Protein corona-induced modification of silver nanoparticle aggregation in simulated gastric fluid

Ault, Andrew P.; Stark, Diana I.; Axson, Jessica L.; Keeney, Justin; Maynard, Andrew; Bergin, Ingrid L.; Philbert, Martin A.

doi:10.1039/c6en00278a

Cited by 51 publications

(53 citation statements)

References 81 publications

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“…This is in agreement with other studies that also mentioned the clustering of AgNPs submitted to a gastric digestion. [36,41,42,47] AgNPs agglomeration was also detected by UV-vis spectroscopy in line with published results. [36,47,51] Indeed, UV-vis spectroscopy allows to distinguish dissolution from agglomeration of AgNPs.…”

Section: Discussionsupporting

confidence: 90%

“…However, most studies focusing on the impact of AgNPs on intestinal cells were performed with pristine nanoparticles (NPs), [26][27][28][29][30][31][32][33] i.e., nanoparticles directly purchased from manufacturer or synthesized in the laboratory. [34] These experiments do not consider their interaction with food components and the potential alterations occurring in the gastrointestinal tract, [35][36][37] while it has been shown that AgNPs can be affected by the surrounding conditions. [38] Due to their high reactivity, NMs might interact with food components, such as carbohydrates, lipids, proteins, and minerals, which may influence their size, charge, agglomeration state, and surface composition.…”

Section: Introductionmentioning

confidence: 99%

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The Food Matrix and the Gastrointestinal Fluids Alter the Features of Silver Nanoparticles

Laloux

Kastrati

Cambier

et al. 2020

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Silver nanoparticles (AgNPs) are used in the agri‐food sector, which can lead to their ingestion. Their interaction with food and their passage through the gastrointestinal tract can alter their properties and influence their fate upon ingestion. Therefore, this study aims at developing an in vitro method to follow the fate of AgNPs in the gastrointestinal tract. After incorporation of AgNPs into a standardized food matrix, a precolonic digestion is simulated and AgNPs are characterized by different techniques. The presence of food influences the AgNPs properties by forming a corona around nanoparticles. Even if the salivary step does not impact significantly the AgNPs, the pH decrease and the digestive enzymes induce the agglomeration of AgNPs during the gastric phase, while the addition of intestinal fluids disintegrates these clusters. AgNPs can thus reach the intestinal cells under nanometric form, although the presence of food and gastrointestinal fluids modifies their properties compared to pristine AgNPs. They can form a corona around the nanoparticles and act as colloidal stabilizer, which can impact the interaction of AgNPs with intestinal epithelium. This study demonstrates the importance of taking the fate of AgNPs in the gastrointestinal tract into account to perform an accurate risk assessment of nanomaterials.

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Section: Discussionsupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

The Food Matrix and the Gastrointestinal Fluids Alter the Features of Silver Nanoparticles

Laloux

Kastrati

Cambier

et al. 2020

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“…To simulate the behavior of E171 into the intestinal tract we used two solutions that simulate gastric and intestinal fluids. Briefly, simulated gastric fluid (SGF) contained 80 m m HCl and 34 m m NaCl (Sigma‐Aldrich) in a final volume of 1 L of distilled water and pH 1.1 (Ault et al, ). Simulated intestinal fluid (SIF) contained 60 m m KH 2 PO 4 and 20 m m NaOH in distilled water in a final volume of 1 L with pH 6.8 (Stippler, Sabine, & Jennifer, ).…”

Section: Methodsmentioning

confidence: 99%

Food‐grade titanium dioxide (E171) by solid or liquid matrix administration induces inflammation, germ cells sloughing in seminiferous tubules and blood‐testis barrier disruption in mice

Rodríguez-Escamilla

Medina‐Reyes

Rodríguez‐Ibarra

et al. 2019

J of Applied Toxicology

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Food‐grade titanium dioxide labeled as E171 has been approved for human consumption by the Food and Drug Administration (USA) and by the European Union for five decades. However, titanium dioxide has been classified as a possible carcinogen for humans by the International Agency of Research in Cancer raising concerns of its oral intake and the translocation to bloodstream, which could disturb barriers such as the blood‐testis barrier. There is evidence that titanium dioxide by intragastric/intraperitoneal/intravenous administration induced alterations on testosterone levels, testicular function and architecture, but studies of the E171 effects on the testicle structure and blood‐testis barrier are limited. E171 is contained not only in foods in liquid matrix but also in solid ones, which can exert different biological effects. We aimed to compare the effects of E171 consumption in a solid matrix (0.1%, 0.5% and 1% in pellets) and liquid suspension (5 mg/kg body weight) on testis structure, inflammation infiltrate and blood‐testis barrier disruption of male BALB/c mice. Results showed that none of the administration routes had influence on body weight but an increase in germ cell sloughing and the infiltrate of inflammatory cells in seminiferous tubules, together with disruption of the blood‐testis barrier were similar in testis of both groups even if the dose received in mice in liquid matrix was 136 or 260 times lower than the dose reached by oral intake in solid E171 pellets in 0.5% E171 and 1% E171, respectively. This study highlights the attention on matrix food containing E171 and possible adverse effects on testis when E171 is consumed in a liquid matrix.

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“…Nanotechnologists in the field of food sciences have started to acknowledge the importance of PC on the fate and toxicity of ingested food-grade NPs [8]. It has been shown that incubation of silver NPs in simulated gastric media containing pepsin can result in the formation of PC, which facilitates NP aggregation [9,10]. Similarly, PC can also build upon the surface of polystyrene NPs exposed to various digestive enzymes [11].…”

Section: What Is It Known So Far?mentioning

confidence: 99%

Oral delivery of nanoparticles - let’s not forget about the protein corona

Berardi

Bombelli²

2019

Expert Opinion on Drug Delivery

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Protein corona-induced modification of silver nanoparticle aggregation in simulated gastric fluid

Cited by 51 publications

References 81 publications

The Food Matrix and the Gastrointestinal Fluids Alter the Features of Silver Nanoparticles

The Food Matrix and the Gastrointestinal Fluids Alter the Features of Silver Nanoparticles

Food‐grade titanium dioxide (E171) by solid or liquid matrix administration induces inflammation, germ cells sloughing in seminiferous tubules and blood‐testis barrier disruption in mice

Oral delivery of nanoparticles - let’s not forget about the protein corona

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