N,Title,Authors,Journal,Date,Team,Url
1,"Leptospiral lipopolysaccharide dampens inflammation through upregulation of autophagy adaptor p62 and NRF2 signaling in macrophages.","Bonhomme D, Santecchia I, Escoll P, Papadopoulos S, Vernel-Pauillac F, Boneca IG, Werts C","Microbes and infection",'2023-12-09,"Biology and Genetics of Bacterial Cell Wall, UMR6047 – Integrative and Molecular Microbiology, U1306 – Host-Microbe interactions and pathophysiology, Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/leptospiral-lipopolysaccharide-dampens-inflammation-through-upregulation-of-autophagy-adaptor-p62-and-nrf2-signaling-in-macrophages/
2,"High-content assay to measure mitochondrial function and bacterial vacuole size in infected human primary macrophages.","Dramé M, Garcia-Rodriguez FJ, Buchrieser C, Escoll P, ","STAR protocols",'2023-03-17,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/high-content-assay-to-measure-mitochondrial-function-and-bacterial-vacuole-size-in-infected-human-primary-macrophages/
3,"Legionella and mitochondria, an intriguing relationship.","García-Rodríguez FJ, Buchrieser C, Escoll P, ","International review of cell and molecular biology",'2023-01-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/legionella-and-mitochondria-an-intriguing-relationship/
4,"Chromosome-scale assemblies of Acanthamoeba castellanii genomes provide insights into Legionella pneumophila infection-related chromatin reorganization.","Matthey-Doret C, Colp MJ, Escoll P, Thierry A, Moreau P, Curtis B, Sahr T, Sarrasin M, Gray MW, Lang BF, Archibald JM, Buchrieser C, Koszul R, ","Genome research",'2022-09-15,"Spatial Regulation of Genomes, Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/chromosome-scale-assemblies-of-acanthamoeba-castellanii-genomes-provide-insights-into-legionella-pneumophila-infection-related-chromatin-reorganization/
5,"Translocated Legionella pneumophila small RNAs mimic eukaryotic microRNAs targeting the host immune response.","Sahr T, Escoll P, Rusniok C, Bui S, Pehau-Arnaudet G, Lavieu G, Buchrieser C, ","Nature communications",'2022-02-09,"Biology Of Intracellular Bacteria, Ultrastructural BioImaging",https://research.pasteur.fr/en/publication/translocated-legionella-pneumophila-small-rnas-mimic-eukaryotic-micrornas-targeting-the-host-immune-response/
6,"Alive Pathogenic and Saprophytic Leptospires Enter and Exit Human and Mouse Macrophages With No Intracellular Replication.","Santecchia I, Bonhomme D, Papadopoulos S, Escoll P, Giraud-Gatineau A, Moya-Nilges M, Vernel-Pauillac F, Boneca IG, Werts C","Frontiers in cellular and infection microbiology",'2022-01-01,"Biology and Genetics of Bacterial Cell Wall, Biology Of Intracellular Bacteria, Biology of Spirochetes, Ultrastructural BioImaging, U1306 – Host-Microbe interactions and pathophysiology",https://research.pasteur.fr/en/publication/alive-pathogenic-and-saprophytic-leptospires-enter-and-exit-human-and-mouse-macrophages-with-no-intracellular-replication/
7,"Reverting the mode of action of the mitochondrial F O F 1-ATPase by Legionella pneumophila preserves its replication niche"," Pedro Escoll, Lucien Platon, Mariatou Dramé, Tobias Sahr, Silke Schmidt, Christophe Rusniok, Carmen Buchrieser",eLife,'2021-12-09,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/reverting-the-mode-of-action-of-the-mitochondrial-f-o-f-1-atpase-by-legionella-pneumophila-preserves-its-replication-niche/
8,"Dichotomous metabolic networks govern human ILC2 proliferation and function.","Surace L, Doisne JM, Croft CA, Thaller A, Escoll P, Marie S, Petrosemoli N, Guillemot V, Dardalhon V, Topazio D, Cama A, Buchrieser C, Taylor N, Amit I, Musumeci O, Di Santo JP, ","Nature immunology",'2021-10-22,"Innate Immunity, Biology Of Intracellular Bacteria, Bioinformatics and Biostatistics HUB, U1223 – Pathophysiology of the immune system, Expertise group : SysBio – System Bioinformatics",https://research.pasteur.fr/en/publication/dichotomous-metabolic-networks-govern-human-ilc2-proliferation-and-function/
9,"Danger-associated Metabolic Modifications During Bacterial Infection of Macrophages"," Mariatou Dramé, Carmen Buchrieser, Pedro Escoll",,'2020-05-24,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/danger-associated-metabolic-modifications-during-bacterial-infection-of-macrophages/
10,"Legionnaires’ Disease: State of the Art Knowledge of Pathogenesis Mechanisms of Legionella.","Mondino S, Schmidt S, Rolando M, Escoll P, Gomez-Valero L, Buchrieser C, ","Annual review of pathology",'2020-01-24,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/legionnaires-disease-state-of-the-art-knowledge-of-pathogenesis-mechanisms-of/
11,"Roles of Mitochondrial Respiratory Complexes during Infection","Escoll P, Platon L, Buchrieser C",Immunometabolism,'2019-08-30,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/roles-of-mitochondrial-respiratory-complexes-during-infection/
12,"Metabolic reprogramming: an innate cellular defence mechanism against intracellular bacteria?","Escoll P, Buchrieser C","Current opinion in immunology",'2019-06-24,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/metabolic-reprogramming-an-innate-cellular-defence-mechanism-against-intracellular-bacteria/
13,"Mitochondrial Dynamics and Activity in Legionella-Infected Cells","Song OR, Brodin P, Buchrieser C, Escoll P","Methods in molecular biology (Clifton, N.J.)",'2019-01-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/mitochondrial-dynamics-and-activity-in-legionella-infected-cells/
14,"Metabolic reprogramming of host cells upon bacterial infection: Why shift to a Warburg-like metabolism?","Escoll P, Buchrieser C","The FEBS journal",'2018-04-14,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/metabolic-reprogramming-of-host-cells-upon-bacterial-infection-why-shift-to-a-warburg-like-metabolism/
15,"Legionella pneumophila CsrA regulates a metabolic switch from amino acid to glycerolipid metabolism.","Häuslein, Sahr T, Escoll P, Klausner N, Eisenreich W, Buchrieser C","Open Biology",'2017-11-07,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/legionella-pneumophila-csra-regulates-a-metabolic-switch-from-amino-acid-to-glycerolipid-metabolism/
16,"Manipulation of Autophagy by Bacterial Pathogens Impacts Host Immunity","Kunz TC, Viana F, Buchrieser C, Escoll P","Current issues in molecular biology",'2017-09-06,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/manipulation-of-autophagy-by-bacterial-pathogens-impacts-host-immunity/
17,"Legionella pneumophila Modulates Mitochondrial Dynamics to Trigger Metabolic Repurposing of Infected Macrophages","Escoll P, Song OR, Viana F, Steiner B, Lagache T, Olivo-Marin JC, Impens F, Brodin P, Hilbi H, Buchrieser C","Cell host & microbe",'2017-08-31,"Biology Of Intracellular Bacteria, Tech Lab, Biological Image Analysis",https://research.pasteur.fr/en/publication/legionella-pneumophila-modulates-mitochondrial-dynamics-to-trigger-metabolic-repurposing-of-infected-macrophages/
18,"MAMs are attractive targets for bacterial repurposing of the host cell: MAM-functions might be key for undermining an infected cell","Escoll P, Rolando M, Buchrieser C","BioEssays : news and reviews in molecular, cellular and developmental biology",'2016-12-27,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/mams-are-attractive-targets-for-bacterial-repurposing-of-the-host-cell-mam-functions-might-be-key-for-undermining-an-infected-cell/
19,"Legionella longbeachae is immunologically silent and highly virulent in vivo","Massis LM, Assis-Marques MA, Castanheira FV, Capobianco YJ, Balestra AC, Escoll P, Wood RE, Manin GZ, Correa VM, Alves-Filho JC, Cunha FQ, Buchrieser C, Borges MC, Newton HJ, Zamboni DS","The Journal of infectious diseases",'2016-12-08,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/__trashed/
20,"Legionella pneumophila restrains autophagy by modulating the host’s sphingolipid metabolism","Rolando M, Escoll P, Buchrieser C",Autophagy,'2016-05-18,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/legionella-pneumophila-restrains-autophagy-by-modulating-the-hosts-sphingolipid-metabolism/
21,"Modulation of Host Autophagy during Bacterial Infection: Sabotaging Host Munitions for Pathogen Nutrition","Escoll P, Rolando M, Buchrieser C","Frontiers in immunology",'2016-03-03,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/modulation-of-host-autophagy-during-bacterial-infection-sabotaging-host-munitions-for-pathogen-nutrition/
22,"Legionella pneumophila S1P-lyase targets host sphingolipid metabolism and restrains autophagy","Rolando M, Escoll P, Nora T, Botti J, Boitez V, Bedia C, Daniels C, Abraham G, Stogios PJ, Skarina T, Christophe C, Dervins-Ravault D, Cazalet C, Hilbi H, Rupasinghe TW, Tull D, McConville MJ, Ong SY, Hartland EL, Codogno P, Levade T, Naderer T, Savchenko A, Buchrieser C","Proceedings of the National Academy of Sciences of the United States of America",'2016-02-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/legionella-pneumophila-s1p-lyase-targets-host-sphingolipid-metabolism-and-restrains-autophagy/
23,"Targeting of host organelles by pathogenic bacteria: a sophisticated subversion strategy","Escoll P, Mondino S, Rolando M, Buchrieser C","Nature reviews. Microbiology",'2016-01-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/targeting-of-host-organelles-by-pathogenic-bacteria-a-sophisticated-subversion-strategy/
24,"Sustained interleukin-1β exposure modulates multiple steps in glucocorticoid receptor signaling, promoting split-resistance to the transactivation of prominent anti-inflammatory genes by glucocorticoids","Escoll P, Ranz I, Muñoz-Antón N, van-den-Rym A, Alvarez-Mon M, Martínez-Alonso C, Sanz E, de-la-Hera A","Mediators of inflammation",'2015-04-22,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/sustained-interleukin-1%ce%b2-exposure-modulates-multiple-steps-in-glucocorticoid-receptor-signaling-promoting-split-resistance-to-the-transactivation-of-prominent-anti-inflammatory-genes-by-glucocor/
25,"TLR9 activation is triggered by the excess of stimulatory versus inhibitory motifs present in Trypanosomatidae DNA","Khan ME, Borde C, Rocha EP, Mériaux V, Maréchal V, Escoll P, Goyard S, Cavaillon JM, Manoury B, Doyen N","PLoS neglected tropical diseases",'2014-11-13,"Microbial Evolutionary Genomics, Archived: Cytokines and Inflammation, Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/tlr9-activation-is-triggered-by-the-excess-of-stimulatory-versus-inhibitory-motifs-present-in-trypanosomatidae-dna/
26,"Neuronal injury external to the retina rapidly activates retinal glia, followed by elevation of markers for cell cycle re-entry and death in retinal ganglion cells","Galan A, Dergham P, Escoll P, de-la-Hera A, D'Onofrio PM, Magharious MM, Koeberle PD, Frade JM, Saragovi HU","PloS one",'2014-07-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/neuronal-injury-external-to-the-retina-rapidly-activates-retinal-glia-followed-by-elevation-of-markers-for-cell-cycle-re-entry-and-death-in-retinal-ganglion-cells/
27,"From amoeba to macrophages: exploring the molecular mechanisms of Legionella pneumophila infection in both hosts.","Escoll P, Rolando M, Gomez-Valero L, Buchrieser C","Current topics in microbiology and immunology",'2013-01-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/from-amoeba-to-macrophages-exploring-the-molecular-mechanisms-of-legionella-pneumophila-infection-in-both-hosts/
28,"Ordering human CD34+CD10-CD19+ pre/pro-B-cell and CD19- common lymphoid progenitor stages in two pro-B-cell development pathways","Sanz E, Muñoz-A N, Monserrat J, Van-Den-Rym A, Escoll P, Ranz I, Alvarez-Mon M, de-la-Hera A","Proceedings of the National Academy of Sciences of the United States of America",'2010-03-15,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/ordering-human-cd34cd10-cd19-prepro-b-cell-and-cd19-common-lymphoid-progenitor-stages-in-two-pro-b-cell-development-pathways/
29,"Somatic tetraploidy in specific chick retinal ganglion cells induced by nerve growth factor","Morillo SM, Escoll P, de la Hera A, Frade JM","Proceedings of the National Academy of Sciences of the United States of America",'2009-12-14,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/somatic-tetraploidy-in-specific-chick-retinal-ganglion-cells-induced-by-nerve-growth-factor/
30,"Tumor cells deactivate human monocytes by up-regulating IL-1 receptor associated kinase-M expression via CD44 and TLR4","del Fresno C, Otero K, Gómez-García L, González-León MC, Soler-Ranger L, Fuentes-Prior P, Escoll P, Baos R, Caveda L, García F, Arnalich F, López-Collazo E","Journal of immunology (Baltimore, Md. : 1950)",'2005-03-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/tumor-cells-deactivate-human-monocytes-by-up-regulating-il-1-receptor-associated-kinase-m-expression-via-cd44-and-tlr4/
31,"Nitric oxide activates the expression of IRAK-M via the release of TNF-alpha in human monocytes","del Fresno C, Gómez-García L, Caveda L, Escoll P, Arnalich F, Zamora R, López-Collazo E","Nitric oxide : biology and chemistry / official journal of the Nitric Oxide Society",'2004-06-01,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/nitric-oxide-activates-the-expression-of-irak-m-via-the-release-of-tnf-alpha-in-human-monocytes/
32,"Rapid up-regulation of IRAK-M expression following a second endotoxin challenge in human monocytes and in monocytes isolated from septic patients","Escoll P, del Fresno C, García L, Vallés G, Lendínez MJ, Arnalich F, López-Collazo E","Biochemical and biophysical research communications",'2003-11-14,"Biology Of Intracellular Bacteria",https://research.pasteur.fr/en/publication/rapid-up-regulation-of-irak-m-expression-following-a-second-endotoxin-challenge-in-human-monocytes-and-in-monocytes-isolated-from-septic-patients/