Mucin Secretion Induced by Titanium Dioxide Nanoparticles

Chen, Eric Y. T.; Garnica, María; Wang, Yung-Chen; Chen, Chi-Shuo; Chin, Wei‐Chun

doi:10.1371/journal.pone.0016198

Cited by 55 publications

(62 citation statements)

References 48 publications

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“…The question of whether TiO 2 NPs can trigger a similar process is unclear. Our experiments confirmed that [Ca 2+ ] C failed to increase significantly when cells were treated with TiO 2 NPs in Ca 2+ -free Hanks' solution (Figure 2B) or blocked with CdCl 2 (a general Ca 2+ channel blocker) (Figure 2C) [17]. We then demonstrated that TiO 2 NPs can activate L-type voltage-gated Ca 2+ channels on mast cells, allowing extracellular Ca 2+ influx into the cytosol (Figure 2D and 2E).…”

Section: Discussionsupporting

confidence: 72%

A mixture of anatase and rutile TiO2 nanoparticles induces histamine secretion in mast cells

et al. 2012

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BackgroundHistamine released from mast cells, through complex interactions involving the binding of IgE to FcεRI receptors and the subsequent intracellular Ca2+ signaling, can mediate many allergic/inflammatory responses. The possibility of titanium dioxide nanoparticles (TiO2 NPs), a nanomaterial pervasively used in nanotechnology and pharmaceutical industries, to directly induce histamine secretion without prior allergen sensitization has remained uncertain.ResultsTiO2 NP exposure increased both histamine secretion and cytosolic Ca2+ concentration ([Ca2+]C) in a dose dependent manner in rat RBL-2H3 mast cells. The increase in intracellular Ca2+ levels resulted primarily from an extracellular Ca2+ influx via membrane L-type Ca2+ channels. Unspecific Ca2+ entry via TiO2 NP-instigated membrane disruption was demonstrated with the intracellular leakage of a fluorescent calcein dye. Oxidative stress induced by TiO2 NPs also contributed to cytosolic Ca2+ signaling. The PLC-IP3-IP3 receptor pathways and endoplasmic reticulum (ER) were responsible for the sustained elevation of [Ca2+]C and histamine secretion.ConclusionOur data suggests that systemic circulation of NPs may prompt histamine release at different locales causing abnormal inflammatory diseases. This study provides a novel mechanistic link between environmental TiO2 NP exposure and allergen-independent histamine release that can exacerbate manifestations of multiple allergic responses.

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Section: Discussionsupporting

confidence: 72%

A mixture of anatase and rutile TiO2 nanoparticles induces histamine secretion in mast cells

et al. 2012

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“…We observed increased intracellular Ca 2+ in the cells exposed to SiO 2 NPs, SWCNTs and ufCB. Nanomaterials have been shown to accelerate extracellular Ca 2+ influx via compromised cell membrane integrity [68-70]. Nanosized titanium dioxide has been shown to increase levels of cytosolic Ca 2+ in human bronchial ChaGo-K1 epithelial cells [68].…”

Section: Discussionmentioning

confidence: 99%

“…Nanomaterials have been shown to accelerate extracellular Ca 2+ influx via compromised cell membrane integrity [68-70]. Nanosized titanium dioxide has been shown to increase levels of cytosolic Ca 2+ in human bronchial ChaGo-K1 epithelial cells [68]. To explore if nanomaterials mediated Ca 2+ influx led to PAD-dependent protein citrullination, human epithelial A549 and phagocytic THP-1 cells were exposed to SWCNTs, ufCB and SiO 2 NPs in the presence of a Ca 2+ channel blocker.…”

Section: Discussionmentioning

confidence: 99%

Citrullination of Proteins: A Common Post-Translational Modification Pathway Induced by Different Nanoparticles In Vitro and In Vivo

et al. 2012

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Aim Rapidly expanding manufacture and use of nanomaterials emphasize the requirements for thorough assessment of health outcomes associated with novel applications. Post-translational protein modifications catalyzed by Ca2+-dependent peptidylargininedeiminases have been shown to trigger immune responses including autoantibody generation, a hallmark of immune complexes deposition in rheumatoid arthritis. Therefore, the aim of the study was to assess if nanoparticles are able to promote protein citrullination. Materials & methods Human A549 and THP-1 cells were exposed to silicon dioxide, carbon black or single-walled carbon nanotubes. C57BL/6 mice were exposed to respirable single-walled carbon nanotubes. Protein citrullination, peptidylargininedeiminases activity and target proteins were evaluated. Results The studied nanoparticles induced protein citrullination both in cultured human cells and mouse lung tissues. Citrullination occurred via the peptidylargininedeiminase-dependent mechanism. Cytokeratines 7, 8, 18 and plectins were identified as intracellular citrullination targets. Conclusion Nanoparticle exposure facilitated post-translational citrullination of proteins.

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“…A sustained elevation of Ca 2+ was achieved by inducing the release of Ca 2+ from the endoplasmic reticulum leading to histamine secretion. TiO 2 NPs also stimulate mucin secretion in epithelial cells by inducing extracellular Ca 2+ influx and calcium release from the endoplasmic reticulum (Chen et al, 2011). Intracellular Ca 2+ increase is also involved in the inhibition of cell proliferation by Ag NPs (Asharani et al, 2009).…”

Section: 3 Other Cellular Mechanisms Induced By Nanomaterialsmentioning

confidence: 99%

Intracellular Signal Modulation by Nanomaterials

Hussain

Garantziotis

Rodrigues‐Lima

et al. 2014

Advances in Experimental Medicine and Biology

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A thorough understanding of the interactions of nanomaterials with biological systems and the resulting activation of signal transduction pathways is essential for the development of safe and consumer friendly nanotechnology. Here we present an overview of signaling pathways induced by nanomaterial exposures and describe the possible correlation of their physicochemical characteristics with biological outcomes. In addition to the hierarchical oxidative stress model and a review of the intrinsic and cell-mediated mechanisms of reactive Oxygen species (ROS) generating capacities of nanomaterials, we also discuss other oxidative stress dependent and independent cellular signaling pathways. Induction of the inflammasome, calcium signaling, and endoplasmic reticulum stress are reviewed. Furthermore, the uptake mechanisms can crucially affect the cytotoxicity of nanomaterials and membrane-dependent signaling pathways can be responsible for cellular effects of nanomaterials. Epigenetic regulation by nanomaterials effects of nanoparticle-protein interactions on cell signaling pathways, and the induction of various cell death modalities by nanomaterials are described. We describe the common trigger mechanisms shared by various nanomaterials to induce cell death pathways and describe the interplay of different modalities in orchestrating the final outcome after nanomaterial exposures. A better understanding of signal modulations induced by nanomaterials is not only essential for the synthesis and design of safer nanomaterials but will also help to discover potential nanomedical applications of these materials. Several biomedical applications based on the different signaling pathways induced by nanomaterials are already proposed and will certainly gain a great deal of attraction in the near future.

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Mucin Secretion Induced by Titanium Dioxide Nanoparticles

Cited by 55 publications

References 48 publications

A mixture of anatase and rutile TiO2 nanoparticles induces histamine secretion in mast cells

A mixture of anatase and rutile TiO2 nanoparticles induces histamine secretion in mast cells

Citrullination of Proteins: A Common Post-Translational Modification Pathway Induced by Different Nanoparticles In Vitro and In Vivo

Intracellular Signal Modulation by Nanomaterials

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