Background: Today, various heavy metals are widespread in the ecosystem and have become important environmental contaminants. Exposure to these hazardous metals such as chromium usually results in cytotoxicity and large-scale protein changes which reflect pathologic states.
Methods: We used a comprehensive proteomic tool to survey changes in plasma proteins elicited by two chromium species (Cr(6+) and Cr(3+)). RT-PCR was applied to evaluate levels of cytokines associated with adverse responses. Lectin blotting was used to investigate the contents of fucosylated proteins.
Results: Protein profiles revealed statistically significant changes in the intensity of 12 proteins. The network analysis implied that Cr(6+) application strongly induced the IL-6-stimulated inflammatory pathway. mRNA levels of specific cytokines were also correlated with inflammatory events. Increased IL-6 modulation of the fucosylation of haptoglobin was also identified in Cr(6+)-treated samples.
Conclusions: These results suggest that Cr(6+) may induce IL-6-mediated inflammatory responses which result in hepatic injury. This paper highlights the applications of functional proteomics of plasma profiles and fucosylated glycoproteins as a predictive tool to monitor human health in contact with chromium.
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