Vanadium pentoxide induces pulmonary inflammation and tumor promotion in a strain-dependent manner
Date
2010-04-12
Authors
Rondini, Elizabeth A.
Walters, Dianne M.
Bauer, Alison K.
Journal Title
Journal ISSN
Volume Title
Publisher
East Carolina University
Abstract
Background: Elevated levels of air pollution are associated with increased risk of lung cancer. Particulate matter (PM)
contains transition metals that may potentiate neoplastic development through the induction of oxidative stress and
inflammation, a lung cancer risk factor. Vanadium pentoxide (V2O5) is a component of PM derived from fuel
combustion as well as a source of occupational exposure in humans. In the current investigation we examined the
influence of genetic background on susceptibility to V2O5-induced inflammation and evaluated whether V2O5
functions as a tumor promoter using a 2-stage (initiation-promotion) model of pulmonary neoplasia in mice.
Results: A/J, BALB/cJ (BALB), and C57BL/6J (B6) mice were treated either with the initiator 3-methylcholanthrene (MCA;
10 μg/g; i.p.) or corn oil followed by 5 weekly aspirations of V2O5 or PBS and pulmonary tumors were enumerated 20
weeks following MCA treatment. Susceptibility to V2O5-induced pulmonary inflammation was assessed in
bronchoalveolar lavage fluid (BALF), and chemokines, transcription factor activity, and MAPK signaling were quantified
in lung homogenates. We found that treatment of animals with MCA followed by V2O5 promoted lung tumors in both
A/J (10.3 ± 0.9 tumors/mouse) and BALB (2.2 ± 0.36) mice significantly above that observed with MCA/PBS or V2O5
alone (P < 0.05). No tumors were observed in the B6 mice in any of the experimental groups. Mice sensitive to tumor
promotion by V2O5 were also found to be more susceptible to V2O5-induced pulmonary inflammation and
hyperpermeability (A/J>BALB>B6). Differential strain responses in inflammation were positively associated with
elevated levels of the chemokines KC and MCP-1, higher NFκB and c-Fos binding activity, as well as sustained ERK1/2
activation in lung tissue.
Conclusions: In this study we demonstrate that V2O5, an occupational and environmentally relevant metal oxide,
functions as an in vivo lung tumor promoter among different inbred strains of mice. Further, we identified a positive
relationship between tumor promotion and susceptibility to V2O5-induced pulmonary inflammation. These findings
suggest that repeated exposures to V2O5 containing particles may augment lung carcinogenesis in susceptible
individuals through oxidative stress mediated pathways. Originally published Particle and Fibre Toxicology, Vol. 7, No. 9, Apr 2010
Description
Citation
Particle and Fibre Toxicology; 7:9 p. 1-13