Mg. Muñoz-Roa, Mirna

Background: little information is availaible on the effect of fructose on bile lipids. The first stage in the formation of gallstones corresponds to biliary cholesterol crystallization, derived from the vesicular transporters. The aim of this study was to investigate the influence of consuming diets with different fructose concentrations on serum lipids and their implications on gallstones formation. Methods: BALB/c mice divided into a control group as well as groups were treated with different fructose concentrations (10 %, 30 %, 50 % or 70 %) for different periods (1, 2 or 5 months). Blood, liver and bile samples were obtained. In bile samples, cholesterol and phospholipids levels were analyzed, and cholesterol transporters (vesicles and micelles) were separated by gel filtration chromatography. Results: treated animals showed: 1) increases in body weight similar to the control group; 2) a significant increase in plasma triglycerides only at very high fructose concentrations; 3) a significant increase in total serum cholesterol in the treatment for 1 month; 4) no variations in HDL-cholesterol; 5) a significant increase in serum glucose only at very high fructose concentrations in the second month of treatment; 6) no differences in the plasma alanine-aminotransferase activity; 7) a significant increase in liver triglyceride levels only at very high fructose concentrations; 8) no change in biliary lipid concentrations or in micellar and vesicular phospholipids. Conclusion: changes in plasma, liver and bile lipids were only observed at very high fructose concentrations diets. We conclude that fructose apparently does not alter the gallstone formation process in our experimental model.

Background: It is known that some nutrients play an important role in the development of cholelithiasis. Cholesterol is carried by micelles and vesicles in the bile. During the first stage of gallstone formation, cholesterol crystals derive from thermodynamically unstable vesicles. Aim: To determine the effect of a high fat diet on blood lipids and bile composition, and its implication in the formation of gallstones. Material and Methods: Two groups of 15 BALB/c mice each, coming from the same litter, were treated with a control or with a high-fat diet (64% fat and 0.14% cholesterol). After two months, the animals were sacrificed, blood and bile samples were obtained. Serum glucose and the corresponding lipid profiles were measured. In bile samples, cholesterol and phospholipid levels were analyzed, and cholesterol transporters (vesicles and micelles) were separated by gel filtration chromatography. Results: Treated animals showed an 87% increase in serum total cholesterol (p < 0.01), a 97% increase in HDL-cholesterol (p < 0.05) and a 140% increase in LDL-cholesterol (p < 0.05). No changes in serum triglycerides or glucose were observed. In bile, a 13% increase in biliary cholesterol (p < 0.05) was observed but no change in biliary phospholipids. Also, an increase in biliary vesicular transporters and an increase of cholesterol/phospholipid ratio in vesicular transporters were observed. Conclusions: A high fat diet may contribute to the formation of gallstones in our experimental model.

La vitamina C es uno de los antioxidantes más conocidos. Su ingesta ha sido asociada a un sinnúmero de beneficios, algunos de los cuales tienen un sustento científico débil o inexistente. En esta revisión se presentan en forma resumida aspectos biológicos que determinan la homeostasis de la vitamina C y se discute la información disponible sobre sus posibles efectos benéficos y su ingesta, en diversos países con especial énfasis en algunos grupos de riesgo. También se presentan sus efectos benéficos en inflamación, cáncer y enfermedades cardiovasculares, así como su acción de inmunomodulador y regulador epigenético. Se revisan también algunas fuentes dietarias de vitamina C y los factores que influyen en su estabilidad. Terminando con un análisis general de los trabajos relacionados con conducta de vida saludable en países latinoamericanos, que reflejan los malos hábitos alimentarios y que podrían dar cuenta de una hipovitaminosis de vitamina C aún no reportada y repercutir en el desarrollo de envejecimiento precoz y enfermedades crónicas no transmisibles.

The mammary gland increases energy requirements during pregnancy and lactation to support epithelial proliferation and milk nutrients synthesis. Lactose, the principal carbohydrate of the milk, is synthetized in the Golgi of mammary epithelial cells by lactose synthase from glucose and UPD galactose. We studied the temporal changes in the expression of GLUT1 and GLUT8 in mammary gland and their association with lactose synthesis and proliferation in BALB/c mice. Six groups were used: virgin, pregnant at 2 and 17 days, lactating at 2 and 10 days, and weaning at 2 days. Temporal expression of GLUT1 and GLUT8 transporters by qPCR, western blot and immunohistochemistry, and its association with lactalbumin, Ki67, and cytokeratin 18 within mammary tissue was studied, along with subcellular localization. GLUT1 and GLUT8 transporters increased their expression during mammary gland progression, reaching 20-fold increasing in GLUT1 mRNA at lactation (p < 0.05) and 2-fold at protein level for GLUT1 and GLUT8 (p < 0.05 and 0.01, respectively). The temporal expression pattern was shared with cytokeratin 18 and Ki67 (p < 0.01). Endogenous GLUT8 partially co-localized with 58 K protein and α-lactalbumin in mammary tissue and with Golgi membrane–associated protein 130 in isolated epithelial cells. The spatial-temporal synchrony between expression of GLUT8/GLUT1 and alveolar cell proliferation, and its localization in cis-Golgi associated to lactose synthase complex, suggest that both transporters are involved in glucose uptake into this organelle, supporting lactose synthesis.

Tobacco smoke causes oxidative damage directly by the effect of their oxidants or indirectly through the induction of endogenously produced oxidants and/or inactivation of antioxidants. The oxidative effect of tobacco smoke depends on many variables: dose, time of exposure, tissue or cell type and endogenous antioxidant status. In an attempt to simplify this complex scenario, we examined the effect of a soluble extract of tobacco smoke on the activity of purified antioxidant enzymes (catalase, glutathione peroxidase and superoxide dismutase) and in human plasma. Our results revealed that catalase and glutathione peroxidase were inhibited with an IC50 of 18 and 80 smoker equivalents (arbitrary units), respectively; meanwhile superoxide dismutase was not affected. A similar effect of soluble extract of tobacco smoke was obtained for antioxidant enzymes in human plasma, where catalase was inhibited, while superoxide dismutase was little affected, and glutathione peroxidase increased 20% its activity. Benzo[a]pyrene, a well-known component of tobacco smoke, was partly responsible for catalase inactivation. Although soluble extract of tobacco smoke and benzo[a]pyrene both induced carbonylation of plasma proteins, we ruled out that catalase inhibition would be caused by carbonylation, since the inhibition was reversed by dialysis. Considering the higher sensitivity of catalase to inhibition induced by soluble extract of tobacco smoke and its important role in peroxide elimination, we conceived that benzo[a]pyrene and other compounds of tobacco smoke extract promote a transient peroxide accumulation which could be one of the factors responsible for the oxidative damage in respiratory tract and other tissues in smokers.