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Open Access Letter to the Editor

Commenting on the effects of surface treated- and non-surface treated TiO2 in the Caco-2 cell model

James J Faust1, Wen Zhang2, Brian A Koeneman1, Yongsheng Chen3 and David G Capco1*

Author Affiliations

1 School of Life Sciences, Cellular and Molecular Biosciences, Arizona State University, Tempe, AZ, 85287-4501, USA

2 Department of Civil and Environmental Engineering, New Jersey Institute of Technology, Newark, NJ, 07102, USA

3 School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, 30332, USA

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Particle and Fibre Toxicology 2012, 9:42  doi:10.1186/1743-8977-9-42


The electronic version of this article is the complete one and can be found online at: http://www.particleandfibretoxicology.com/content/9/1/42


Received:5 September 2012
Accepted:5 November 2012
Published:12 November 2012

© 2012 Faust et al.; licensee BioMed Central Ltd.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

In a recent work published in Particle and Fibre Toxicology by Fisichella and coworkers investigating surface-modified TiO2 nanoparticle exposure in a model human intestinal epithelium (Caco-2), albeit degraded to mimic conditions in the gut and exposure to natural sunlight, purportedly resulted in no toxic effects. The authors (Fisichella et al.) claim to have confirmed the results of a 2010 report by Koeneman et al. However, the study by Koeneman and colleagues revealed significant effects of unmodified TiO2 nanoparticles. These contradicting data warrant further investigation into the possible effects of aluminum hydroxide, as these nanoparticles appear to have resulted in an abnormal apical surface in Caco-2 cells.

This is a comment on http://www.particleandfibretoxicology.com/content/pdf/1743-8977-9-18.pdf webcite.

Keywords:
Nanoparticles; Titanium dioxide; Microvilli; Brush-border; Caco-2; Transmission electron microscopy; Scanning electron microscopy

Correspondence

In their recent study, Fisichella et al. claim that surface-treated titanium dioxide (TiO2) nanoparticles (NPs) do not harm an epithelium composed of Caco-2 cells (an in vitro model of human intestinal enterocytes), and claim that these NPs are unlikely to enter the body via the oral route [1]. These authors cite our own work [2] and claim to have confirmed our previous study. The study by Koeneman and coworkers showed that application of a mixture of TiO2 NPs composed of rutile and anatase elicited significant effects on the cellular epithelium, and further these TiO2 NPs were transported across the Caco-2 epithelium.

Many investigators including ourselves have shown that the apical brush-border of these cells exhibit a well-ordered array of microvilli (MV) [2,3]. The scanning electron micrographs of the epithelium shown by Fisichella and colleagues [1] as their Figure 5 B does not have the appearance of being in good health as these MV are greatly distorted and may even be in the process of being absorbed into the surface of the cells, as was shown by Koeneman and colleagues [2] to be an effect of TiO2 NP treatment. Microvilli are a cell specialization to increase the surface area of the absorptive cells of the gut, and further their disappearance likely affect nutrient absorption. Some including ourselves would consider a significant reduction in MV, as a result of TiO2 exposure, to be detrimental to the intestinal epithelium. The transmission electron microscopy (TEM) results of Fisichella et al. (their Figure 6) also indicate an affect of nanoparticles on the Caco-2 cell epithelium as the cell surface is amorphous. TEM of a normal Caco-2 epithelium exhibit cells with a polarized cytoplasm containing many electron-dense organelles and cytoplasmic granules with a well ordered array of MV at the cellular apex [3,4]. The images shown by Fisichella and coworkers do not resemble these images and show a significant effect of their NP treatment.

The Fisichella et al. study employed surface-treated TiO2 NPs modified by aging the surface coating (PDMS) to; 1) mimic conditions in the gut, and 2) to emulate the effects of natural UV exposure. After these separate aging processes the authors claim that an aluminum hydroxide shell surrounding a TiO2 core remains intact. The results of Fisichella et al. [1] suggest that the aluminum hydroxide coating affected the MV as there are marked surface defects depicted in their figures ([1], Figure 5 and Figure 6). In addition, others have shown that chlorine at concentrations comparable to municipal water supplies degrades the protective aluminum hydroxide coating [5]. This is relevant because the authors [1] intended to investigate TiO2 NPs that are employed as components of sunscreen that are likely to be used as skin protectants while swimming. Although these conflicting data may be a result of the nanomaterials employed, they underscore the need to further examine any potential deleterious effects of TiO2 NPs in the Caco-2 cell model.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

All authors read and approved the final manuscript.

References

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    Part Fibre Toxicol 2012, 9:18. PubMed Abstract | BioMed Central Full Text OpenURL

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    Cell Biol Toxicol 2010, 26:225-238. PubMed Abstract | Publisher Full Text OpenURL

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