Browsing by Author "ULLOA, N"
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- ItemEFFECT OF BEAN INTAKE ON BILIARY LIPID SECRETION AND ON HEPATIC CHOLESTEROL-METABOLISM IN THE RAT(1989) RIGOTTI, A; MARZOLO, MP; ULLOA, N; GONZALEZ, O; NERVI, FWe studied the effect of a bean diet on biliary lipid secretion, serum cholesterol concentration, and hepatic cholesterol metabolism in the rat. Rats fed a bean diet for 10-12 days had increased biliary cholesterol output and molar percentage by 300% and 200%, respectively, compared to rats fed an isocaloric and isoproteinic casein diet. Biliary phospholipid output increased 180%. Bile flow and biliary salt output remained in the normal range. Total serum and VLDL cholesterol concentration significantly decreased 27% and 50%, respectively, in the rats fed the bean diet. Hepatic cholesterogenesis was increased 170% in the bean-fed animals. The relative contribution of newly synthesized hepatic cholesterol to total biliary cholesterol increased 200%, and that of endogenous origin only 50%. These results suggested that newly synthetized hepatic cholesterol was preferentially channelled to the biliary cholesterol pathway in bean-fed rats. Although hepatic cholesteryl ester concentration increased 240%, the incorporation of [14C]oleate into hepatic cholesteryl esters was significantly decreased by 30% in isolated hepatocytes of bean-fed animals. These results were consistent with the possibility that the availability of hepatic free cholesterol for biliary secretion was increased in the bean-fed animals. This study demonstrates that bean intake has a profound effect on the metabolic channelling and compartmentalization of hepatic cholesterol, resulting in a significant decrease in total serum and very low density lipoprotein cholesterol concentrations and a high biliary cholesterol output.
- ItemINFLUENCE OF LEGUME INTAKE ON BILIARY LIPIDS AND CHOLESTEROL SATURATION IN YOUNG CHILEAN MEN - IDENTIFICATION OF A DIETARY RISK FACTOR FOR CHOLESTEROL GALLSTONE FORMATION IN A HIGHLY PREVALENT AREA(1989) NERVI, F; COVARRUBIAS, C; BRAVO, P; VELASCO, N; ULLOA, N; CRUZ, F; FAVA, M; SEVERIN, C; DELPOZO, R; ANTEZANA, C; VALDIVIESO, V; ARTEAGA, AChileans and North American Indians have one of the highest prevalence rates of cholesterol gallstones in the world. The most common theory to explain this has been the operation of some as yet undefined genetic risk factor in these populations. Searching for some common environmental factor for gallstones in Chileans and North American Indians, we found that beans and other legumes are common foods consumed by both populations. In this study we tested the hypothesis that legume intake may favor the production of biliary cholesterol supersaturation. We studied 20 young men subjected to a diet containing 120 g/day of legumes and a control diet without legumes for a period of 1 mo each. Both diets supplied identical quantities of energy, carbohydrates, protein, total fat, fiber, and cholesterol. Low-density lipoprotein cholesterol concentration decreased by 16% (p < 0.001) after the legume diet. Biliary cholesterol saturation increased in 19 of the 20 subjects; the mean of the group markedly increased from 110% to 169% (p < 0.001) after the legume diet. These results are consistent with the hypothesis that legume intake is a potential risk factor for cholesterol gallstone disease.
- ItemMECHANISM AND KINETIC CHARACTERISTICS OF THE UNCOUPLING BY PLANT STEROIDS OF BILIARY CHOLESTEROL FROM BILE-SALT OUTPUT(1985) ULLOA, N; NERVI, FIn male Wistar rats fed diets containing different plant steroids, including sitosterols, diosgenin, digitonin and saponin from gypsophila, biliary cholesterol secretion significantly increased 50% to 300%, whereas biliary bile salt and phospholipid showed minor changes. Both cholesterol and phospholipid outputs were coupled to biliary bile salt output in a curvi-linear relationship which could be fitted by rectangular hyperbolae, in the animals fed with different plant steroids. The theoretical maximal biliary cholesterol output significantly increased by 200% in sitosterol-fed rats and 500% in diosgenin-fed animals. No changes were found in the kinetic characteristics of biliary phospholipid outputs. Adding 2% cholesterol to the diosgenin diet abolished the increment of biliary cholesterol output induced by the plant steroid. The intraperitoneal injection of 45 .mu.mol/kg body wt per day(3 days) diosgenin, a C27-sapogenin, and 65 .mu.mol/kg body wt. per day (3 days) tomatidin, a C27-alkaloid, incorporated in phosphatidylcholine-taurocholate liposomes significantly increased biliary cholesterol output by 70%. These experiments indicated that the plant steroid-induced biliary cholesterol output was independent of the inputs of cholesterol from the diet and from hepatic cholesterogenesis modified by the plant steroid. It was apparent that the profound changes of biliary cholesterol secretion were the consequence of direct effects of the steroids on the intrahepatocytic regulatory mechanisms of biliary cholesterol secretion. This novel effect appears to be a universal characteristic of plant steroids, since it can be elicited by sitosterols, C27-sapogenins, C27-alkaloids, and saponins of the cholanic and .beta.-amirinic group.
- ItemREGULATION OF BILIARY CHOLESTEROL SECRETION - FUNCTIONAL-RELATIONSHIP BETWEEN THE CANALICULAR AND SINUSOIDAL CHOLESTEROL SECRETORY PATHWAYS IN THE RAT(1988) NERVI, F; MARINOVIC, I; RIGOTTI, A; ULLOA, NThe functional interrelationship between biliary cholesterol secretion, sinusoidal lipoprotein cholesterol secretion and bile salt synthesis was studied in the rat. Diosgenin, fructose, and colestipol in the diet were used to, respectively, influence biliary cholesterol output, VLDL production and bile salt synthesis. In the acute bile fistula rat, biliary cholesterol output was 700% increased by diosgenin and 50% decreased by fructose. In the rats fed both diosgenin and fructose, biliary cholesterol secretion was increased only by .apprx. 200%, whereas biliary bile salts and phospholipid outputs were unchanged. In the isolated perfused liver, VLDL-cholesterol output was 50% reduced by diosgenin alone, but was unchanged following feeding of diosgenin plus fructose. However, the livers of rats fed diosgenin plus fructose exhibited a 700% increase in VLDL-triglyceride production and a 200% increase in VLDL-cholesterol output. A significant reciprocal relationship between VLDL-cholesterol secretion and the coupling ratio of cholesterol to bile salts in bile was observed. Colestipol added to the diet maintained both sinusoidal and biliary cholesterol outputs within the normal range. In the chronic bile fistula rat, colestipol increased bile salt synthesis by 100% while diosgenin and fructose diets had no effect. Similarly, the addition of fructose to the colestipol diet did not decrease bile salt synthesis. These data suggest a reciprocal relationship between biliary cholesterol secretion and hepatic secretion of cholesterol as VLDL particles. The free cholesterol pool used for bile salt synthesis seems functionally unrelated to the pool from which VLDL-cholesterol and biliary cholesterol originate. These findings support the idea that metabolic compartmentalization of hepatic cholesterol is a major determinant of the quantity of cholesterol available for recruitment by the bile salt-dependent biliary cholesterol secretory mechanism.
- ItemULTRACENTRIFUGAL ISOLATION OF VESICULAR CARRIERS OF BILIARY CHOLESTEROL IN NATIVE HUMAN AND RAT BILE(1987) ULLOA, N; GARRIDO, J; NERVI, FWe have utilized ultracentrifugation of native bile-Metrizamide density gradients to isolate a vesicular transport system of biliary lipids in both man and rat. We identified vesicular structures by electron microscopy. Fresh bile specimens were obtained from bile fistula rats (unsaturated bile) and from patients 1 week after bile duct surgery (supersaturated bile). Metrizamide was dissolved in bile (33% w/v), and continuous density gradients were performed with undiluted bile (density limits = 1.020 to 1.300 gm per ml). The relative distribution of biliary cholesterol, phospholipid and bile salt was studied as a function of the density of the fractions. Approximately 50% of total rat biliary cholesterol and between 61 and 90% of human biliary cholesterol was concentrated in the lightest fractions of the gradients (density < 1.060 gm per ml). In contrast, less than 20% of bile salts was present in fractions with densities lwoer than 1.060 gm per ml. The highest amounts of bile salts and phospholipids of the bile-Metrizamide density gradients were found in the density range of 1.075 to 1.100 gm per ml in both human and rat bile. More than 80% of biliary proteins was found in fractions with densities > 1.075 gm per ml, and only 2% was found in cholesterol-rich fraction with density < 1.060 gm per ml in both species. When bile salt concentration was raised in rat bile from 38 to 97 mM by adding taurocholate, and low density cholesterol-rich fraction almost disappeared. Electron microscopy of negatively stained preparations of the fractions with density < 1.060 gm per ml showed 40 to 120 nm vesicles, which were not apparent in the other fractions. Similar vesicles were demonstrated also in fresh rat bile and within the canaliculi after acute depletion of the bile salt pool (biliary bile salt concentration of 3.45 mM; total biliary lipid concentration of 0.25 gm%). The structure of these vesicles was shown in thin sections of liver specimens. They appeared as internal cavities surrounded by a single, continuous 6-nm-thick bilayer. These studies demonstrate that a high proportion of biliary cholesterol is transported in vesicles in human supersaturated native bile and that vesicular carriers are also responsible for the transport of a significant amount of biliary cholesterol in unsaturated rat bile. The presence of vesicles in unsaturated hepatic bile strongly supports the thesis that biliary lipids may be secreted as vesicles from the hepatocyte into the canaliculi.