Pollard, Thomas D, Sellers, James R, Soldati, Thierry, and Titus, Margaret A

Subjects
Human Genome, Genetics, Animals, Humans, Myosin Type I, Terminology as Topic, Biological Sciences, Medical and Health Sciences, Developmental Biology
Abstract

We suggest that the vertebrate myosin-I field adopt a common nomenclature system based on the names adopted by the Human Genome Organization (HUGO). At present, the myosin-I nomenclature is very confusing; not only are several systems in use, but several different genes have been given the same name. Despite their faults, we believe that the names adopted by the HUGO nomenclature group for genome annotation are the best compromise, and we recommend universal adoption.

Published
2001

34. PIKfyve/Fab1 is required for efficient V-ATPase and hydrolase delivery to phagosomes, phagosomal killing, and restriction of Legionella infection.

Author

Catherine M Buckley, Victoria L Heath, Aurélie Guého, Cristina Bosmani, Paulina Knobloch, Phumzile Sikakana, Nicolas Personnic, Stephen K Dove, Robert H Michell, Roger Meier, Hubert Hilbi, Thierry Soldati, Robert H Insall, and Jason S King

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

By engulfing potentially harmful microbes, professional phagocytes are continually at risk from intracellular pathogens. To avoid becoming infected, the host must kill pathogens in the phagosome before they can escape or establish a survival niche. Here, we analyse the role of the phosphoinositide (PI) 5-kinase PIKfyve in phagosome maturation and killing, using the amoeba and model phagocyte Dictyostelium discoideum. PIKfyve plays important but poorly understood roles in vesicular trafficking by catalysing formation of the lipids phosphatidylinositol (3,5)-bisphosphate (PI(3,5)2) and phosphatidylinositol-5-phosphate (PI(5)P). Here we show that its activity is essential during early phagosome maturation in Dictyostelium. Disruption of PIKfyve inhibited delivery of both the vacuolar V-ATPase and proteases, dramatically reducing the ability of cells to acidify newly formed phagosomes and digest their contents. Consequently, PIKfyve- cells were unable to generate an effective antimicrobial environment and efficiently kill captured bacteria. Moreover, we demonstrate that cells lacking PIKfyve are more susceptible to infection by the intracellular pathogen Legionella pneumophila. We conclude that PIKfyve-catalysed phosphoinositide production plays a crucial and general role in ensuring early phagosomal maturation, protecting host cells from diverse pathogenic microbes.

Published
2019
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35. The ESCRT and autophagy machineries cooperate to repair ESX-1-dependent damage at the Mycobacterium-containing vacuole but have opposite impact on containing the infection.

Author

Ana T López-Jiménez, Elena Cardenal-Muñoz, Florence Leuba, Lilli Gerstenmaier, Caroline Barisch, Monica Hagedorn, Jason S King, and Thierry Soldati

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Phagocytic cells capture and kill most invader microbes within the bactericidal phagosome, but some pathogens subvert killing by damaging the compartment and escaping to the cytosol. To prevent the leakage of pathogen virulence and host defence factors, as well as bacteria escape, host cells have to contain and repair the membrane damage, or finally eliminate the cytosolic bacteria. All eukaryotic cells engage various repair mechanisms to ensure plasma membrane integrity and proper compartmentalization of organelles, including the Endosomal Sorting Complex Required for Transport (ESCRT) and autophagy machineries. We show that during infection of Dictyostelium discoideum with Mycobacterium marinum, the ESCRT-I component Tsg101, the ESCRT-III protein Snf7/Chmp4/Vps32 and the AAA-ATPase Vps4 are recruited to sites of damage at the Mycobacterium-containing vacuole. Interestingly, damage separately recruits the ESCRT and the autophagy machineries. In addition, the recruitment of Vps32 and Vps4 to repair sterile membrane damage depends on Tsg101 but appears independent of Ca2+. Finally, in absence of Tsg101, M. marinum accesses prematurely the cytosol, where the autophagy machinery restricts its growth. We propose that ESCRT has an evolutionary conserved function to repair small membrane damage and to contain intracellular pathogens in intact compartments.

Published
2018
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38. Temporal genome-wide fitness analysis ofMycobacterium marinumduring infection reveals genetic requirement for virulence and survival in amoebae and microglial cells

Author

Louise H. Lefrançois, Jahn Nitschke, Gaël Panis, Julien Prados, Rachel E. Butler, Tom A. Mendum, Nabil Hanna, Graham R. Stewart, and Thierry Soldati

Abstract

Tuberculosis remains the most pervasive infectious disease and the recent emergence of multiple or even fully drug-resistant strains increases the risk and emphasizes the need for more efficient and better drug treatments. A key feature of mycobacteria pathogenesis is the metabolic switch during infection and expression of virulence genes is often adapted to specific infection conditions. This study aims to identify genes that are involved in the establishment and maintenance of the infection. To answer these questions, we have applied Transposon Sequencing (Tn-Seq) inM. marinum, an unbiased genome-wide strategy that combines saturation insertional mutagenesis and high throughput sequencing. This approach allowed us to precisely identify the localization and relative abundance of insertions in pools of Tn mutants. The essentiality and fitness cost, in terms of growth advantage and disadvantage of over 105mutants were quantitatively compared betweenin vitroand different stages of infection in two evolutionary distinct hosts,D. discoideumand BV2 microglial cells. We found that 57% of TA sites in theM. marinumgenome were disrupted and that 568 genes (10.2%) are essential forM. marinum, which is comparable to previous Tn-Seq studies onM. tuberculosis. The major pathways involved in the survival ofM. marinumduring infection ofD. discoideumwere related to vitamin metabolism, theesx-1operon, as well as the mce1 operon.

Published
2023

39. Social amoebae trap and kill bacteria by casting DNA nets

Author

Xuezhi Zhang, Olga Zhuchenko, Adam Kuspa, and Thierry Soldati

Subjects
Science
Abstract

Neutrophils secrete net-like structures made of DNA and anti-microbial peptides, which can trap and kill extracellular pathogens. Here, the authors show that such nets are also produced by so-called Sentinel cells in the multicellular slug stage of the social amoeba Dictyostelium discoideum.

Published
2016
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41. The Saposin-Like Protein AplD Displays Pore-Forming Activity and Participates in Defense Against Bacterial Infection During a Multicellular Stage of Dictyostelium discoideum

Author

Ranjani Dhakshinamoorthy, Moritz Bitzhenner, Pierre Cosson, Thierry Soldati, and Matthias Leippe

Subjects
amoebapore, antimicrobial peptides, Dictyostelium discoideum, host-pathogen interactions, saposin-like proteins, slugs, Microbiology, QR1-502
Abstract

Due to their archaic life style and microbivor behavior, amoebae may represent a source of antimicrobial peptides and proteins. The amoebic protozoon Dictyostelium discoideum has been a model organism in cell biology for decades and has recently also been used for research on host-pathogen interactions and the evolution of innate immunity. In the genome of D. discoideum, genes can be identified that potentially allow the synthesis of a variety of antimicrobial proteins. However, at the protein level only very few antimicrobial proteins have been characterized that may interact directly with bacteria and help in fighting infection of D. discoideum with potential pathogens. Here, we focus on a large group of gene products that structurally belong to the saposin-like protein (SAPLIP) family and which members we named provisionally Apls (amoebapore-like peptides) according to their similarity to a comprehensively studied antimicrobial and cytotoxic pore-forming protein of the protozoan parasite Entamoeba histolytica. We focused on AplD because it is the only Apl gene that is reported to be primarily transcribed further during the multicellular stages such as the mobile slug stage. Upon knock-out (KO) of the gene, aplD− slugs became highly vulnerable to virulent Klebsiella pneumoniae. AplD− slugs harbored bacterial clumps in their interior and were unable to slough off the pathogen in their slime sheath. Re-expression of AplD in aplD− slugs rescued the susceptibility toward K. pneumoniae. The purified recombinant protein rAplD formed pores in liposomes and was also capable of permeabilizing the membrane of live Bacillus megaterium. We propose that the multifarious Apl family of D. discoideum comprises antimicrobial effector polypeptides that are instrumental to interact with bacteria and their phospholipid membranes. The variety of its members would allow a complementary and synergistic action against a variety of microbes, which the amoeba encounters in its environment.

Published
2018
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42. When Dicty Met Myco, a (Not So) Romantic Story about One Amoeba and Its Intracellular Pathogen

Author

Elena Cardenal-Muñoz, Caroline Barisch, Louise H. Lefrançois, Ana T. López-Jiménez, and Thierry Soldati

Subjects
Dictyostelium discoideum, Mycobacterium marinum, host-pathogen interactions, model organisms, phagocytosis, infection, Microbiology, QR1-502
Abstract

In recent years, Dictyostelium discoideum has become an important model organism to study the cell biology of professional phagocytes. This amoeba not only shares many molecular features with mammalian macrophages, but most of its fundamental signal transduction pathways are conserved in humans. The broad range of existing genetic and biochemical tools, together with its suitability for cell culture and live microscopy, make D. discoideum an ideal and versatile laboratory organism. In this review, we focus on the use of D. discoideum as a phagocyte model for the study of mycobacterial infections, in particular Mycobacterium marinum. We look in detail at the intracellular cycle of M. marinum, from its uptake by D. discoideum to its active or passive egress into the extracellular medium. In addition, we describe the molecular mechanisms that both the mycobacterial invader and the amoeboid host have developed to fight against each other, and compare and contrast with those developed by mammalian phagocytes. Finally, we introduce the methods and specific tools that have been used so far to monitor the D. discoideum—M. marinum interaction.

Published
2018
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43. Eat Prey, Live: Dictyostelium discoideum As a Model for Cell-Autonomous Defenses

Author

Joe Dan Dunn, Cristina Bosmani, Caroline Barisch, Lyudmil Raykov, Louise H. Lefrançois, Elena Cardenal-Muñoz, Ana Teresa López-Jiménez, and Thierry Soldati

Subjects
Dictyostelium discoideum, cell-autonomous defense, phagocytosis, autophagy, metal poisoning, nutritional immunity, Immunologic diseases. Allergy, RC581-607
Abstract

The soil-dwelling social amoeba Dictyostelium discoideum feeds on bacteria. Each meal is a potential infection because some bacteria have evolved mechanisms to resist predation. To survive such a hostile environment, D. discoideum has in turn evolved efficient antimicrobial responses that are intertwined with phagocytosis and autophagy, its nutrient acquisition pathways. The core machinery and antimicrobial functions of these pathways are conserved in the mononuclear phagocytes of mammals, which mediate the initial, innate-immune response to infection. In this review, we discuss the advantages and relevance of D. discoideum as a model phagocyte to study cell-autonomous defenses. We cover the antimicrobial functions of phagocytosis and autophagy and describe the processes that create a microbicidal phagosome: acidification and delivery of lytic enzymes, generation of reactive oxygen species, and the regulation of Zn2+, Cu2+, and Fe2+ availability. High concentrations of metals poison microbes while metal sequestration inhibits their metabolic activity. We also describe microbial interference with these defenses and highlight observations made first in D. discoideum. Finally, we discuss galectins, TNF receptor-associated factors, tripartite motif-containing proteins, and signal transducers and activators of transcription, microbial restriction factors initially characterized in mammalian phagocytes that have either homologs or functional analogs in D. discoideum.

Published
2018
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44. A PI(3,5)P2 probe reveals PIKfyve is required for Rab7 acquisition and the delivery and fusion of early macropinosomes to phagosomes

Author

James H. Vines, Catherine M. Buckley, Hannes Maib, Aurelie Gueho, Thierry Soldati, David Murray, and Jason S. King

Abstract

Phosphoinositide signalling lipids (PIPs) are key regulators of membrane identity and vesicle trafficking. Of these, PI(3,5)P2 is one of the least understood, despite key roles in many endocytic pathways including phagocytosis and macropinocytosis. PI(3,5)P2 is predominantly generated by the phosphoinositide 5-kinase PIKfyve, and is critical for phagosomal digestion and the killing of engulfed microbes. However, the regulation of PIKfyve activity, PI(3,5)P2 dynamics, and how they control phagosome maturation remains unclear. Using the model professional phagocyte Dictyostelium discoideum we have identified a highly selective PI(3,5)P2-binding protein that allows faithful observation of PI(3,5)P2 dynamics in live cells. Using this probe we demonstrate that PIKfyve recruitment and activity are separable, and that PIKfyve activation stimulates its own dissociation from membranes. We show that PI(3,5)P2 accumulates on phagosomes 2-3 minutes after engulfment drives fusion of a specific population of PI(3,5)P2 and Rab7-positive macropinosomes. We find PIKfyve is required for the fusion between macropinosomes and phagosomes, which enables phagosomes to efficiently accumulate Rab7 and other components of the lysosomal machinery. These findings uncover key mechanistic details of the role and regulation of PIKfyve/PI(3,5)P2 likely to have general relevance across endocytic pathways.

Published
2022

46. Mycobacterium marinum antagonistically induces an autophagic response while repressing the autophagic flux in a TORC1- and ESX-1-dependent manner.

Author

Elena Cardenal-Muñoz, Sonia Arafah, Ana Teresa López-Jiménez, Sébastien Kicka, Alexandra Falaise, Frauke Bach, Olivier Schaad, Jason S King, Monica Hagedorn, and Thierry Soldati

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Autophagy is a eukaryotic catabolic process also participating in cell-autonomous defence. Infected host cells generate double-membrane autophagosomes that mature in autolysosomes to engulf, kill and digest cytoplasmic pathogens. However, several bacteria subvert autophagy and benefit from its machinery and functions. Monitoring infection stages by genetics, pharmacology and microscopy, we demonstrate that the ESX-1 secretion system of Mycobacterium marinum, a close relative to M. tuberculosis, upregulates the transcription of autophagy genes, and stimulates autophagosome formation and recruitment to the mycobacteria-containing vacuole (MCV) in the host model organism Dictyostelium. Antagonistically, ESX-1 is also essential to block the autophagic flux and deplete the MCV of proteolytic activity. Activators of the TORC1 complex localize to the MCV in an ESX-1-dependent manner, suggesting an important role in the manipulation of autophagy by mycobacteria. Our findings suggest that the infection by M. marinum activates an autophagic response that is simultaneously repressed and exploited by the bacterium to support its survival inside the MCV.

Published
2017
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47. Mycobacterium marinum Degrades Both Triacylglycerols and Phospholipids from Its Dictyostelium Host to Synthesise Its Own Triacylglycerols and Generate Lipid Inclusions.

Author

Caroline Barisch and Thierry Soldati

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

During a tuberculosis infection and inside lipid-laden foamy macrophages, fatty acids (FAs) and sterols are the major energy and carbon source for Mycobacterium tuberculosis. Mycobacteria can be found both inside a vacuole and the cytosol, but how this impacts their access to lipids is not well appreciated. Lipid droplets (LDs) store FAs in form of triacylglycerols (TAGs) and are energy reservoirs of prokaryotes and eukaryotes. Using the Dictyostelium discoideum/Mycobacterium marinum infection model we showed that M. marinum accesses host LDs to build up its own intracytosolic lipid inclusions (ILIs). Here, we show that host LDs aggregate at regions of the bacteria that become exposed to the cytosol, and appear to coalesce on their hydrophobic surface leading to a transfer of diacylglycerol O-acyltransferase 2 (Dgat2)-GFP onto the bacteria. Dictyostelium knockout mutants for both Dgat enzymes are unable to generate LDs. Instead, the excess of exogenous FAs is esterified predominantly into phospholipids, inducing uncontrolled proliferation of the endoplasmic reticulum (ER). Strikingly, in absence of host LDs, M. marinum alternatively exploits these phospholipids, resulting in rapid reversal of ER-proliferation. In addition, the bacteria are unable to restrict their acquisition of lipids from the dgat1&2 double knockout leading to vast accumulation of ILIs. Recent data indicate that the presence of ILIs is one of the characteristics of dormant mycobacteria. During Dictyostelium infection, ILI formation in M. marinum is not accompanied by a significant change in intracellular growth and a reduction in metabolic activity, thus providing evidence that storage of neutral lipids does not necessarily induce dormancy.

Published
2017
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48. Inhibitors of Mycobacterium marinum virulence identified in a Dictyostelium discoideum host model.

Author

Hajer Ouertatani-Sakouhi, Sébastien Kicka, Gianpaolo Chiriano, Christopher F Harrison, Hubert Hilbi, Leonardo Scapozza, Thierry Soldati, and Pierre Cosson

Subjects
Medicine, Science
Abstract

Tuberculosis remains one of the major threats to public health worldwide. Given the prevalence of multi drug resistance (MDR) in Mycobacterium tuberculosis strains, there is a strong need to develop new anti-mycobacterial drugs with modes of action distinct from classical antibiotics. Inhibitors of mycobacterial virulence might target new molecular processes and may represent a potential new therapeutic alternative. In this study, we used a Dictyostelium discoideum host model to assess virulence of Mycobacterium marinum and to identify compounds inhibiting mycobacterial virulence. Among 9995 chemical compounds, we selected 12 inhibitors of mycobacterial virulence that do not inhibit mycobacterial growth in synthetic medium. Further analyses revealed that 8 of them perturbed functions requiring an intact mycobacterial cell wall such as sliding motility, bacterial aggregation or cell wall permeability. Chemical analogs of two compounds were analyzed. Chemical modifications altered concomitantly their effect on sliding motility and on mycobacterial virulence, suggesting that the alteration of the mycobacterial cell wall caused the loss of virulence. We characterized further one of the selected compounds and found that it inhibited the ability of mycobacteria to replicate in infected cells. Together these results identify new antimycobacterial compounds that represent new tools to unravel the molecular mechanisms controlling mycobacterial pathogenicity. The isolation of compounds with anti-virulence activity is the first step towards developing new antibacterial treatments.

Published
2017
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49. Open Source Drug Discovery with the Malaria Box Compound Collection for Neglected Diseases and Beyond.

Author

Wesley C Van Voorhis, John H Adams, Roberto Adelfio, Vida Ahyong, Myles H Akabas, Pietro Alano, Aintzane Alday, Yesmalie Alemán Resto, Aishah Alsibaee, Ainhoa Alzualde, Katherine T Andrews, Simon V Avery, Vicky M Avery, Lawrence Ayong, Mark Baker, Stephen Baker, Choukri Ben Mamoun, Sangeeta Bhatia, Quentin Bickle, Lotfi Bounaadja, Tana Bowling, Jürgen Bosch, Lauren E Boucher, Fabrice F Boyom, Jose Brea, Marian Brennan, Audrey Burton, Conor R Caffrey, Grazia Camarda, Manuela Carrasquilla, Dee Carter, Maria Belen Cassera, Ken Chih-Chien Cheng, Worathad Chindaudomsate, Anthony Chubb, Beatrice L Colon, Daisy D Colón-López, Yolanda Corbett, Gregory J Crowther, Noemi Cowan, Sarah D'Alessandro, Na Le Dang, Michael Delves, Joseph L DeRisi, Alan Y Du, Sandra Duffy, Shimaa Abd El-Salam El-Sayed, Michael T Ferdig, José A Fernández Robledo, David A Fidock, Isabelle Florent, Patrick V T Fokou, Ani Galstian, Francisco Javier Gamo, Suzanne Gokool, Ben Gold, Todd Golub, Gregory M Goldgof, Rajarshi Guha, W Armand Guiguemde, Nil Gural, R Kiplin Guy, Michael A E Hansen, Kirsten K Hanson, Andrew Hemphill, Rob Hooft van Huijsduijnen, Takaaki Horii, Paul Horrocks, Tyler B Hughes, Christopher Huston, Ikuo Igarashi, Katrin Ingram-Sieber, Maurice A Itoe, Ajit Jadhav, Amornrat Naranuntarat Jensen, Laran T Jensen, Rays H Y Jiang, Annette Kaiser, Jennifer Keiser, Thomas Ketas, Sebastien Kicka, Sunyoung Kim, Kiaran Kirk, Vidya P Kumar, Dennis E Kyle, Maria Jose Lafuente, Scott Landfear, Nathan Lee, Sukjun Lee, Adele M Lehane, Fengwu Li, David Little, Liqiong Liu, Manuel Llinás, Maria I Loza, Aristea Lubar, Leonardo Lucantoni, Isabelle Lucet, Louis Maes, Dalu Mancama, Nuha R Mansour, Sandra March, Sheena McGowan, Iset Medina Vera, Stephan Meister, Luke Mercer, Jordi Mestres, Alvine N Mfopa, Raj N Misra, Seunghyun Moon, John P Moore, Francielly Morais Rodrigues da Costa, Joachim Müller, Arantza Muriana, Stephen Nakazawa Hewitt, Bakela Nare, Carl Nathan, Nathalie Narraidoo, Sujeevi Nawaratna, Kayode K Ojo, Diana Ortiz, Gordana Panic, George Papadatos, Silvia Parapini, Kailash Patra, Ngoc Pham, Sarah Prats, David M Plouffe, Sally-Ann Poulsen, Anupam Pradhan, Celia Quevedo, Ronald J Quinn, Christopher A Rice, Mohamed Abdo Rizk, Andrea Ruecker, Robert St Onge, Rafaela Salgado Ferreira, Jasmeet Samra, Natalie G Robinett, Ulrich Schlecht, Marjorie Schmitt, Filipe Silva Villela, Francesco Silvestrini, Robert Sinden, Dennis A Smith, Thierry Soldati, Andreas Spitzmüller, Serge Maximilian Stamm, David J Sullivan, William Sullivan, Sundari Suresh, Brian M Suzuki, Yo Suzuki, S Joshua Swamidass, Donatella Taramelli, Lauve R Y Tchokouaha, Anjo Theron, David Thomas, Kathryn F Tonissen, Simon Townson, Abhai K Tripathi, Valentin Trofimov, Kenneth O Udenze, Imran Ullah, Cindy Vallieres, Edgar Vigil, Joseph M Vinetz, Phat Voong Vinh, Hoan Vu, Nao-Aki Watanabe, Kate Weatherby, Pamela M White, Andrew F Wilks, Elizabeth A Winzeler, Edward Wojcik, Melanie Wree, Wesley Wu, Naoaki Yokoyama, Paul H A Zollo, Nada Abla, Benjamin Blasco, Jeremy Burrows, Benoît Laleu, Didier Leroy, Thomas Spangenberg, Timothy Wells, and Paul A Willis

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

A major cause of the paucity of new starting points for drug discovery is the lack of interaction between academia and industry. Much of the global resource in biology is present in universities, whereas the focus of medicinal chemistry is still largely within industry. Open source drug discovery, with sharing of information, is clearly a first step towards overcoming this gap. But the interface could especially be bridged through a scale-up of open sharing of physical compounds, which would accelerate the finding of new starting points for drug discovery. The Medicines for Malaria Venture Malaria Box is a collection of over 400 compounds representing families of structures identified in phenotypic screens of pharmaceutical and academic libraries against the Plasmodium falciparum malaria parasite. The set has now been distributed to almost 200 research groups globally in the last two years, with the only stipulation that information from the screens is deposited in the public domain. This paper reports for the first time on 236 screens that have been carried out against the Malaria Box and compares these results with 55 assays that were previously published, in a format that allows a meta-analysis of the combined dataset. The combined biochemical and cellular assays presented here suggest mechanisms of action for 135 (34%) of the compounds active in killing multiple life-cycle stages of the malaria parasite, including asexual blood, liver, gametocyte, gametes and insect ookinete stages. In addition, many compounds demonstrated activity against other pathogens, showing hits in assays with 16 protozoa, 7 helminths, 9 bacterial and mycobacterial species, the dengue fever mosquito vector, and the NCI60 human cancer cell line panel of 60 human tumor cell lines. Toxicological, pharmacokinetic and metabolic properties were collected on all the compounds, assisting in the selection of the most promising candidates for murine proof-of-concept experiments and medicinal chemistry programs. The data for all of these assays are presented and analyzed to show how outstanding leads for many indications can be selected. These results reveal the immense potential for translating the dispersed expertise in biological assays involving human pathogens into drug discovery starting points, by providing open access to new families of molecules, and emphasize how a small additional investment made to help acquire and distribute compounds, and sharing the data, can catalyze drug discovery for dozens of different indications. Another lesson is that when multiple screens from different groups are run on the same library, results can be integrated quickly to select the most valuable starting points for subsequent medicinal chemistry efforts.

Published
2016
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50. Second-order agent-based models of emergent behaviour of Dictyostelium discoideum and their inspiration for swarm robotics

Author

Assane Wade, Thierry Soldati, Mohammad Parhizkar, Giovanna Di Marzo Serugendo, Louis Hellequin, and Jahn Nitschke

Subjects
0303 health sciences, 0209 industrial biotechnology, biology, Computer science, Swarm robotics, 02 engineering and technology, biology.organism_classification, General Biochemistry, Genetics and Molecular Biology, Dictyostelium discoideum, 03 medical and health sciences, 020901 industrial engineering & automation, Artificial Intelligence, Collective adaptive systems, Artificial systems, Cell density, Biological system, 030304 developmental biology
Abstract

Collective behaviour in nature provides a source of inspiration to engineer artificial collective adaptive systems, due to their mechanisms favouring adaptation to environmental changes and enabling complex emergent behaviour to arise from a relatively simple behaviour of individual entities. As part of our ongoing research, we study the social amoeba Dictyostelium discoideum to derive agent-based models and mechanisms that we can then exploit in artificial systems, in particular in swarm robotics. In this paper, we present a selection of agent-based models of the aggregation phase of D. discoideum, their corresponding biological illustrations and how we used them as an inspiration for transposing this behaviour into swarms of Kilobots. We focus on the stream-breaking phenomenon occurring during the aggregation phase of the life cycle of D. discoideum. Results show that the breakup of aggregation streams depends on cell density, motility, motive force and the concentration of cAMP and CF. The breakup also comes with the appearance of late centres. Our computational results show similar behaviour to our biological experiments, using Ax2(ka) strain. For swarm robotics experiments, we focus on signalling and aggregation towards a centre.

Published
2020

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