The fact that inflammation-sensitive proteins were identified as increased in pancreatic cancer sera supports the hypothesis that inflammatory-driven processes are involved in pancreatic carcinogenesis. Liquid ESI-MS analyses of sera hold promise for future pancreatic cancer blood tests as well as for understanding mechanisms of pancreatic carcinogenesis. The variability observed between the low-mass regions of normal versus pancreatic cancer spectra may aid in diagnosis and therapy.
Dermal exposure to JP-8 petroleum jet fuel leads to toxicological responses in humans and rodents. Serum profiling is a molecular analysis of changes in the levels of serum proteins and other molecules in response to changes in physiology. This present study utilizes serum profiling approaches to examine biomolecular changes in the sera of rats exposed to dermal applications of JP-8 (jet propulsion fuel-8). Using gel electrophoresis and electrospray ionization (ESI) mass spectrometry (MS), levels of serum proteins as well as low-mass constituents were found to change after dermal exposures to JP-8. The serum protein levels altered included the acute-phase response proteins haptoglobin, ceruloplasmin, alpha(1)-inhibitor III, and apolipoprotein A-IV. Haptoglobin levels increased after a 1-day JP-8 dermal exposure and continued to increase through 7 days of exposure. Ceruloplasmin levels increased after 5 days of exposure. Serum alpha(1)-inhibitor III was reduced after a 1-day exposure and the depletion continued after 7 days of exposure. Apolipoprotein A-IV increased after a 1-day exposure and then returned to basal levels after 3- and 5-day exposures of JP-8. Levels of the acute-phase protein alpha(2)-macroglobulin were found to not vary over these time course studies. Using ESI-MS analysis directly on the sera from rats exposed to dermal JP-8, low-mass sera constituents were found to correlate with control (acetone) or JP-8 exposure.
Limited information is available regarding the development of systemic organ stress by dermal exposure to JP-8 fuel. In this study, the systemic stress potential of this fuel is evaluated in a rat model subjected to dermal applications of JP-8 for 7 days at 300 microl per day. Tissue histology indicated that JP-8 induces morphological alterations that suggest that tissue stress in the heart is more substantial than stress in the kidney and liver. Immunoblot analysis of tissues revealed increased levels of the inducible heat shock protein 70 (HSP70) in the heart, kidney, and liver after this dermal JP-8 exposure. This exposure also leads to increased levels of heme oxygenase-1 (HO-1/HSP3) in the liver. Additionally during this exposure, a negative regulator of inflammation, IkappaBalpha (inhibitor of NF-kappaB), was increased in the liver, slightly increased in the kidney, and not increased in the heart. Two regions of the rat brain were also examined and HSP70 and IkappaBalpha were increased in the cerebellum but not significantly increased in the cortex. This study indicates dermal JP-8 exposure causes systemic alterations that are associated with cytoprotective activities (e.g., in the liver) as well as potentially toxic mechanisms (heart and kidney).
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