Sistema de Salut de Catalunya
Institut Català de la Salut
[Ernst LM] Vall d’Hebron Institut de Recerca (VHIR), Barcelona, Spain. [Casals E] School of Biotechnology and Health Sciences, Wuyi University, Jiangmen, China. [Italiani P] Institute of Protein Biochemistry and Cell Biology (IBBC), National Research Council (CNR), Napoli, Italy. [Boraschi D] Institute of Protein Biochemistry and Cell Biology (IBBC), National Research Council (CNR), Napoli, Italy. Shenzhen Institute of Advanced Technology (SIAT), Chinese Academy of Sciences (CAS), Shenzhen, China. Stazione Zoologica Anton Dohrn, Napoli, Italy. [Puntes V] Vall d’Hebron Institut de Recerca (VHIR), Barcelona, Spain. Institut Català de Nanociència i Nanotecnologia (ICN2), CSIC and The Barcelona Institute of Science and Technology (BIST), Campus UAB, Barcelona, Spain. Institució Catalana de Recerca I Estudis Avançats (ICREA), Barcelona, Spain
Vall d'Hebron Barcelona Hospital Campus
2022-03-21T09:04:02Z
2022-03-21T09:04:02Z
2021-11-06
Inflamació; Immunitat innata; Nanopartícules
Inflamación; Inmunidad innata; Nanopartículas
Inflammation; Innate immunity; Nanoparticles
The immune system contributes to maintaining the body’s functional integrity through its two main functions: recognizing and destroying foreign external agents (invading microorganisms) and identifying and eliminating senescent cells and damaged or abnormal endogenous entities (such as cellular debris or misfolded/degraded proteins). Accordingly, the immune system can detect molecular and cellular structures with a spatial resolution of a few nm, which allows for detecting molecular patterns expressed in a great variety of pathogens, including viral and bacterial proteins and bacterial nucleic acid sequences. Such patterns are also expressed in abnormal cells. In this context, it is expected that nanostructured materials in the size range of proteins, protein aggregates, and viruses with different molecular coatings can engage in a sophisticated interaction with the immune system. Nanoparticles can be recognized or passed undetected by the immune system. Once detected, they can be tolerated or induce defensive (inflammatory) or anti-inflammatory responses. This paper describes the different modes of interaction between nanoparticles, especially inorganic nanoparticles, and the immune system, especially the innate immune system. This perspective should help to propose a set of selection rules for nanosafety-by-design and medical nanoparticle design.
This research was funded by the EU Commission H2020 project PANDORA (GA 671881; to D.B., P.I. and V.P.). Additional funds were provided by the EU Commission H2020 project ENDONANO (GA 812661; to P.I. and D.B.), the Italian MIUR InterOmics Flagship projects MEMORAT and MAME (to D.B. and P.I.), the Italian MIUR/PRIN-20173ZECCM (to P.I.), the CAS President’s International Fellowship Programme (PIFI; award 2020VBA0028; to D.B.), Spanish Ministerio de Ciencia, Innovación y Universidades (MCIU) (RTI2018-099965-B-I00, AEI/FEDER, UE), and Generalitat de Catalunya (2017-SGR-1431) (V.P.).
Article
Published version
English
Sistema immunològic; Nanomedicina; DISCIPLINES AND OCCUPATIONS::Natural Science Disciplines::Nanotechnology::Nanomedicine; PHENOMENA AND PROCESSES::Immune System Phenomena::Immunity::Immunity, Innate; ANATOMY::Hemic and Immune Systems::Immune System; DISCIPLINAS Y OCUPACIONES::disciplinas de las ciencias naturales::nanotecnología::nanomedicina; FENÓMENOS Y PROCESOS::fenómenos del sistema inmunitario::inmunidad::inmunidad innata; ANATOMÍA::sistemas sanguíneo e inmunológico::sistema inmunológico
MDPI
Nanomaterials;11(11)
https://doi.org/10.3390/nano11112991
Attribution 4.0 International
http://creativecommons.org/licenses/by/4.0/
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