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Literature DB >> 29577105

Immune responses to engineered nanomaterials: current understanding and challenges.

Abstract

Engineered nanomaterials (ENM) are utilized in many applications due to their unique physicochemical properties. The increasing use of ENMs in consumer products raises concerns of potential adverse effects in humans and the environment. A common outcome of exposure (intentional, environmental or occupational) to ENMs is altered immune responses including inflammation, hypersensitivity, and immunosuppression. ENMs have been shown to interact with the immune system through key effector cells (i.e. mast cells and antigen presenting cells) or via complement activation leading to consequences to both innate and adaptive immunity. Further, upon introduction into a biological system, ENMs are rapidly coated with proteins, lipids and other macromolecules forming a biocorona which impacts immune cell and complement responses. In this current opinion, we highlight key studies and challenges in understanding cellular mechanisms of ENM-mediated immunomodulation and toxicity.

Entities: Chemical Disease Gene Species

Keywords: Nanoparticles; immune activation; immune suppression; immunomodulation; nanotoxicology

Year: 2017 PMID： 29577105 PMCID： PMC5863933 DOI： 10.1016/j.cotox.2017.11.011

Source DB: PubMed Journal: Curr Opin Toxicol ISSN： 2468-2020

40 in total

1. Size-dependent immunogenicity: therapeutic and protective properties of nano-vaccines against tumors.

Authors: Theodora Fifis; Anita Gamvrellis; Blessing Crimeen-Irwin; Geoffrey A Pietersz; Jie Li; Patricia L Mottram; Ian F C McKenzie; Magdalena Plebanski
Journal: J Immunol Date: 2004-09-01 Impact factor: 5.422

2. Nanoparticle-induced unfolding of fibrinogen promotes Mac-1 receptor activation and inflammation.

Authors: Zhou J Deng; Mingtao Liang; Michael Monteiro; Istvan Toth; Rodney F Minchin
Journal: Nat Nanotechnol Date: 2010-12-19 Impact factor: 39.213

3. A carbon nanotube toxicity paradigm driven by mast cells and the IL-₃₃/ST₂ axis.

Authors: Pranita Katwa; Xiaojia Wang; Rakhee N Urankar; Ramakrishna Podila; Susana C Hilderbrand; Robert B Fick; Apparao M Rao; Pu Chun Ke; Christopher J Wingard; Jared M Brown
Journal: Small Date: 2012-07-06 Impact factor: 13.281

4. Zinc oxide nanoparticles provide an adjuvant effect to ovalbumin via a Th2 response in Balb/c mice.

Authors: Ruchi Roy; Sandeep Kumar; Alok K Verma; Akanksha Sharma; Bhushan P Chaudhari; Anurag Tripathi; Mukul Das; Premendra D Dwivedi
Journal: Int Immunol Date: 2013-11-13 Impact factor: 4.823

5. Mast cells contribute to altered vascular reactivity and ischemia-reperfusion injury following cerium oxide nanoparticle instillation.

Authors: Christopher J Wingard; Dianne M Walters; Brook L Cathey; Susana C Hilderbrand; Pranita Katwa; Sijie Lin; Pu Chun Ke; Ramakrishna Podila; Apparao Rao; Robert M Lust; Jared M Brown
Journal: Nanotoxicology Date: 2010-11-03 Impact factor: 5.913

6. Activation of the inflammasome by amorphous silica and TiO2 nanoparticles in murine dendritic cells.

Authors: Meike Winter; Hans-Dietmar Beer; Veit Hornung; Ursula Krämer; Roel P F Schins; Irmgard Förster
Journal: Nanotoxicology Date: 2010-09-16 Impact factor: 5.913

Review 7. The inflammasome NLRs in immunity, inflammation, and associated diseases.

Authors: Beckley K Davis; Haitao Wen; Jenny P-Y Ting
Journal: Annu Rev Immunol Date: 2011 Impact factor: 28.527

Review 8. Activation of complement by therapeutic liposomes and other lipid excipient-based therapeutic products: prediction and prevention.

Authors: Janos Szebeni; Franco Muggia; Alberto Gabizon; Yechezkel Barenholz
Journal: Adv Drug Deliv Rev Date: 2011-07-14 Impact factor: 15.470

9. Fullerene nanomaterials inhibit the allergic response.

Authors: John J Ryan; Henry R Bateman; Alex Stover; Greg Gomez; Sarah K Norton; Wei Zhao; Lawrence B Schwartz; Robert Lenk; Christopher L Kepley
Journal: J Immunol Date: 2007-07-01 Impact factor: 5.422

10. The alarmin IL-1α is a master cytokine in acute lung inflammation induced by silica micro- and nanoparticles.

Authors: Virginie Rabolli; Anissa Alami Badissi; Raynal Devosse; Francine Uwambayinema; Yousof Yakoub; Mihaly Palmai-Pallag; Astrid Lebrun; Valentin De Gussem; Isabelle Couillin; Bernard Ryffel; Etienne Marbaix; Dominique Lison; François Huaux
Journal: Part Fibre Toxicol Date: 2014-12-13 Impact factor: 9.400

10 in total

1. Conventional Nanosized Drug Delivery Systems for Cancer Applications.

Authors: Cristian Vergallo; Muhammad Nadeem Hafeez; Dalila Iannotta; Hélder A Santos; Nicola D'Avanzo; Luciana Dini; Felisa Cilurzo; Massimo Fresta; Luisa Di Marzio; Celia Christian
Journal: Adv Exp Med Biol Date: 2021 Impact factor: 2.622

2. The Effects of Genotype × Phenotype Interactions on Transcriptional Response to Silver Nanoparticle Toxicity in Organotypic Cultures of Murine Tracheal Epithelial Cells.

Authors: Tyler P Nicholas; Anoria K Haick; Theo K Bammler; Tomomi W Workman; Terrance J Kavanagh; Elaine M Faustman; Sina A Gharib; William A Altemeier
Journal: Toxicol Sci Date: 2020-01-01 Impact factor: 4.849

3. Exposure to silver nanoparticles primes mast cells for enhanced activation through the high-affinity IgE receptor.

Authors: Nasser B Alsaleh; Ryan P Mendoza; Jared M Brown
Journal: Toxicol Appl Pharmacol Date: 2019-09-05 Impact factor: 4.219

Review 4. Micro- and Nanosized Substances Cause Different Autophagy-Related Responses.

Authors: Yung-Li Wang; Cai-Mei Zheng; Yu-Hsuan Lee; Ya-Yun Cheng; Yuh-Feng Lin; Hui-Wen Chiu
Journal: Int J Mol Sci Date: 2021-04-30 Impact factor: 5.923

Review 5. Emerging Role of Immunosuppression in Diseases Induced by Micro- and Nano-Particles: Time to Revisit the Exclusive Inflammatory Scenario.

Authors: François Huaux
Journal: Front Immunol Date: 2018-11-19 Impact factor: 7.561