Steatocholecystitis: the influence of obesity and dietary carbohydrates

INTRODUCTION: We have recently demonstrated that obese and lean mice fed a high fat diet have increased gallbladder wall fat and decreased gallbladder contractility, cholecystosteatosis. Animal and human data also suggest that diets high in refined carbohydrates lead to gallstone formation. However, no data are available on the role of dietary carbohydrates on gallbladder wall fat and inflammation. Therefore, we tested the hypothesis that both obesity and dietary carbohydrates would increase gallbladder fat and cytokines, steatocholecystitis. METHODS: At 8 wk of age, 47 lean and 22 obese female mice were fed a 45% carbohydrate (CHO) diet while an equal number of lean and obese mice were fed a 75% CHO diet for 4 wk. All mice underwent cholecystectomy, and the gallbladders were snap-frozen. Individual and total lipids were measured by gas chromatography. Interleukin (IL)-1beta, tumor necrosis factor (TNF)-alpha, and IL-6 were measured by enzyme-linked immunosorbent assay. Data were analyzed by analysis of variance and Tukey test. RESULTS: Gallbladder total fat, triglycerides, and cholesterol were maximum (P < 0.001) in obese mice on the 75% CHO diet. Gallbladder TNF-alpha and IL-1beta as well as serum cholesterol levels showed a similar pattern (P < 0.001). Gallbladder saturated free fatty acids and IL-6 levels were highest (P < 0.001) in obese mice on the 45% CHO diet. CONCLUSIONS: These data suggest that (1) both obesity and dietary carbohydrates increase gallbladder total fat, triglycerides, cholesterol, TNF-alpha, and IL-1beta and (2) obesity also increases gallbladder free fatty acids and IL-6. Therefore, we conclude that obesity is associated with steatocholecystitis and that a high carbohydrate diet exacerbates this phenomenon.     

Leptin-resistant obese mice have paradoxically low biliary cholesterol saturation

BACKGROUND: Human obesity is associated with leptin resistance, elevated serum glucose and lipids, hepatic steatosis, and cholesterol gallstone formation. These gallstones are thought to result from hypersecretion of biliary cholesterol as well as biliary stasis. Leptin-resistant Lep(db) obese mice, which are known to have elevated serum leptin, glucose, and lipids, as well as hepatic steatosis, should be an appropriate model for human gallstone formation. Therefore, we tested the hypothesis that leptin-resistant mice would have increased gallbladder volume, biliary cholesterol saturation, and cholesterol crystal formation. METHODS: Sixty lean control mice and 60 Lep(db) obese mice on a low cholesterol chow diet were studied. Gallbladder volumes were measured and bile was pooled to calculate cholesterol saturation index. Serum cholesterol, glucose, and leptin levels were determined from pooled serum. Hepatic fat vacuoles were counted. Bile from a second group of 90 lean control and 59 obese mice was observed microscopically for cholesterol crystal formation. RESULTS: Leptin-resistant obese mice have significantly higher serum cholesterol, glucose, and leptin levels, hepatic fat vacuoles, and gallbladder volume than lean control mice. However, biliary cholesterol saturation index and cholesterol crystal formation were significantly diminished in the obese mice. CONCLUSIONS: These data suggest that leptin-resistant Lep(db) obese mice have (1) increased gallbladder volume, (2) decreased biliary cholesterol saturation despite elevated serum cholesterol and hepatic steatosis, and (3) decreased in vitro cholesterol crystal formation. We conclude that the link between obesity and gallstone formation does not require hypersecretion of biliary cholesterol.     

Leptin-resistant obese mice do not form biliary crystals on a high cholesterol diet

INTRODUCTION: Human obesity is associated with leptin resistance and cholesterol gallstone formation. Previously, we demonstrated that leptin-resistant (Lep(db)) obese mice fed a low cholesterol diet have enlarged gallbladders, but a decreased cholesterol saturation index, despite elevated serum cholesterol. Obese humans, however, consume a high cholesterol diet. Therefore, we hypothesized that on a high cholesterol diet, leptin-resistant mice would have cholesterol saturated bile and would form biliary crystals. METHODS: Eight-week old female lean control (n = 70) and leptin-resistant (n = 72) mice were fed a 1% cholesterol diet for 4 weeks. All animals then had cholecystectomies. Bile was collected, grouped into pools to determine cholesterol saturation index (CSI), and examined for cholesterol crystals. Serum cholesterol and leptin were also measured. RESULTS: Gallbladder volumes for Lep(db) mice were enlarged compared with the lean mice (35.8 microl versus 19.1 microl, P < 0.001), but the CSI for the Lep(db) mice was lower than for the lean animals (0.91 versus 1.15, P < 0.03). The obese animals did not form cholesterol crystals, whereas the lean animals averaged 2.2 crystals per high-powered field (hpf) (P < 0.001). Serum cholesterol and leptin were also elevated (P < 0.001) in the obese animals. CONCLUSIONS: These data suggest that Lep(db) obese mice fed a high cholesterol diet have increased gallbladder volume and decreased biliary cholesterol saturation and crystal formation despite elevated serum cholesterol compared with lean control mice. We conclude that the link among obesity, diet, and gallstone formation may not require hypersecretion of biliary cholesterol and may be related to the effects of diabetes, hyperlipidemia, or both on gallbladder motility.     

Bilirubin monoglucuronide promotes cholesterol gallstone formation

Recent evidence suggests that cholesterol (Ch) solubility in bile is determined by a complex interaction of mixed micelles and lecithin-cholesterol vesicles. Bilirubin monoglucuronide (BMG), which binds to bile salts and incorporates into mixed micelles, may displace cholesterol from micelles into vesicles, thus favoring cholesterol monohydrate crystal precipitation. Therefore, we designed an experiment to test the hypothesis that BMG may enhance cholesterol gallstone formation without inducing cholesterol supersaturation. For 8 weeks, 28 adult male prairie dogs were fed either a control, nonlithogenic diet (0.03% Ch), a high carbohydrate diet (CHO) which has no cholesterol but increases hepatic bilirubin secretion, or the same CHO diet plus 0.03% Ch. Cholecystectomy was then performed, and bile was examined microscopically for stones or crystals and analyzed for BMG and biliary lipids. Cholesterol saturation index was calculated. Cholesterol gallstones were found in none of the control animals and in 13% of the CHO-fed animals. However, the addition of trace cholesterol to the CHO diet resulted in an 88% incidence of cholesterol gallstones (P less than 0.001 vs control, P less than 0.01 vs CHO, respectively). Gallbladder bile was unsaturated with cholesterol in all groups. (control = 0.65 +/- 0.05, CHO = 0.46 +/- 0.05, CHO + 0.03% Ch = 0.70 +/- 0.03). CHO feeding alone or with trace cholesterol significantly elevated gallbladder bilirubin monoglucuronide, phospholipid, and cholesterol concentrations when compared to controls. These data suggest that in the prairie dog a high carbohydrate diet with only trace amounts of cholesterol increases bilirubin monoglucuronide in gallbladder bile and causes cholesterol gallstone formation without inducing cholesterol supersaturation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Nonobese diabetic mice have diminished gallbladder motility and shortened crystal observation time

Diabetes and obesity are strongly associated and are risk factors for cholesterol gallstone disease. Leptinde ficient and leptin-resistant diabetic obese mice have enlarged, hypomotile gallbladders. In addition, bile from gallbladders of leptin-deficient mice has enhanced cholesterol crystal formation, whereas bile from gallbladders of leptin-resistant mice has delayed crystal observation time. To determine the effect of diabetes alone, we hypothesized that leptin-normal, nonobese diabetic (NOD) mice would have reduced biliary motility and rapid crystal formation. Twenty control and 9 prediabetic and 11 diabetic NOD, 12- to 26-week-old mice underwent glucose measurement and cholecystectomy for muscle bath stimulation with neurotransmitters. An additional group of 200 control and 78 NOD 12-week-old mice underwent microscopic bile examination for cholesterol crystal formation. Compared with control mice, prediabetic NOD mice had similar glucose levels and gallbladder volumes. Diabetic NOD mice had higher sugar levels and larger gallbladder volumes (P < 0.001) than control mice. Prediabetic NOD gallbladders had less contractility (P < 0.01) than control gallbladders, and contractility worsened (P < 0.01) in diabeticNODmice.NODmice formed cholesterol crystals earlier than did control mice (P<0.05). Nonobese diabetic NOD mice have (1) decreased gallbladder contraction to neurotransmitters, which worsens with development of diabetes, and (2) rapid crystal formation. We conclude that diabetes alone alters gallbladder motility and cholesterol crystal formation. Presented at Digestive Disease Week, 2004 SSAT Plenary Session, and Residents’ Conference, New Orleans, Louisiana, May 15–21, 2004 (oral presentation). This work was supported by National Institutes of Health grant R01-DK44279.     

Nonalcoholic fatty gallbladder disease: The influence of diet in lean and obese mice

The obesity epidemic has contributed to an increased prevalence of gallstones and a higher percentage of chronic acalculous cholecystitis. Obesity is associated with Type II diabetes and hyperlipidemia in murine models. In addition, we have previously demonstrated that serum glucose, insulin, cholesterol, and triglycerides correlated with gallbladder contractility in murine models. However, the relative role of in sulin resistance and gallbladder fat infiltration in this phenomenon remain unclear. Therefore, we tested the hypothesis that gallbladder wall lipids are related to obesity and diet and are inversely correlated with gallbladder contractility. One hundred lean control (C7BL/6J) and 36 obese leptin-deficient (Lep^ob) 8-week-old female mice were fed either a chow diet or a 1.0% cholesterol, 15% butterfat (high-lipid) diet for four weeks. Pooled gallbladders were then analyzed for free fatty acids (FFA), phospholipids (PL), total cholesterol (TC), and triglycerides (TG). Cholesterol/phospholipid ratios were then calculated. The Lepob mice fed a chow diet had significantly higher (P<0.01) gallbladder lipids than the three other groups. The lean mice that were fed a high-lipid diet had increased (P<0.05) gallbladder TC compared to the lean mice on a chow diet. In addition, the cholesterol/phospholipid ratio was significantly in creased (P<0.01) in the lean mice fed a high-lipid diet compared to the other three groups. Finally, the high-lipid diet decreased gallbladder FFA (P<0.01), PL (P=0.08), and TC (P<0.05) in Lep^ob mice. These data suggest that (1) obese mice have increased gallbladder lipids; (2) a high-cholesterol, high-fat diet increases gallbladder lipids and the cholesterol/phospholipid ratio in lean mice; but (3) de creases gallbladder fatty acids, phospholipids, and cholesterol in obese mice. Prior studies have docu mented similarly decreased gallbladder response to neurotransmitters in obese mice on a chow diet, as well as lean and obese mice on a high-lipid diet. Therefore, we conclude that leptin-deficient obesity and/or a high-fat diet causes nonalcoholic fatty gallbladder disease, which is manifested by diminished gallbladder contractility. Presented at the 2005 American Hepato-Pancreato-Biliary Association Congress, Hollywood, Florida, April 14–17, 2005. Supported by NIH grant R-01 DK44279.     

Ezetimibe ameliorates cholecystosteatosis

BACKGROUND: Cholecystosteatosis is the accumulation of gallbladder wall fats leading to decreased gallbladder emptying. Ezetimibe inhibits intestinal fat absorption and prevents murine gallstone formation. However, the influence of ezetimibe on gallbladder emptying and cholecystosteatosis has not been studied. Therefore, we tested the hypothesis that ezetimibe would improve gallbladder motility by preventing the buildup of fats in the gallbladder wall. METHODS: Forty lean female mice were fed either a control diet or a lithogenic diet for 6 weeks. Half of the mice on each diet received ezetimibe. At 11 weeks of age, all mice were fasted overnight and underwent gallbladder ultrasonography to determine ejection fraction. One week later, the mice were fasted and underwent cholecystectomy. Bile was examined for cholesterol crystals. The gallbladders were snap-frozen for lipid analysis. RESULTS: The lithogenic diet significantly (P < 0.05) increased serum cholesterol, biliary crystals, gallbladder wall cholesterol and cholesterol/phospholipid ratio, and decreased gallbladder ejection fraction. All of these abnormalities were reversed (P < 0.05) by the addition of ezetimibe to the diet. CONCLUSIONS: These data suggest that ezetimibe lowers serum cholesterol, prevents biliary crystals, and normalizes gallbladder wall fat and function. We conclude that ezetimibe ameliorates cholecystosteatosis and may be an effective agent for gallstone prevention.     

The relationship of cholecystectomy and taurocholic acid feeding to bile composition and hepatocyte function in prairie dogs

The prairie dog was used as a model for human gallstone formation. Stones formed in the gallbladder of all animals on a lithogenic diet. Hepatic bile was nonlithogenic, whereas gallbladder bile promoted cholesterol precipitation. Addition of taurocholate to the diet reduced the number of stones and lithogenicity. Cholecystectomy resulted in an increased bile flow and reduced secretion of cholesterol in the animals on a high cholesterol diet. Reduction of cholesterol and bile acid synthesis by negative feedback was demonstrated in isolated hepatocyte culture. The shift of bile salt production to chenodeoxycholates on a high cholesterol intake was demonstrated both in vivo and in vitro. A theory of gallstone formation is presented which hypothesizes a defect in hepatocyte storage of cholesterol rather than bile acid synthesis as the primary effect, relegating the problems to one of a disease of lipid metabolism.     

The role of dietary iron in pigment gallstone formation

Recent studies suggest that dietary factors may be responsible for the increasing incidence of pigment gallstones. Although iron deficiency alters the activities of several hepatic enzymes, its effects on biliary lipid metabolism are not known. The aim of this study was to define the role of dietary iron in pigment gallstone formation. Three groups of prairie dogs were maintained for 2 months on either a control chow (iron-198 ppm), a high-carbohydrate diet with normal iron levels (CHO group; iron-220 ppm), or a high-carbohydrate, iron-deficient (iron-56 ppm) diet (CHO-FeD group). Serum analysis confirmed iron deficiency in the CHO-FeD group. The CHO animals had a significant (p less than 0.01) increase in hepatic bile phospholipids, while CHO-FeD animals had increased (p less than 0.01) concentrations of phospholipids and cholesterol as compared with controls. Similar findings were noted in gallbladder bile with the addition of increased calcium levels in both carbohydrate groups. Calcium bilirubinate crystals and stones were found in only 17% of CHO animals, as compared with 67% of CHO-FeD animals. These data indicate that consumption of diets rich in carbohydrates but deficient in iron alters hepatic metabolism of cholesterol and may be an important etiologic factor in pigment gallstone formation. Iron supplementation may prevent pigment gallstones in certain high-risk groups.     

The effects of ethinylestradiol, a glucose diet and streptozotocin induced diabetes mellitus on gallstone formation and biliary lipid composition in the hamster

Possible risk factors for gallstone formation were examined and the concentrations of biliary lipids and each bile acid in the hepatic and gallbladder bile of hamsters were quantified. Forty female golden Syrian hamsters were divided into 4 groups according to diet; Group I, given control chow, Group II, given an ethinylestradiol and cholesterol supplemented diet, Group III, given a glucose rich diet without induced diabetes mellitus, and Group IV, given a glucose rich diet with diabetes mellitus induced by streptozotocin injection. The formation of cholesterol crystals but not gallstones was induced in Group II associated with a significantly decreased total bile acid concentration in the gallbladder bile but not in the hepatic bile. The formation of cholesterol gallstones and crystals with significantly higher concentrations of cholesterol and phospholipid was observed in Group III, while neither the formation of gallstones nor lithogenicity was enhanced by diabetes mellitus. However, a quite different lithogenicity was evident between the hepatic and gallbladder bile of the Group IV animals. These results suggest that neither the consumption of oral contraceptives nor diabetes mellitus induces gallstone formation, but that these factors can be responsible for dysfunction of the gallbladder.     

The effects of ethinylestradiol,a glucose diet and streptozotocin induced diabetes mellitus on gallstone formation and biliary lipid composition in the hamster

Possible risk factors for gallstone formation were examined and the concentrations of biliary lipids and each bile acid in the hepatic and gallbladder bile of hamsters were quantified. Forty female golden Syrian hamsters were divided into 4 groups according to diet; Group I, given control chow, Group II, given an ethinylestradiol and cholesterol supplemented diet, Group III, given a glucose rich diet without induced diabetes mellitus, and Group IV, given a glucose rich diet with diabetes mellitus induced by streptozotocin injection. The formation of cholesterol crystals but not gallstones was induced in Group II associated with a significantly decreased total bile acid concentration in the gallbladder bile but not in the hepatic bile. The formation of cholesterol gallstones and crystals with significantly higher concentrations of cholesterol and phospholipid was observed in Group III, while neither the formation of gallstones nor lithogenicity was enhanced by diabetes mellitus. However, a quite different lithogenicity was evident between the hepatic and gallbladder bile of the Group IV animals. These results suggest that neither the consumption of oral contraceptives nor diabetes mellitus induces gallstone formation, but that these factors can be responsible for dysfunction of the gallbladder.     

Effect of bile diversion and sphincterotomy on gallbladder muscle contractility and gallstone formation

Feeding prairie dogs a diet rich in cholesterol induces gallstone formation that is preceded by a sustained decrease in gallbladder smooth muscle contractility. Sphincterotomy is known to prevent gallstone formation in cholesterol-fed prairie dogs. Experiments were designed to determine whether the effect of sphincterotomy is a consequence of hepatic bile diversion, and whether bile diversion prevents the altered contractility. Following sham operation, surgical biliary enteric bypass, or sphincterotomy, prairie dogs were fed a high-cholesterol or a regular diet. Gallbladder muscle contractility and the presence of crystals and stones were determined. In sham-operated animals, the cholesterol diet induced a decrease in gallbladder muscle contractility and caused the formation of cholesterol gallstones. In animals with bile diversion and sphincterotomy, the effects of cholesterol feeding were reduced or prevented. Thus, these procedures may prevent stone formation by preventing a reduction in gallbladder contractility. Contractility was depressed in animals with bile diversion fed a regular diet, compared with animals with a sham operation fed a regular diet. The mechanism for this depression may differ from that induced by the cholesterol diet. Diversion, and perhaps sphincterotomy, impairs gallbladder filling. Thus, gallbladder muscle is not stretched and does not contract against a load. This could result in a "disuse atrophy." If the results from our study apply to humans, sphincterotomy may reduce stone formation by preventing the effects of lithogenic bile on gallbladder muscle contractility and by enhancing the ability of the muscle to empty the lithogenic bile.     

Diabetes and hyperlipidemia correlate with gallbladder contractility in leptin-related murine obesity

Obesity is associated with many comorbid conditions including diabetes, hyperlipidemia, and gallstones. However, the interaction among these modalities remains unclear. We recently demonstrated that both leptin-deficient and leptin-resistant obese mice have impaired biliary motility. These obese mice also are diabetic and hyperlipidemic. Therefore, we tested the hypothesis that serum glucose, insulin, cholesterol, and triglyceride levels would correlate with gallbladder contractility. Thirty-four lean control, 10 lean heterozygous leptin-deficient, 18 obese homozygous leptin-deficient, and 12 obese homozygous leptin-resistant mice were fed a nonlithogenic chow diet while nine lean control and nine obese homozygous leptin-deficient mice were fed a high-cholesterol diet for 4 weeks. In vitro gallbladder responses to cholecystokinin (CCK; 10^-8 mol/L), acetylcholine (ACh; 10^-5 mol/L), and neuropeptide Y (NPY; 10^-6 mol/L) were measured. Serum glucose, insulin, cholesterol, and triglyceride levels were measured from pooled serum from an additional 704 animals. Gallbladder responses were greatest for CCK, intermediate for ACh, and least for NPY. Serum glucose, insulin, cholesterol, and triglyceride levels and body weight all correlated similarly, negatively, and significantly (P < 0.001) with gallbladder contractility. Hyperglycemia, insulin-resistance, hyperlipidemia, and body weight in obese mice with leptin dysfunction are associated with poor gallbladder contractility, which in turn may contribute to the association between obesity and gallstone formation. Presented in part at Digestive Disease Week 2003, SSAT Plenary Session and Residents’ Conference, Orlando, Florida, May 17–22, 2003 (oral presentation); and at the Association for Academic Surgery, Poster Session, Boston, Massachusetts, November 7–9, 2002. Supported by grant NIH R-01 DK44279 from the National Institutes of Health.     

An experimental study on preventing gallstone formation by exogenous cholecystokinin

It is well known that stasis of lithogenic bile in the gallbladder is an important factor in cholesterol gallstone formation. In this study, hamsters fed with standard lithogenic diet were given physiologic dose of exogenous cholecystokinin-octapeptide daily to facilitate emptying of the gallbladder. It was found that there was significant reduction in the gallstone formation. This study suggests that gallbladder motility is closely correlated with cholesterol gallstone formation, and administration of exogenous cholecystokinin-octapeptide can effectively prevent gallbladder stasis and reduce the incidence of cholelithiasis. This method may be useful for gallstone prophylaxis in high-risk individuals.     

Stasis before gallstone formation: Altered gallbladder compliance or cystic duct resistance?

Gallbladder stasis occurs before gallstone formation and provides the link between the hepatic secretion of supersaturated bile and cholesterol cholelithiasis. We recently observed that cystic duct resistance increases while sphincter of Oddi resistance is unchanged in the presence of lithogenic bile without gallstones. Whether alterations in gallbladder function also lead to gallbladder stasis has been unclear. Therefore, we tested the hypothesis that before gallstone formation, stasis results from increased cystic duct resistance and altered gallbladder compliance. Adult, male prairie dogs were fed either a trace cholesterol (control) or a 0.4 percent cholesterol-enriched diet. Cystic duct resistance increased but gallbladder compliance was unchanged before gallstone formation. A significant correlation (p < 0.001) was found between the lithogenic index and cystic duct resistance in pregallstone animals. We conclude that increased resistance to flow across the cystic duct, and not altered gallbladder compliance, is etiologically related to bile stasis, an important event in gallstone formation.     

The role of cystic duct resistance in the pathogenesis of cholesterol gallstones

Several recent clinical and laboratory observations suggest that impaired gallbladder emptying is important in the pathogenesis of cholesterol cholelithiasis. However, the exact mechanism by which gallbladder stasis occurs in the majority of patients who form gallstones has not been clear. We tested the hypothesis that impaired gallbladder emptying antedates cholelithiasis and results from increased resistance to bile flow. Using the prairie dog gallstone model, resistance to flow through the cystic duct (CD) and sphincter of Oddi (SO) was measured in control and cholesterol-fed animals. Prairie dogs were fed either a control (trace cholesterol) or a 0.4% cholesterol-enriched diet known to induce gallstones in 6 weeks. Resistance across the CD and SO was measured at 4 weeks (pregallstone) and 16 weeks (gallstone). Resistance was measured by infusing lactated Ringer's solution through the CD and SO at four separate flow rates while gallbladder and distal common bile duct pressures were recorded. Resistance to flow through the cystic duct increased prior to gallstone formation and continued to increase during the 16 weeks of cholesterol feeding. In comparison, sphincter of Oddi resistance remained normal despite chronic exposure to lithogenic bile and formation of stones within the gallbladder. The increased cystic duct resistance observed prior to gallstone formation provides a mechanism for diminished gallbladder emptying and suggests an etiological role for increased cystic duct resistance in the pathogenesis of cholesterol gallstones.     

Analysis of gallbladder bile in morbid obesity

Thirty-seven per cent of our grossly obese patients selected for gastric bypass had cholesterol gallstones. To document the composition of the biliary lipids prior to weight loss, the bile taken from eleven obese patients at the time of gastric bypass was analyzed and the results compared with those in eleven nonobese patients undergoing elective surgery. There was extreme supersaturation of both gallbladder and hepatic bile in all obese patients. The gallbladder bile of all obese patients fell well outside the micellar zone whereas the bile from all but one of the controls fell within the micellar zone. These data provide biochemical support for the clinical association of obesity and cholesterol gallstone formation and are evidence against the possibility that gastric bypass is a lithogenic operation.     

Carbohydrate diet-induced calcium bilirubinate sludge and pigment gallstones in the prairie dog

Epidemiologic studies suggest that consumption of diets rich in carbohydrates may, in part, be responsible for the increasing incidence of pigment gallstone disease. The mechanism by which these dietary components lead to pigment stone formation remains obscure. Furthermore, investigative efforts in this area have been hampered by the lack of a suitable animal model. The present study was undertaken to study the role of complex carbohydrates in pigment gallstone formation in the prairie dog. Two groups of eight animals each were maintained on either a control, nonlithogenic chow, or a high carbohydrate (35% sucrose, 32% rich starch) diet for 2 months. Neither crystals nor gallstones were observed in any of the control animals. All of the carbohydrate fed animals (P less than 0.005 vs control) had calcium bilirubinate crystals and sludge, while microscopic, black stones were present in six of these eight animals (P less than 0.05 vs control). Although hepatic bile bilirubin was unchanged in the carbohydrate-fed group, these animals had a significant increase in hepatic bile calcium (P less than 0.005) and phospholipids (P less than 0.005) when compared to controls. Carbohydrate-fed animals also had a significant increase in gallbladder bile concentrations of phospholipids (P less than 0.001), calcium (P less than 0.001), unconjugated (P less than 0.005), conjugated (P less than 0.005), and total bilirubin (P less than 0.001) as compared to controls. These data indicate that in the prairie dog, carbohydrate feeding results in increased biliary concentrations of phospholipids, calcium and bilirubin, and formation of calcium bilirubinate crystals, sludge and microscopic gallstones.(ABSTRACT TRUNCATED AT 250 WORDS)     

Gallbladder motility in agouti-yellow and leptin-resistant obese mice

BACKGROUND: Obesity is a polygenic disorder that is associated with gallstone disease. We have previously shown that leptin deficiency in obese mice correlates with decreased gallbladder motility, suggesting that leptin plays a role in the link between gallstone disease and obesity. However, most obese humans are leptin-resistant, and relatively few are leptin-deficient. To confirm that leptin dysfunction is responsible for impaired gallbladder motility in obese mice, we hypothesized that leptin-resistant obese mice (Lep(db)) would have abnormal gallbladder motility while obese mice with intact leptin function (Agouti Yellow, A(y)) would have normal gallbladder motility. MATERIALS AND METHODS: Eighteen lean control (C57BL/6J), 10 A(y) and 12 Lep(db) female mice were fasted overnight, weighed, and livers and gallbladders were harvested. Liver weights and gallbladder volumes were measured. Gallbladder contractile responses (N/cm(2)) to acetylcholine (10(-5)M), neuropeptide Y (10(-8,-7,-6) M) and cholecystokinin (10(-10,-9,-8,-7)M) were determined in muscle bath chambers. Results were analyzed by analysis of various (ANOVA) and with the Mann-Whitney Rank Sum Test. RESULTS: Both Agouti yellow (A(y)) and leptin-resistant (Lep(db)) obese mice had body weights, liver weights and gallbladder volumes that were significantly greater (P < 0.01) than lean control mice. Leptin-resistant obese mice had gallbladder responses to acetylcholine, neuropeptide Y and cholecystokinin that were significantly less (P < 0.01) than both lean control and Agouti yellow obese mice. CONCLUSIONS: These data suggest that (1). leptin-resistant obese mice (Lep(db)) have abnormal gallbladder motility and (2). obese mice with normal leptin metabolism (A(y)) have normal gallbladder response to neurotransmitters. We conclude that leptin represents a link between obesity, gallbladder motility and gallstone formation.     

Gallbladder absorption increases during early cholesterol gallstone formation

The hypothesis that the presence of cholelithogenic bile during the early stages of cholesterol gallstone formation promotes gallbladder absorption of water and electrolytes was tested in a prairie dog gallstone model. An increase in gallbladder transport of water and sodium was observed in cholesterol-fed prairie dogs at a time when cholesterol crystals were present, but before gallstone formation. These data suggest that in the presence of cholesterol-saturated bile, in vivo gallbladder absorption is increased during the early stages of cholesterol gallstone formation. The resulting increase in the solute concentration may promote nucleation and, therefore, be an important etiologic factor in cholesterol gallstone formation.