The heat-stable enterotoxin-guanylin receptor is expressed in rat hepatocytes and in a rat hepatoma (H-35) cell line.

BACKGROUND/AIMS: Guanylyl cyclase C (GC-C) is an intestinal transmembrane receptor which binds both guanylin, an endogenous ligand, and Escherichia coli heat-stable enterotoxin (STa) resulting in 5'-cyclic guanosine monophosphate (cGMP) accumulation and chloride secretion. In the adult rat, there is a high basal level of GC-C expression in the intestine, but not in the liver. Increased expression of GC-C in the rat liver has been demonstrated during the perinatal period as well as with liver regeneration and during an acute phase response. The aim of this study was to identify and utilize cell culture models to further characterize the expression of GC-C in the liver. METHODS: STa binding, STa-stimulated cGMP accumulation, and GC-C RNA expression by Northern analysis were determined in primary cultures of rat hepatocytes and H-35 cells, a rat hepatoma cell line, following treatment with dexamethasone and/or interleukin-6 (IL-6). RESULTS: In rat hepatocytes treated with the combination of dexamethasone and IL-6, there was an increase in STa binding, STa-stimulated cGMP accumulation, and GC-C RNA expression as compared to untreated cells. In H-35 cells treated with dexamethasone alone, there was an increase in STa binding, STa-stimulated cGMP accumulation, and GC-C RNA expression as compared to untreated cells. CONCLUSION: Primary cultures of rat hepatocytes and H-35 cells can be utilized to further study upregulation of GC-C in the hepatocyte. The expression of this receptor in hepatocytes, combined with the recent demonstration of circulating guanylin, is consistent with a functional role for GC-C in the liver.

Genomic sequence of the murine guanylin gene.

Guanylin, a 15-amino-acid peptide, is an endogenous ligand of the intestinal receptor guanylate cyclase-C. After binding to this receptor, guanylin increases the intracellular concentration of cyclic GMP and induces chloride secretion. We have isolated a genomic clone containing the entire murine guanylin gene. The guanylin gene is composed of three exons that span 1700 bp. The first 133 nucleotides of upstream promoter sequence lack the canonical TATA, CAAT, and SP1 elements. Guanylin transcription is nearly exclusively limited to the intestine, and the presence of guanylin mRNA is greatest in the distal colon and ileum. Therefore, characterization of the guanylin promoter is likely to provide another paradigm for intestine-specific gene regulation.

Upregulation of Escherichia coli heat-stable enterotoxin receptor in regenerating rat liver.

Guanylate cyclase C (GC-C) is a transmembrane protein that serves as a receptor for the recently characterized endogenous ligand guanylin and for Escherichia coli heat-stable toxin (STa). Binding of either guanylin or STa to intestinal GC-C results in net chloride secretion. Although GC-C is expressed in the rat intestine throughout life, its expression in the rat liver has previously been shown to occur only during the perinatal period. As a step toward elucidating the role of this receptor in the liver, we tested the hypothesis that GC-C mRNA expression could be induced in the adult rat liver following 1) partial hepatectomy, a stimulus for hepatocyte proliferation; 2) intraperitoneal carbon tetrachloride injection, a model of hepatocyte regeneration in the presence of inflammatory changes; and 3) subcutaneous turpentine injection, which generates an acute phase response without hepatocyte proliferation. We demonstrated expression of GC-C mRNA in the regenerating rat liver following either partial hepatectomy or CCl4-induced hepatic necrosis. We have also shown that GC-C mRNA expression occurred in association with an acute phase reaction. Coordinate with the expression of GC-C mRNA, there was upregulation of radiolabeled STa binding to liver plasma membranes prepared from turpentine-treated rats. Maximal expression of GC-C occurred in preparations enriched for the canalicular domain. Although the function of GC-C in the liver is unknown, localization to the canalicular domain would be consistent with a role for GC-C in hepatic chloride secretion, especially in the perinatal liver and during hepatocyte regeneration.