Alimentary production of gallstones in hamsters. 20. Influence of dietary cholesterol on gallstone formation

Enterohepatic cycling of bilirubin as a cause of 'black' pigment gallstones in adult life

In contrast to bile salts, which undergo a highly efficient enterohepatic circulation with multiple regulatory and physiologic functions, glucuronic acid conjugates of bilirubin are biliary excretory molecules that in health do not have a continuing biologic life. Intestinal absorptive cells are devoid of recapture transporters for bilirubin conjugates, and their large size and polarity prevent absorption by passive diffusion. However, unconjugated bilirubin, the beta-glucuronidase hydrolysis product of bilirubin glucuronides can be absorbed passively from any part of the small and large intestines. This can occur only if unconjugated bilirubin is kept in solution and does not undergo rapid bacterial reduction to form urobilinoids. Here we collect, and in some cases reinterpret, experimental and clinical evidence to show that in addition to the well-known occurrence in newborns, enterohepatic cycling of unconjugated bilirubin can reappear in adult life. This happens as a result of several common conditions, particularly associated with bile salt leakage from the small intestine, the most notable ileal dysfunction resulting from any medical or surgical cause. We propose that when present in excess, colonic bile salts solubilize unconjugated bilirubin, delay urobilinoid formation, prevent calcium complexing of unconjugated bilirubin and promote passive absorption of unconjugated bilirubin from the large intestine. Following uptake, reconjugation, and resecretion into bile, this source of 'hyperbilirubinbilia' may be the important pathophysiological risk factor for 'black' pigment gallstone formation in predisposed adult humans.

Ursodeoxycholic acid and cholesterol induce enterohepatic cycling of bilirubin in rodents

BACKGROUND & AIMS

Oral administration of ursodeoxycholic acid (UDCA) and cholesterol causes bile salt malabsorption; the former by competition for and the latter by down-regulation of ileal bile acid transporters. Because ileectomy in rats induces enterohepatic cycling of bilirubin, the hypothesis that dietary steroids might have the same effect was tested.

METHODS

Male inbred C57L/J mice and Sprague-Dawley rats were fed low doses of UDCA, chenodeoxycholic acid (CDCA), or cholesterol added to laboratory chow with simultaneous chow-fed controls. After 1 week (mice) or 2 weeks (rats), indices of bile salt malabsorption and enterohepatic cycling of bilirubin were measured, including bilirubin secretion rates into bile, serum and intestinal bilirubin and bile salt levels, and urobilinogen levels in cecum, large intestine, and feces.

RESULTS

Dietary UDCA and cholesterol, but not CDCA, significantly increased bilirubin secretion rates into bile. In UDCA-fed mice, gallbladder biles contained increased levels of bilirubin conjugates and unconjugated bilirubin, and in 60%, granules of amorphous calcium bilirubinate precipitated. Dietary cholesterol and bile acids, particularly UDCA, increased cecal bile salt levels, unconjugated bilirubin and urobilinogen concentrations, and decreased fecal bilirubin outputs, consistent with colonic absorption.

CONCLUSIONS

By causing bile salt malabsorption, dietary UDCA and cholesterol induce enterohepatic cycling of bilirubin.

Studies on the pathogenesis of diet-induced dog gallstones

Experimental diet-induced dog gallstones contained mainly protein, mucous substances, bile salts, bilirubin, an insoluble pigment which formed an insoluble black residue after acid hydrolysis, and only traces of cholesterol. Added dietary cholesterol was necessary to pigmented gallstone production and led to hypercholesterolemia. In bile, the ratio of cholesterol to bile salts was increased, but phospholipids were increased and cholesterol insolubility was not found. Dry weight, osmolality, and concentration of sodium and potassium in bile were reduced, but were not considered sufficient to influence micelle formation or lipid-pigment solubility. Taurine was reduced in serum and bile and unconjugated bile acids appeared in gallbladder bile; the pKa of these acids is near the pH of bile in these animals and may have caused precipitation of bile acids, accounting for their presence in the stones. Bile cultures were sterile. Total bilirubin content was unaltered but the methods used did not exclude the presence of unconjugated bilirubin as a potential cause of pigment precipitation in aqueous bile. Increased numbers of secretory vesicles occurred in gallbladder epithelium and large amounts of mucus were in the epithelial crypts. These observations suggest that bile proteins or mucous substances are important to lithogenesis in this model.