Differential expression of the trypsin inhibitor SPINK3 mRNA and the mouse ortholog of secretory granule protein ZG-16p mRNA in the mouse pancreas after repetitive injury.

A mouse model using repetitive acinar cell injury caused by supraphysiologic doses of cerulein to induce the characteristic fibrosis and loss of acinar cell mass found in human chronic pancreatitis was employed to identify early changes in gene expression. A gene array was used to detect changes in 18,000 expressed sequence tags; changes in specific transcripts were confirmed by RNase protection assays. These methods identified SPINK3, the mouse homologue of human and rat protease inhibitor genes, as being highly expressed in the pancreas and induced after pancreatic injury. Because SPINK3 may be an important serine protease inhibitor, its up-regulation may reflect an important endogenous cytoprotective mechanism in preventing further injury. The up-regulation of SPINK3 was specific; the mouse homologue of the zymogen-processing protein ZG-16p was also highly expressed in the pancreas but sharply down-regulated early in the course of injury. These findings suggest that the pancreatic acinar cell may respond to injury with a program of self-preservation and loss of normal function.

The hepatocellular bile acid transporter Ntcp facilitates uptake of the lethal mushroom toxin alpha-amanitin.

Hepatotoxicity caused by the mushroom poison alpha-amanitin is an unusual but serious cause of death and liver transplantation. Understanding the mechanisms of alpha-amanitin uptake may lead to rational therapeutic approaches. Because older data suggested that a sodium-dependent bile acid transporter is responsible for alpha-amanitin uptake, we tested the hypothesis that Na(+)-taurocholate cotransporter polypeptide (Ntcp) facilitates hepatocellular alpha-amanitin uptake. Human hepatoblastoma cells (HepG2), cells that have lost native Ntcp expression, were stably transfected with the rat Ntcp gene. Taurocholate uptake by the transfected cells exhibited a physiologically normal K(m) and V(max). A toxicologically relevant functional assay for alpha-amanitin uptake was developed by measuring its ability to block cytokine-induced synthesis of interleukin-1 receptor antagonist (IL-1Ra) mRNA. Treatment with interleukin-1beta (10 ng/ml) and interleukin-6 (100 ng/ml) increased IL-1Ra mRNA abundance 8.6-fold and 15.6-fold in HepG2 cells and Ntcp-transfected cells, respectively. Pretreatment of transfected cells with 1 micro M alpha-amanitin for 6-10 h almost completely blocked induction of IL-1Ra mRNA (1.9-fold induction) whereas pretreatment of non-transfected cells did not block induction of IL-1Ra mRNA (21.6-fold induction, P<0.02 compared with stimulated transfected cells without alpha-amanitin). These findings demonstrate that Ntcp may be an important mediator of alpha-amanitin uptake by the liver.