Modulation of Immune Responses by Particle Size and Shape

Modulation of Immune Responses by Particle Size and Shape

The immune system has to cope with a wide range of irregularly shaped pathogens that can actively move (e.g., by flagella) and also dynamically remodel their shape (e.g., transition from yeast-shaped to hyphal fungi). The goal of this review is to draw general conclusions of how the size and geometr...

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Veröffentlicht in:Frontiers in immunology 2021-02, Vol.11, p.607945-607945
Hauptverfasser: Baranov, Maksim V, Kumar, Manoj, Sacanna, Stefano, Thutupalli, Shashi, van den Bogaart, Geert
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Cytoskeleton - immunology
Cytoskeleton - metabolism
Cytoskeleton - microbiology
Endocytosis
F-actin (filamentous actin)
Fungi - immunology
Fungi - pathogenicity
Host-Pathogen Interactions
Humans
Immune System - immunology
Immune System - metabolism
Immune System - microbiology
Immunology
Inflammasomes - metabolism
Lymphocyte Activation
Models, Theoretical
Particle Size
pathogens
Phagocytosis
Surface Properties
T-Lymphocytes - immunology
T-Lymphocytes - metabolism
T-Lymphocytes - microbiology
vaccination
Virion - immunology
Virion - pathogenicity
Viruses - immunology
Viruses - pathogenicity
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Beschreibung
Zusammenfassung:The immune system has to cope with a wide range of irregularly shaped pathogens that can actively move (e.g., by flagella) and also dynamically remodel their shape (e.g., transition from yeast-shaped to hyphal fungi). The goal of this review is to draw general conclusions of how the size and geometry of a pathogen affect its uptake and processing by phagocytes of the immune system. We compared both theoretical and experimental studies with different cells, model particles, and pathogenic microbes (particularly fungi) showing that particle size, shape, rigidity, and surface roughness are important parameters for cellular uptake and subsequent immune responses, particularly inflammasome activation and T cell activation. Understanding how the physical properties of particles affect immune responses can aid the design of better vaccines.
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2020.607945