Literature DB >> 33679696

Modulation of Immune Responses by Particle Size and Shape.

Maksim V Baranov1, Manoj Kumar2, Stefano Sacanna3, Shashi Thutupalli2,4, Geert van den Bogaart1.   

Abstract

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.
Copyright © 2021 Baranov, Kumar, Sacanna, Thutupalli and van den Bogaart.

Entities:  

Keywords:  F-actin (filamentous actin); endocytosis; pathogens; phagocytosis; vaccination

Year:  2021        PMID: 33679696      PMCID: PMC7927956          DOI: 10.3389/fimmu.2020.607945

Source DB:  PubMed          Journal:  Front Immunol        ISSN: 1664-3224            Impact factor:   7.561


  210 in total

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Authors:  Julie A Champion; Samir Mitragotri
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2.  Elastic area compressibility modulus of red cell membrane.

Authors:  E A Evans; R Waugh; L Melnik
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3.  Plasma membrane tension orchestrates membrane trafficking, cytoskeletal remodeling, and biochemical signaling during phagocytosis.

Authors:  Thomas A Masters; Bruno Pontes; Virgile Viasnoff; You Li; Nils C Gauthier
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Review 4.  Classes of phosphoinositide 3-kinases at a glance.

Authors:  Steve Jean; Amy A Kiger
Journal:  J Cell Sci       Date:  2014-03-01       Impact factor: 5.285

5.  Influence of particle geometry and PEGylation on phagocytosis of particulate carriers.

Authors:  Roman Mathaes; Gerhard Winter; Ahmed Besheer; Julia Engert
Journal:  Int J Pharm       Date:  2014-02-21       Impact factor: 5.875

6.  Cryptococcus neoformans enters the endolysosomal pathway of dendritic cells and is killed by lysosomal components.

Authors:  Karen L Wozniak; Stuart M Levitz
Journal:  Infect Immun       Date:  2008-08-04       Impact factor: 3.441

Review 7.  Role of phospholipids in endocytosis, phagocytosis, and macropinocytosis.

Authors:  Michal Bohdanowicz; Sergio Grinstein
Journal:  Physiol Rev       Date:  2013-01       Impact factor: 37.312

8.  Stage specific assessment of Candida albicans phagocytosis by macrophages identifies cell wall composition and morphogenesis as key determinants.

Authors:  Leanne E Lewis; Judith M Bain; Christina Lowes; Collette Gillespie; Fiona M Rudkin; Neil A R Gow; Lars-Peter Erwig
Journal:  PLoS Pathog       Date:  2012-03-15       Impact factor: 6.823

Review 9.  PLGA particulate delivery systems for subunit vaccines: Linking particle properties to immunogenicity.

Authors:  A L Silva; P C Soema; B Slütter; F Ossendorp; W Jiskoot
Journal:  Hum Vaccin Immunother       Date:  2016-01-11       Impact factor: 3.452

Review 10.  Fungal Strategies to Evade the Host Immune Recognition.

Authors:  Marco J Hernández-Chávez; Luis A Pérez-García; Gustavo A Niño-Vega; Héctor M Mora-Montes
Journal:  J Fungi (Basel)       Date:  2017-09-23
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3.  Distinct timing of neutrophil spreading and stiffening during phagocytosis.

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Review 4.  Cationic Nanoparticle-Based Cancer Vaccines.

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5.  Inflammatory Response to Cobalt-Chromium Alloys Fabricated With Different Techniques.

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6.  Activation of NLRP3 Inflammasome by Virus-Like Particles of Human Polyomaviruses in Macrophages.

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Journal:  Front Immunol       Date:  2022-03-09       Impact factor: 7.561

Review 7.  Centrality of Myeloid-Lineage Phagocytes in Particle-Triggered Inflammation and Autoimmunity.

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Review 8.  Biological Nanoparticles in Vaccine Development.

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