Advanced search
Publication Cover
Nanotoxicology Volume 10, 2016 - Issue 6
Submit an article Journal homepage
4,272
Views
70
CrossRef citations to date
0
Altmetric
Original Articles

A combined proteomics and metabolomics approach to assess the effects of gold nanoparticles in vitro

Sabrina GioriaEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and Correspondence[email protected]
,
Joana Lobo VicenteEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and
,
Paola BarboroIRCCS Azienda Ospedaliera Universitaria San Martino – IST Istituto Nazionale per la Ricerca sul Cancro, Genova, Italy
,
Rita La SpinaEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and
,
Giorgio TomasiEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and
,
Patricia UrbánEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and
,
Agnieszka Kinsner-OvaskainenEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and
,
Rossi FrançoisEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and
&
Hubert ChassaigneEuropean Commission, Joint Research Centre, Institute for Health and Consumer Protection, Ispra, Italy and
show all
Pages 736-748 | Received 24 Apr 2015, Accepted 14 Nov 2015, Published online: 10 Feb 2016

References

  • Alkilany AM, Murphy CJ. 2010. Toxicity and cellular uptake of gold nanoparticles: what we have learned so far? J Nanopart Res 12:2313–33
  • Ankarcrona M, Dypbukt JM, Bonfoco E, Zhivotovsky B, Orrenius S, Lipton SA, Nicotera P. 1995. Glutamate-induced neuronal death: a succession of necrosis or apoptosis depending on mitochondrial function. Neuron 15:961–73
  • Bajak E, Fabbri M, Ponti J, Gioria S, Ojea-Jimenez I, Collotta A, et al. 2014. Changes in Caco-2 cells transcriptome profiles upon exposure to gold nanoparticles. Toxicol Lett 233:187–99
  • Bartel J, Krumsiek J, Schramm K, Adamski J, Gieger C, Herder C, et al. 2015. The human blood metabolome-transcriptome interface. PLoS Genet 11:e1005274
  • Chen J, Saeki F, Wiley BJ, Cang H, Cobb MJ, Li ZY, et al. 2005. Gold nanocages: bioconjugation and their potential use as optical imaging contrast agents. Nano Lett 5:473–7
  • Connor EE, Mwamuka J, Gole A, Murphy CJ, Wyatt MD. 2005. Gold nanoparticles are taken up by human cells but do not cause acute cytotoxicity. Small 1:325–7
  • Cooney JM, Barnett MP, Dommels YE, Brewster D, Butts CA, Mcnabb WC, et al. 2015. A combined omics approach to evaluate the effects of dietary curcumin on colon inflammation in the Mdr1a mouse model of inflammatory bowel disease. J Nutr Biochem
  • Coradeghini R, Gioria S, Garcia CP, Nativo P, Franchini F, Gilliland D, et al. 2013. Size-dependent toxicity and cell interaction mechanisms of gold nanoparticles on mouse fibroblasts. Toxicol Lett 217:205–16
  • Decourcelle M, Perez-Fons L, Baulande S, Steiger S, Couvelard L, Hem S, et al. 2015. Combined transcript, proteome, and metabolite analysis of transgenic maize seeds engineered for enhanced carotenoid synthesis reveals pleotropic effects in core metabolism. J Exp Bot 66:3141–50
  • Diez P, Droste C, Degano RM, Gonzalez-Munoz M, Ibarrola N, Perez-Andres M, et al. 2015. Integration of proteomics and transcriptomics data sets for the analysis of a lymphoma B-cell line in the context of the chromosome-centric human proteome project. J Proteome Res 14:3530–40
  • Eichner J, Rosenbaum L, Wrzodek C, Haring HU, Zell A, Lehmann R. 2014. Integrated enrichment analysis and pathway-centered visualization of metabolomics, proteomics, transcriptomics, and genomics data by using the InCroMAP software. J Chromatogr B Analyt Technol Biomed Life Sci 966:77–82
  • Emans N, Gorvel JP, Walter C, Gerke V, Kellner R, Griffiths G, Gruenberg J. 1993. Annexin II is a major component of fusogenic endosomal vesicles. J Cell Biol 120:1357–69
  • Fagerberg L, Hallstrom BM, Oksvold P, Kampf C, Djureinovic D, Odeberg J, et al. 2014. Analysis of the human tissue-specific expression by genome-wide integration of transcriptomics and antibody-based proteomics. Mol Cell Proteomics 13:397–406
  • Ferrara F, Bbertelli A, Falchi M. 2005. Evaluation of carnitine, acetylcarnitine and isovalerylcarnitine on immune function and apoptosis. Drugs Exp Clin Res 31:109–14
  • Ghosh P, Han G, De M, Kim CK, Rotello VM. 2008. Gold nanoparticles in delivery applications. Adv Drug Deliv Rev 60:1307–15
  • Gioria S, Chassaigne H, Carpi D, Parracino A, Meschini S, Barboro P, Rossi F. 2014. A proteomic approach to investigate AuNPs effects in Balb/3T3 cells. Toxicol Lett 228:111–26
  • Halama A, Moller G, Adamski J. 2011. Metabolic signatures in apoptotic human cancer cell lines. Omics 15:325–35
  • Huang SM, Zuo X, Li JJ, Li SF, Bay BH, Ong CN. 2012. Metabolomics studies show dose-dependent toxicity induced by SiO(2) nanoparticles in MRC-5 human fetal lung fibroblasts. Adv Healthcare Mater 1:779–84
  • Huang X, Jain PK, El-Sayed IH, El-Sayed MA. 2007. Gold nanoparticles: interesting optical properties and recent applications in cancer diagnostics and therapy. Nanomedicine (Lond) 2:681–93
  • Huefner A, Septiadi D, Wilts BD, Patel II, Kuan WL, Fragniere A, et al. 2014. Gold nanoparticles explore cells: cellular uptake and their use as intracellular probes. Methods 68:354–63
  • Jia L, Lu Y, Shao J, Liang XJ, Xu Y. 2013. Nanoproteomics: a new sprout from emerging links between nanotechnology and proteomics. Trends Biotechnol 31:99–107
  • Kobeissy FH, Gulbakan B, Alawieh A, Karam P, Zhang Z, Guingab-Cagmat JD, et al. 2014. Post-genomics nanotechnology is gaining momentum: nanoproteomics and applications in life sciences. Omics 18:111–31
  • Kutmon M, Evelo CT, Coort SL. 2014. A network biology workflow to study transcriptomics data of the diabetic liver. BMC Genomics 15:971
  • Lee LC, Weng YT, Wu YR, Soong BW, Tseng YC, Chen CM, Lee-Chen GJ. 2014. Downregulation of proteins involved in the endoplasmic reticulum stress response and Nrf2-ARE signaling in lymphoblastoid cells of spinocerebellar ataxia type 17. J Neural Transm 121:601–10
  • Li Q, Mao L, Wang R, Zhu L, Xue L. 2014. Overexpression of S-adenosylhomocysteine hydrolase (SAHH) in esophageal squamous cell carcinoma (ESCC) cell lines: effects on apoptosis, migration and adhesion of cells. Mol Biol Rep 41:2409–17
  • Longo V, Zdralevic M, Guaragnella N, Giannattasio S, Zolla L, Timperio AM. 2015. Proteome and metabolome profiling of wild-type and YCA1-knock-out yeast cells during acetic acid-induced programmed cell death. J Proteomics 128:173–88
  • Lu X, Tian Y, Zhao Q, Jin T, Xiao S, Fan X. 2011. Integrated metabonomics analysis of the size-response relationship of silica nanoparticles-induced toxicity in mice. Nanotechnology 22:055101
  • Meierhofer D, Weidner C, Sauer S. 2014. Integrative analysis of transcriptomics, proteomics, and metabolomics data of white adipose and liver tissue of high-fat diet and rosiglitazone-treated insulin-resistant mice identified pathway alterations and molecular hubs. J Proteome Res 13:5592–602
  • Mendez-Lucas A, Hyrossova P, Novellasdemunt L, Vinals F, Perales JC. 2014. Mitochondrial phosphoenolpyruvate carboxykinase (PEPCK-M) is a pro-survival, endoplasmic reticulum (ER) stress response gene involved in tumor cell adaptation to nutrient availability. J Biol Chem 289:22090–102
  • Morel E, Gruenberg J. 2009. Annexin A2 binding to endosomes and functions in endosomal transport are regulated by tyrosine 23 phosphorylation. J Biol Chem 284:1604–11
  • Paciotti GF, Myer L, Weinreich D, Goia D, Pavel N, Mclaughlin RE, Tamarkin L. 2004. Colloidal gold: a novel nanoparticle vector for tumor directed drug delivery. Drug Deliv 11:169–83
  • Renard HF, Simunovic M, Lemiere J, Boucrot E, Garcia-Castillo MD, Arumugam S, et al. 2014. Endophilin-A2 functions in membrane scission in clathrin-independent endocytosis. Nature 517:493–6
  • Sambuy Y, Deangelis I, Ranaldi G, Scarino ML, Stammati A, Zucco F. 2005. The Caco-2 cell line as a model of the intestinal barrier: influence of cell and culture-related factors on Caco-2 cell functional characteristics. Cell Biol Toxicol 21:1–26
  • Sumner LW, Amberg A, Barrett D, Beale MH, Beger R, Daykin CA, et al. 2007. Proposed minimum reporting standards for chemical analysis Chemical Analysis Working Group (CAWG) Metabolomics Standards Initiative (MSI). Metabolomics 3:211–21
  • Sung JH, Ji JH, Park JD, Song MY, Song KS, Ryu HR, et al. 2011. Subchronic inhalation toxicity of gold nanoparticles. Part Fibre Toxicol 8:16
  • Tourriere H, Chebli K, Zekri L, Courselaud B, Blanchard JM, Bertrand E, Tazi J. 2003. The RasGAP-associated endoribonuclease G3BP assembles stress granules. J Cell Biol 160:823–31
  • Vetten MA, Tlotleng N, Tannerrascher D, Skepu A, Keter FK, Boodhia K, et al. 2013. Label-free in vitro toxicity and uptake assessment of citrate stabilised gold nanoparticles in three cell lines. Part Fibre Toxicol 10:50
  • Vié N, Copois V, Bascoul-Mollevi C, Denis V, Bec N, Robert B, et al. 2008. Overexpression of phosphoserine aminotransferase PSAT1 stimulates cell growth and increases chemoresistance of colon cancer cells. Mol Cancer 7:14
  • Warwick B, Dunnerban A, Webber RJM, Creek DJ, Brown M, et al. 2013. Mass appeal: metabolite identification in mass spectrometry-focused untargeted metabolomics. Metabolomics 9:22

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.