We are analyzing https://link.springer.com/article/10.1007/s42247-024-00888-7.

Title:
Intravenous administration of gold nanoparticles in rats exhibit alterations in sphingomyelins, bile acids, sphingolipids, and cholesterol esters levels | Emergent Materials
Description:
Nanoparticles (NP) have gained significant attention in biomedical research due to their unique properties and potential applications in drug delivery, imaging, and diagnostics. Gold (AuNPs) and silver (AgNPs) NPs are among the important nanoplatforms that received extensive attention recently for various biomedical applications. Understanding the complex interaction of these NP in biological systems is essential to unveil their pharmacological, Pharmacokinetic and toxicological attributes. Metabolomics has proven invaluable in providing detailed insights into NP’s biodistribution, metabolic effects, and potential toxicity. This study aims to investigate the underlying metabolic pathways affected by in vivo exposure to NP using a robust metabolomics approach. In this work, spherical polyethylene glycol (PEG) modified AuNPs (13 nm, diameter) or AgNPs (20 nm, diameter) were synthesized and dosed into rats via intravenous route to study the associated metabolic changes. Rats (n = 14) were divided into three groups: control (n = 2), AuNPs (n = 6) and AgNPs (n = 6), to mimic potential biomedical exposure scenarios. Duplicate serum samples were collected 24 h post-dosing, and comprehensive metabolite profiling was performed using liquid chromatography-mass spectrometry (LC-MS/MS) and flow injection analysis-mass spectrometry (FIA-MS/MS). Metabolite extraction followed the MxP Quant 500 Kit protocol, with chromatographic separation using the Xevo TQS system. Metabolite identification and quantification were conducted with isotopically labelled internal standards and multiple reaction monitoring (MRM), utilizing optimized conditions under mass spectrometry (MS) as provided by Biocrates. Annotation of metabolites was determined by retention times and specific MRMs for each compound. Results indicate that AuNPs treatment significantly impacted several metabolic pathways. Notably, there was an increase in sphingomyelin (SM 34:2) levels (estimate 0.23, p ≤ 0.001), which are critical for cell membrane structure and signalling. Additionally, a decrease in glycochenodeoxycholic acid levels was also triggered by treatment with AuNPs, suggesting modulation of bile acid metabolism with potential effects on lipid homeostasis. Furthermore, treatment with AuNPs caused significant alterations in cholesterol ester levels, essential for lipid storage and transport, indicating disruptions in these mechanisms. These metabolic changes suggest that gold nanoparticles can disrupt fatty acid metabolism, pyrimidine/purine metabolism, and amino acid synthesis. These findings contribute to the growing understanding of nanoparticle toxicity profile and underscore the need for further research to ensure the safe application of nanoparticles in biomedical and other fields.
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Keywords {🔍}

nanoparticles, aunps, article, gold, pubmed, google, scholar, metabolic, cas, silver, agnps, analysis, size, acid, effects, study, metabolism, rats, treatment, bile, stability, pegagnps, nanoparticle, fig, significant, synthesis, acids, potential, pathways, central, colloidal, pegaunps, control, metabolomics, lipid, surface, research, properties, qatar, table, cholesterol, levels, groups, studies, sphingomyelins, full, vivo, intravenous, esters, applications,

Topics {✒️}

/nextgen/en/library/application-notes/2020/standardized-targeted-metabolomics xevo-tq-xs-mass-spectrometer pi3k/akt/mtor signalling pathway liquid chromatography-mass spectrometry x-axis/ y-axis represents acquity uplc i-class acquity-uplc-i-class article download pdf peg-agnps exhibited peaks cas google scholar upregulated glycolysis-related genes article google scholar monounsaturated fatty acid-lysopcs saturated fatty acid-lysopcs citrate-capped aunps agree biocrates-mxp-quant-500-kit 1007/s42247-025-01124-6 references standardized targeted metabolomics explore dose-dependent effects high-fat diet adjust nominal p-values differentiating peg-agnps treated chemo-phototherapeutic delivery systems haya al-sulaiti 12-hour light/dark cycle nanotechnology-based antiviral therapeutics sodium/heparin anticoagulant tubes high salt concentration optimized mass spectrometry central laboratories unit single-dose intravenous administration article al-sulaiti transmission electron microscopy functional enrichment analysis specific pathogen-free conditions gold nanoparticles-mediated photothermal qatar national library privacy choices/manage cookies silver nanoparticles-treated animals linear regression analysis citrate-capped aunps fia-ms/ms demonstrated typical ruby-red color original author y-axis displays high surface area fatty acid metabolism excellent colloidal stability google scholar nominal p-values

Questions {❓}

Murphy, Toxicity and cellular uptake of gold nanoparticles: what we have learned so far?

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         description:Nanoparticles (NP) have gained significant attention in biomedical research due to their unique properties and potential applications in drug delivery, imaging, and diagnostics. Gold (AuNPs) and silver (AgNPs) NPs are among the important nanoplatforms that received extensive attention recently for various biomedical applications. Understanding the complex interaction of these NP in biological systems is essential to unveil their pharmacological, Pharmacokinetic and toxicological attributes. Metabolomics has proven invaluable in providing detailed insights into NP’s biodistribution, metabolic effects, and potential toxicity. This study aims to investigate the underlying metabolic pathways affected by in vivo exposure to NP using a robust metabolomics approach. In this work, spherical polyethylene glycol (PEG) modified AuNPs (13 nm, diameter) or AgNPs (20 nm, diameter) were synthesized and dosed into rats via intravenous route to study the associated metabolic changes. Rats (n = 14) were divided into three groups: control (n = 2), AuNPs (n = 6) and AgNPs (n = 6), to mimic potential biomedical exposure scenarios. Duplicate serum samples were collected 24 h post-dosing, and comprehensive metabolite profiling was performed using liquid chromatography-mass spectrometry (LC-MS/MS) and flow injection analysis-mass spectrometry (FIA-MS/MS). Metabolite extraction followed the MxP Quant 500 Kit protocol, with chromatographic separation using the Xevo TQS system. Metabolite identification and quantification were conducted with isotopically labelled internal standards and multiple reaction monitoring (MRM), utilizing optimized conditions under mass spectrometry (MS) as provided by Biocrates. Annotation of metabolites was determined by retention times and specific MRMs for each compound. Results indicate that AuNPs treatment significantly impacted several metabolic pathways. Notably, there was an increase in sphingomyelin (SM 34:2) levels (estimate 0.23, p ≤ 0.001), which are critical for cell membrane structure and signalling. Additionally, a decrease in glycochenodeoxycholic acid levels was also triggered by treatment with AuNPs, suggesting modulation of bile acid metabolism with potential effects on lipid homeostasis. Furthermore, treatment with AuNPs caused significant alterations in cholesterol ester levels, essential for lipid storage and transport, indicating disruptions in these mechanisms. These metabolic changes suggest that gold nanoparticles can disrupt fatty acid metabolism, pyrimidine/purine metabolism, and amino acid synthesis. These findings contribute to the growing understanding of nanoparticle toxicity profile and underscore the need for further research to ensure the safe application of nanoparticles in biomedical and other fields.
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