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Innate immuno-response to nanoparticle uptake in liver and spleen mimics pathogen infection

Bertha Brodin, Giovanni Marco Saladino, Hans M. Hertz, Marie Arsenian-Henriksson, Muhammet S. Toprak

2025Nanomedicine7 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Systemically administered nanoparticles (NPs) designed for biomedical applications are retained in liver and spleen where they become rapidly phagocyted by tissue macrophages leading to inflammation. METHODS: by X-Ray Fluorescence Imaging (XRF) and examined the NP-macrophage interaction and physiological response in these organs. RESULTS: XRF imaging showed that intravenously administered MoNPs transiently accumulate in lungs, liver, and spleen. This leads to increments in the number of Kupffer cells (KC), natural killer (NK) cells, oxidative stress, and inflammation. Macrophage phenotype switched from pro- to an anti-inflammatory. In parallel genes with immunoregulatory and cytoprotective functions were expressed to maintain homeostasis. Nanoparticle uptake in spleen was operated by CD169/Siglec1 splenic macrophages indicating initiation of a secondary immune response. Silica coating reduced nanoparticle toxicity. CONCLUSION: The innate immunoresponse to NP uptake in liver and spleen is similar to viral or bacterial infections in these organs. A possible secondary immunoresponse to NPs can be primed in spleen aided by CD169/Siglec1 splenic macrophages. Silica coating of metal NPs tunes down this response.

Topics & Concepts

SpleenInnate immune systemPathogenChemistryImmunologyVirologyMicrobiologyMagnetite NanoparticlesBiologyMolecular biologyInflammationImmunityNanotoxicologyNanoparticleMedicineNanoparticles: synthesis and applicationsImmune cells in cancerNanoparticle-Based Drug Delivery
Innate immuno-response to nanoparticle uptake in liver and spleen mimics pathogen infection | Litcius