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Bioimpacts. 2018;8(2): 107-116.
doi: 10.15171/bi.2018.13
PMID: 29977832
PMCID: PMC6026527
Scopus ID: 85048129524
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Original Research

The assessment of metabolite alteration induced by –OH functionalized multi-walled carbon nanotubes in mice using NMR-based metabonomics

Yasamin Baghdadchi 1, Maryam Khoshkam 2, Mojtaba Fathi 1,3*, Ahmad Jalilvand 1, Koorosh Fooladzas 1, Ali Ramazani 3*

1 Zanjan Metabolic Diseases Research Center, Zanjan University of Medical Sciences, Zanjan, Iran
2 Chemistry Group, Faculty of Basic Sciences, University of Mohaghegh Ardabili, Ardabil, Iran
3 Cancer Gene Therapy Research Center, Zanjan University of Medical Sciences, Zanjan, Iran
*Corresponding Authors: Email: m_fathi@zums.ac.ir; Email: ramazania@zums.ac.ir

Abstract

Introduction: There is a fundamental need to characterize multiwalled carbon nanotubes (MWCNTs) toxicity to guarantee their safe application. Functionalized MWCNTs have recently attracted special interest in order to enhance biocompatibility. The aim of the current work was to study the underlying toxicity mechanism of the -OH-functionalized MWCNTs (MWCNTs-OH), using the powerful NMR-based metabonomics technique.
Methods: Following intraperitoneal single-injection of mice with 3 doses of MWCNTs-OH and one control, samples were collected at four time points during 22-days for NMR, biochemistry, and histopathology analysis. Metabolome profiling and pathway analysis were implemented by chemometrics tools and metabolome databases.
Results: Based on the 1H-NMR data, metabolic perturbation induced by MWCNTs-OH were characterized by altered levels of steroid hormones, including elevated androgens, estrogens, corticosterone, and aldosterone. Moreover, increased L-lysine, aminoadipate, taurine and taurocholic acid and decreased biotin were observed in the high-dose group (1 mg.kg-1 B.W.) compared to the control. The findings also indicated that steroid hormone biosynthesis, lysine biosynthesis, and biotin metabolism are the most affected pathways by MWCNTs-OH.
Conclusion: These pathways can reflect perturbation of energy, amino acids, and fat metabolism, as well as oxidative stress. The data obtained by biochemistry, metabonomics, and histopathology were in good agreement, proving that MWCNTs-OH was excreted within 24 h, through the biliary pathway.
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Submitted: 15 Jun 2017
Revision: 27 Nov 2017
Accepted: 29 Nov 2017
ePublished: 06 Dec 2017
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