The nickel ion bioavailability model of the carcinogenic potential of nickel-containing substances in the lung

Goodman, Julie E.; Prueitt, Robyn L.; Thakali, Sagar; Oller, Adriana R.

doi:10.3109/10408444.2010.531460

Cited by 74 publications

(84 citation statements)

References 84 publications

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“…The appearance of very fine and larger nanocrystals suggests a critical role of the phagolysosome in the metabolism of nanoceria. While the mechanisms remain to be elucidated, the clinical presentation of metal fume fever appeared to be associated with lysosomal dissolution/releasing of zinc oxide nanoparticles (Kuschner et al 1995), localized release of nickel from a presumed insoluble compound playing a role in tumor formation (Pott et al 1992), and lysosomal-induced release of nickel ions with nuclear translocation in respiratory epithelial cells, all point to the pivotal role of the phagolysosome in nanoparticle metabolism and elimination (Goodman et al 2011). Other reports on lysosomal instability, phagolysosomal membrane breakage, and appearance of finer nanoparticles (Cho et al 2011;Miyawaki et al 2009;Rossi et al 2009;Tsai et al 2012) further indicate that the stability of the nanoparticle after phagolysosome enclosure is a major determinant of cellular toxicity.…”

Section: Discussionmentioning

confidence: 99%

Persistent Hepatic Structural Alterations Following Nanoceria Vascular Infusion in the Rat

Tseng

Lor

et al. 2013

Toxicol Pathol

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Understanding the long-term effects and possible toxicity of nanoceria, a widely utilized commercial metal oxide, is of particular importance as it is poised for development as a therapeutic agent based on its autocatalytic redox behavior. We show here evidence of acute and subacute adverse hepatic responses, after a single infusion of an aqueous dispersion of 85 mg/kg, 30 nm nanoceria into Sprague Dawley rats. Light and electron microscopic evidence of avid uptake of nanoceria by Kupffer cells was detected as early as 1 hr after infusion. Biopersistent nanoceria stimulated cluster of differentiation 3 þ lymphocyte proliferation that intermingled with nanoceria-containing Kupffer cells to form granulomata that were observed between days 30 and 90. Ultrastructural tracking of ceria nanoparticles revealed aggregated nanoceria in phagolysosomes. An increased formation of small nanoceria over time observed in the latter suggests possible dissolution and precipitation of nanoceria. However, the pathway for nanoceria metabolism/secretion remains unclear. Although frank hepatic necrosis was not observed, the retention of nanoceria increased hepatic apoptosis acutely, this persisted to day 90. These findings, together with our earlier reports of 5-nm ceria-induced liver toxicity, provide additional guidance for nanoceria development as a therapeutic agent and for its risk assessment.

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Section: Discussionmentioning

confidence: 99%

Persistent Hepatic Structural Alterations Following Nanoceria Vascular Infusion in the Rat

Tseng

Lor

et al. 2013

Toxicol Pathol

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“…Increased incidence of respiratory cancer has been observed among some groups of nickel refinery workers exposed to sulfidic, oxidic and water soluble nickel compounds, e.g. review by Goodman et al (2011). Only respiratory tumors have been consistently associated with exposure to nickel-containing compounds (Goodman et al, 2011).…”

Section: Introductionmentioning

confidence: 97%

Nickel release and surface characteristics of fine powders of nickel metal and nickel oxide in media of relevance for inhalation and dermal contact

Mazinanian

Hedberg

Wallinder

2013

Regulatory Toxicology and Pharmacology

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Differences in surface oxide characteristics and extent of nickel release have been investigated in two thoroughly characterized micron-sized (mainly <4 μm) nickel metal powders and a nickel oxide bulk powder when immersed in two different synthetic fluids, artificial sweat (ASW-pH 6.5) and artificial lysosomal fluid (ALF-pH 4.5) for time periods up to 24h. The investigation shows significantly more nickel released from the nickel metal powders (<88%) compared to the NiO powder (<0.1%), attributed to differences in surface properties. Significantly more nickel was released from the nickel metal powder with a thin surface oxide predominantly composed of non-stoichiometric nickel oxide (probably Ni(2)O(3)), compared to the release from the nickel metal powder with a thicker surface oxide predominantly composed of NiO and to a lesser extent Ni(2)O(3) (88% and 25% release after 24 h in ALF, respectively). Significantly lower amounts of nickel were released from the nickel metal powders in ASW (2.2% and <1%, respectively). The importance of particle and surface characteristics for any reliable risk assessment is discussed, and generated data compared with literature findings on bioaccessibility (released fraction) of nickel from powders of nickel metal and nickel oxide, and massive forms of nickel metal and nickel-containing alloys.

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“…Although the precise mode of action for nickel carcinogenesis has not been elucidated, nickel ion is considered to be the ultimate carcinogen. For lung tumor induction, the in vivo intracellular delivery of Ni ions is expected to be dependent on toxicity-limited exposure levels, clearance, cellular uptake, and extra and intracellular particle dissolution (e.g., Benson et al, 1992;Costa and Mollenhauer, 1980;Costa et al, 1981;Goodman et al, 2011;Hack et al, 2007).…”

Section: Introductionmentioning

confidence: 98%

“…The two highest Ni 3 S 2 inhalation exposure concentrations selected for this evaluation (0.15 and 0.6 mg/m 3 ) were similar to those used in the cancer 2-year study (0.15 and 1.0 mg/m 3 , Dunnick et al, 1995), and two lower exposure concentrations (0.04 and 0.08 mg/m 3 ) were added to more fully explore the dose-response for genomic changes. These exposure levels are roughly equivalent to inhalable workplace exposure levels ranging from 0.2 to 3.3 mg Ni/m 3 , when differences in parameters that affect deposited daily doses per surface area of the thoracic region of the lung are considered using a dosimetric model (see Goodman et al, 2011). The exposure duration of four weeks was selected to assure that steady-state concentrations of nickel were achieved and that cellular genomic responses had stabilized.…”

Section: Introductionmentioning

confidence: 99%

Time- and concentration-dependent genomic responses of the rat airway to inhaled nickel subsulfide

Efremenko

Campbell

Dodd

et al. 2014

Toxicology and Applied Pharmacology

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The nickel ion bioavailability model of the carcinogenic potential of nickel-containing substances in the lung

Cited by 74 publications

References 84 publications

Persistent Hepatic Structural Alterations Following Nanoceria Vascular Infusion in the Rat

Persistent Hepatic Structural Alterations Following Nanoceria Vascular Infusion in the Rat

Nickel release and surface characteristics of fine powders of nickel metal and nickel oxide in media of relevance for inhalation and dermal contact

Time- and concentration-dependent genomic responses of the rat airway to inhaled nickel subsulfide

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