Superoxide deficiency attenuates promotion of hepatocarcinogenesis by cytotoxicity in NADPH oxidase knockout mice.

Long-term exposure to carcinogens combined with chronic hepatitis contributes greatly to the worldwide high incidence of hepatocellular carcinoma (HCC). It is still unclear to which extent the release of pro-inflammatory reactive oxygen or nitrogen species contributes to the development of this malignancy. Here, we aim to elucidate the role of superoxide in a model of chemical hepatocarcinogenesis.

Proteomics reveals acute pro-inflammatory and protective responses in rat Kupffer cells and hepatocytes after chemical initiation of liver cancer and after LPS and IL-6.

Inflammation is a key event in the development of liver cancer. We studied early inflammatory responses of Kupffer cells (KCs) and hepatocyte (HC) after cancer initiation. The chemical carcinogen N-nitrosomorpholine (NNM) was used in a rat model.

Divide and conquer: rat liver tissue proteomics based on the analysis of purified constituents.

Comparative proteome data of normal and diseased tissue samples are difficult to interpret. Proteins detected in tissues are derived from different cell types and blood constituents. Pathologic or toxicant-induced aberrations may affect the proteome profile of tissues in several ways since different cell types may respond in very different and highly specific manners.

Superoxide generation from Kupffer cells contributes to hepatocarcinogenesis: studies on NADPH oxidase knockout mice.

We hypothesized that superoxide from Kupffer cells (KC) contributes to hepatocarcinogenesis. p47phox(-/-) mice, deficient in phagocyte NADPH oxidase and superoxide generation, received a single dose of the hepatocarcinogen diethylnitrosamine (DEN). The following hepatic effects were observed at time points between 30 min and 35 days.

Response of isolated hepatocytes from carcinogen sensitive (C3H) and insensitive (C57BL) mice to signals inducing replication or apoptosis.

The mouse strain C3H shows high incidence of liver tumors in carcinogenicity testing, while the strain C57BL exhibits low incidence. The F1 generation hybrids, B6C3F1, which are widely used in long-term carcinogenesis bioassays, are of intermediate sensitivity. We asked whether this strain difference could be due to different susceptibility of the parenchymal cells to signals inducing replication or apoptosis.