Enhanced Macrophage M1 Polarization and Resistance to Apoptosis Enable Resistance to Plague.

Pachulec, Emilia; Abdelwahed Bagga, Rym Ben; Chevallier, Lucie; O'Donnell, Hope; Guillas, Chloé; Jaubert, Jean; Montagutelli, Xavier; Carniel, Elisabeth; Demeure, Christian E

Pachulec, Emilia; Abdelwahed Bagga, Rym Ben; Chevallier, Lucie; O'Donnell, Hope; Guillas, Chloé; Jaubert, Jean; Montagutelli, Xavier; Carniel, Elisabeth; Demeure, Christian E.

Affiliation

Pachulec E; Yersinia Research Unit, Microbiology Department, Institut Pasteur.
Abdelwahed Bagga RB; Yersinia Research Unit, Microbiology Department, Institut Pasteur.
Chevallier L; Mouse Functional Genetics Unit, Department of Developmental & Stem Cell Biology, Institut Pasteur, and CNRS URA2578, Paris,France.
O'Donnell H; Yersinia Research Unit, Microbiology Department, Institut Pasteur.
Guillas C; Yersinia Research Unit, Microbiology Department, Institut Pasteur.
Jaubert J; Mouse Functional Genetics Unit, Department of Developmental & Stem Cell Biology, Institut Pasteur, and CNRS URA2578, Paris,France.
Montagutelli X; Mouse Functional Genetics Unit, Department of Developmental & Stem Cell Biology, Institut Pasteur, and CNRS URA2578, Paris,France.
Carniel E; Yersinia Research Unit, Microbiology Department, Institut Pasteur.
Demeure CE; Yersinia Research Unit, Microbiology Department, Institut Pasteur.

J Infect Dis ; 216(6): 761-770, 2017 09 15.

Article in En | MEDLINE | ID: mdl-28934426

Subject(s)
Key words

M1 macrophage polarization; SEG mice; Yersinia pestis; apoptosis; inflammation

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Plague / Yersinia pestis / Apoptosis / Macrophages Limits: Animals Language: En Journal: J Infect Dis Year: 2017 Document type: Article Country of publication:

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