Measles virus exits human airway epithelia via infectious center sloughing (original) (raw)
Measles virus exits human airway epithelia within dislodged metabolically active infectious centers
Roberto Cattaneo
PLOS Pathogens, 2021
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Measles Virus Preferentially Transduces the Basolateral Surface of Well-Differentiated Human Airway Epithelia
Roberto Cattaneo
Journal of Virology, 2002
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Measles Virus Ribonucleoprotein Complexes Rapidly Spread across Well-Differentiated Primary Human Airway Epithelial Cells along F-Actin Rings
Roberto Cattaneo
MBio, 2019
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Measles virus blind to its epithelial cell receptor remains virulent in rhesus monkeys but cannot cross the airway epithelium and is not shed
Roberto Cattaneo
Journal of Clinical Investigation, 2008
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Measles virus infection of epithelial cells in the macaque upper respiratory tract is mediated by sub-epithelial immune cells
Geert Van Amerongen
Journal of virology, 2013
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Cell-to-Cell Contact and Nectin-4 Govern Spread of Measles Virus from Primary Human Myeloid Cells to Primary Human Airway Epithelial Cells
Roberto Cattaneo
Journal of virology, 2016
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The nectin-4/afadin protein complex and intercellular membrane pores contribute to rapid spread of measles virus in primary human airway epithelia
Crystal Mendoza
Journal of Virology, 2015
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Measles Virus Infection of Primary Respiratory Epithelial Cells Derived from Rhesus Macaques
Erin Lalime
2011
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Infection of lymphoid tissues in the macaque upper respiratory tract contributes to the emergence of transmissible measles virus
Geert Van Amerongen
The Journal of general virology, 2013
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Measles virus matrix protein specifies apical virus release and glycoprotein sorting in epithelial cells
Elisabeth Ehler
The EMBO Journal, 2000
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Stronger together: Multi-genome transmission of measles virus
Roberto Cattaneo
Virus Research, 2019
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Immunological landscape of human lymph nodes during ex vivo measles virus infection
Aum Patel
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Propagation of respiratory viruses in human airway epithelia reveals persistent virus-specific signatures
Francisco joao Brito
The Journal of allergy and clinical immunology, 2017
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Measles Virus Infects both Polarized Epithelial and Immune Cells by Using Distinctive Receptor-Binding Sites on Its Hemagglutinin
Shinji Ohno
Journal of Virology, 2008
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Vaccinia Virus Entry, Exit, and Interaction with Differentiated Human Airway Epithelia
Paola Vermeer
Journal of Virology, 2007
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Direct cell-to-cell transmission of respiratory viruses: The fast lanes
Roberto Cattaneo
PLOS Pathogens, 2018
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Cyclical adaptation of measles virus quasispecies to epithelial and lymphocytic cells: To V, or not to V
Roberto Cattaneo
PLOS Pathogens, 2019
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Intracellular Transport of the Measles Virus Ribonucleoprotein Complex Is Mediated by Rab11A-Positive Recycling Endosomes and Drives Virus Release from the Apical Membrane of Polarized Epithelial Cells
Katsuhiro Komase
Journal of Virology, 2013
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Measles virus: Evolution of a persistent infection in BGM cells
Timothy Greenland
Archives of Virology, 1981
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Measles virus M and F proteins associate with detergent-resistant membrane fractions and promote formation of virus-like particles
Georg Krohne
Journal of General Virology, 2007
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Efficiency of Measles Virus Entry and Dissemination through Different Receptors
Veronika von Messling
Journal of Virology, 2002
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Measles virus: cellular receptors, tropism and pathogenesis
Shinji Ohno
Journal of General Virology, 2006
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Measles Virus Contact with T Cells Impedes Cytoskeletal Remodeling Associated with Spreading, Polarization, and CD3 Clustering
Georg Krohne
Traffic, 2006
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Measles virus spread and pathogenesis in genetically modified mice
Dennis Hourcade, Roberto Cattaneo
Journal of virology, 1998
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Establishment of Primary Transgenic Human Airway Epithelial Cell Cultures to Study Respiratory Virus–Host Interactions
Dirk Geerts
Viruses, 2019
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Respiratory Syncytial Virus Can Infect Basal Cells and Alter Human Airway Epithelial Differentiation
Henry Danahay, Rachel Fearns
PLoS ONE, 2014
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The role of host factors in measles virus persistence
Lee Dunster
Seminars in Virology, 1994
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Inefficient Measles Virus Budding in Murine L.CD46 Fibroblasts
Serge Manié
Virology, 1999
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Needle-free delivery of measles virus vaccine to the lower respiratory tract of non-human primates elicits optimal immunity and protection
Geert Van Amerongen
npj Vaccines
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Evolution of T Cell Responses during Measles Virus Infection and RNA Clearance
Nicole Putnam
Scientific Reports
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Measles virus infection induces terminal differentiation of human thymic epithelial cells
Branka Horvat
Journal of virology, 1999
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