Short-term fasting increases biliary calcium and bilirubin

Effect of Oleoylethanolamide-Based Dietary Supplement on Systemic Inflammation in the Development of Alimentary-Induced Obesity in Mice

The complex effect of oleoylethanolamide-based dietary supplement (OEA-DS) was studied in a model of diet-induced obesity in mice. Physiological, biochemical, and immunohistochemical methods were used to reveal differences in the changes in the weight of experimental animals, morphological changes in the spleen tissues, and changes in the cytokine expression profile in the spleen, blood plasma, and macrophage cell culture. First, it is shown that a hypercaloric diet high in carbohydrates and cholesterol led to the development of systemic inflammation, accompanied by organ morphological changes and increased production of proinflammatory cytokines. In parallel, the use of OEA-DS reduced the intensity of cellular inflammatory reactions, accompanied by a decrease in markers of cellular inflammation and proliferation, such as CD68, Iba-1, and Ki67 in the spleen tissue, and stabilized the level of proinflammatory cytokines (IL-1β, IL-6, TNFα) both in animals and in cell culture. In addition, in the macrophage cell culture (RAW264.7), it was shown that OEA-DS also suppressed the production of reactive oxygen species and nitrites in LPS-induced inflammation. The results of this study indicate the complex action of OEA-DS in obesity, which includes a reduction of systemic inflammation.

Gallstone formation. Local factors

Bile supersaturation is necessary for cholesterol gallstones to form. Not all people with supersaturated bile form gallstones, however, and additional factors must be present. The role of pronucleating substances has been extensively studied. Of these, proteins, especially mucin, are best understood. Mucin is secreted by the gallbladder epithelium and may act as a nidus for crystal nucleation. Other proteins that may act as pronucleators include alpha 1-acid glycoprotein, alpha 1-antichymotrypsin, phospholipase C, and a small calcium binding protein. The role of antinucleating factors is less well understood. Certain drugs, including octreotide and ceftriaxone, may also predispose to stone formation. Another local factor is gallbladder stasis, a well-known risk factor for pigment stone formation. More recent research has focused on the role of bacterial infection, which has long been believed to be a factor in pigment gallstone formation. Newer data also support a role for infection in cholesterol gallstone pathogenesis. Additionally, genetic factors that may predispose a patient to cholesterol gallstones have been identified in mice and in humans.

Establishment and characterization of primary gallbladder epithelial cell cultures in the prairie dog

BACKGROUND

The prairie dog has become the established animal gallstone model. This species has a unique propensity to form cholesterol gallstones in response to dietary manipulations. The development of a reliable gallbladder cell culture technique is critical for understanding pathogenic mechanisms of gallstone formation.

MATERIALS AND METHODS

Prairie dogs underwent laparotomy and cholecystectomy, followed by initiation of cell cultures. [3H]Thymidine incorporation was used to assess cell growth, and cell lines were assessed using routine histochemical and immunohistochemical staining.

RESULTS

Cell yields from prairie dog gallbladders were 4-8 x 10(6) viable cells per animal with viability ranging from 80 to 95%. When plated at 5 x 10(5) cells/cm2, cell clusters, visible within 24 h, coalesced into confluent monolayers within 3-5 days. Cultures remained viable for 6-8 weeks and could be passed for three to four subcultures. Immunohistochemical staining demonstrated a high degree of epithelial purity with immunopositivity for AE1/AE3, and cytokeratin, with no vimentin positivity (mesenchymal antigen). Intracytoplasmic vacuoles demonstrated positive staining for Alcian blue, periodic acid-Schiff, and mucicarmine and an anti-gallbladder mucin antibody confirmed the presence of the glycoprotein mucin.

CONCLUSIONS

This study demonstrates a reliable method for initiation and maintenance of prairie dog gallbladder epithelial cell cultures with a high degree of purity. This technique should allow further studies into the pathogenesis of cholesterol gallstones in this model.

Biliary sludge formation during enteral nutrition: prevalence and natural history

BACKGROUND

Total parenteral nutrition is an etiologic factor in the formation of biliary sludge. We studied whether enteral nutrition is also a risk factor for sludge.

METHODS

Fifty patients with a needle catheter jejunostomy (NCJ) placed during a major abdominal operation underwent preoperative and weekly postoperative ultrasonography until NCJ feedings were discontinued (1 to 6 weeks).

RESULTS

All patients were men. The mean age was 63.2 +/- 1.6 years. Fourteen asymptomatic patients (28.0%) had biliary sludge within 2 weeks of beginning enteral feedings through a NCJ. Complete ultrasonographic resolution of sludge was observed in 13 of the 14 positive patients within 1 to 2 weeks of resuming an oral diet. One patient was lost to follow-up after 14 week; a positive sonogram had persisted but the patient remained asymptomatic. During the period of observation, no other patient had signs of biliary tract disease.

CONCLUSIONS

(1) Biliary sludge may form in some patients during enteral feeding with NCJ. (2) Sludge is cleared by the gallbladder once an oral diet is resumed. (3) There appears to be little risk of complications during postoperative enteral feeding.

Sympathetic and VIP-ergic control of calcium and bicarbonate transport in the feline gall bladder mucosa in vivo

The regulation of calcium ion absorption by the gall bladder mucosa may be important for gall stone formation but this process is poorly understood. In this study performed in anaesthetized cats, the gail bladder lumen was perfused by a buffer equilibrated with 4% CO2 in air. During basal conditions, the pH and the [Ca2+] x [CO3(2-)] ion product decreased in the buffer when passing through the gall bladder lumen. The net absorption of calcium ions and fluid was significantly enhanced by stimulation of the splanchnic nerves. Intravenous infusion of vasoactive intestinal peptide (VIP) increased pH and the [Ca2+] x [CO3(2-)] ion product significantly in the buffer during the passage through the gall bladder lumen. Moreover, the basal fluid absorption was reversed to a net fluid secretion. In view of the presence of noradrenergic and VIP-immunoreactive nerve fibres in the gall bladder wall, and VIP-receptors on the gall bladder epithelial cells, the study suggests the existence of neural control mechanisms influencing the transport of Ca2+ by the gall bladder mucosa. These may be important to reduce potential calcium lithogenicity in the gall bladder lumen.

Dietary fish oil inhibits cholesterol monohydrate crystal nucleation and gallstone formation in the prairie dog

BACKGROUND

Epidemiologic studies suggest that populations consuming a diet rich in fish oil have lower rates of both atherosclerotic heart disease and gallstones. The mechanisms underlying this inhibitory effect on cholesterol gallstone formation remain unclear. We therefore studied the effect of dietary fish oil on bile composition and cholesterol precipitation in an animal model of gallstone disease.

METHODS

Adult male prairie dogs were fed a standard control diet (n = 12) or a lithogenic 1.2% cholesterol diet (n = 16). One half of the animals in each group had their diet supplemented with concentrated fish oil.

RESULTS

After 14 days animals receiving the cholesterol diet all developed biliary cholesterol monohydrate crystals and gallstones. When fish oil was added to this high cholesterol diet, solid cholesterol crystal precipitation and gallstone formation were completely inhibited. This inhibition of gallstone formation was accompanied by a significant decrease in biliary calcium and total protein concentration. Microscopic cholesterol liquid crystals were evident in the bile of all of the animals fed the cholesterol plus fish oil diet. Dietary fish oil also significantly prolonged cholesterol monohydrate crystal observation time in animals receiving the lithogenic diet.

CONCLUSIONS

These data suggest that dietary fish oil exerts a potent antilithogenic effect on cholesterol gallstone disease and may induce a stable liquid crystalline phase retarding nucleation.

Hypercalcemia decreases bile flow and increases biliary calcium in the prairie dog

BACKGROUND

Biliary calcium is known to play an important role in the pathogenesis of gallstones. Calcium salts are present in all pigment gallstones and are also present in the core of most, if not all, cholesterol gallstones.

METHODS

The effects of acute hypercalcemia on bile flow and biliary calcium secretion were examined in 22 prairie dogs during intravenous taurocholate infusion (0, 1.0, 2.25, and 4.5 mumol/kg/min).

RESULTS

Bile flow was linearly correlated with bile acid output in both control (y = 7.62x + 13.5, r = 0.98) and hypercalcemic (y = 7.00x + 10.4, r = 0.96) animals. At lower bile acid outputs (< 3.0 mumol/kg/min), biliary ionized calcium output per increment bile acid output was significantly increased in hypercalcemic animals (0.016 versus 0.011 mumol Ca++ mumol taurocholate, p < 0.001). Bile ionized calcium concentrations approximated Gibbs-Donnan predicted values only at low bile flow rate.

CONCLUSIONS

Hypercalcemia decreases bile flow and increases biliary ionized calcium concentration in the prairie dog. These effects favor the precipitation of calcium salts in bile.

Cholesterol nucleates rapidly from mixed micelles in the prairie dog

Current theory suggests that the nucleation of cholesterol in human bile requires the aggregation and fusion of cholesterol-enriched phospholipid vesicles. This theory is based on observations which do not exclude the precipitation of cholesterol from mixed micelles. The present study examines the role of mixed micelles and vesicles in the formation of cholesterol monohydrate crystals in the prairie dog. The intermicellar bile salt concentration of prairie dog gallbladder bile was determined using equilibrium dialysis. Model bile equivalent to gallbladder bile from cholesterol-fed prairie dogs was used as dialysant yielding the intermicellar (dialysate) concentration of 9 mM. Cholesterol carriers in gallbladder bile from 11 cholesterol-fed animals were then separated by Sephacryl S200 gel filtration chromatography using eluant buffer containing the intermicellar bile salt concentration. Gel filtration chromatography of fresh bile demonstrated that 100% of cholesterol was carried in the mixed micellar fraction with no vesicles observed in any of the 11 animals. The gallbladder bile nucleation time was 2.0 +/- 0.3 days for the cholesterol-fed animals. Gel filtration chromatography immediately after nucleation again revealed a single mixed micellar peak. These data indicate that cholesterol is carried exclusively in and nucleates rapidly from mixed micelles in the cholesterol-fed prairie dog and that cholesterol-phospholipid vesicles are not required in this process.

Human gallbladder bile becomes lithogenic during short-term intravenous hyperalimentation

Biliary sludge formation is reported to be one of the complications of intravenous hyperalimentation (IVH); however, the change in human biliary lithogenicity during IVH treatment has been little studied. To clarify the pathogenesis of IVH-induced biliary sludge, we determined biliary lipid composition, vesicular cholesterol concentration, and nucleation time using gallbladder bile samples collected from three groups: The IVH group comprised 9 patients who received IVH with fasting for a period of 2-8 days prior to surgery for gastrointestinal diseases. The control group comprised 10 patients operated after overnight fasting for gastrointestinal diseases. The cholesterol gallstone group comprised 14 patients surgically treated for cholesterol gallstone disease after overnight fasting. The nucleation time in the IVH group was significantly shorter (7.8 +/- 5.3 days, mean +/- SD) than that in the control group (17.3 +/- 5.5 days), while it did not reach the value in the cholesterol gallstone group (3.1 +/- 3.3 days). The cholesterol saturation index in the IVH group (1.01 +/- 0.27) was higher but not significantly different compared with the control group (0.80 +/- 0.21). The concentrations of biliary lipids and individual bile acid were similar in the IVH and control groups. The vesicular cholesterol concentration in the IVH group (3.0 +/- 2.1 mM) was significantly higher than that in the control group (0.9 +/- 1.0 mM). In conclusion, IVH with fasting causes a rapid cholesterol nucleation time and a higher vesicular cholesterol concentration, thereby inducing an initial stage of gallbladder sludge formation.