Effects of castor oil on lipid metabolism in rats.
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Weanling rats were given diets contained castor oil (CAO-diet), coconut oil (CO-diet), or high-oleic safflower oil (HO-diet) each 10% (wt). No growth retardations were observed on the CAO-diets. The CAO-diet group showed significantly lower serum cholesterol and hepatic triacylglycerols than the HO-diet group. Ricinoleic acid was found at an extremely low level in perirenal adipose tissue. (+info)
IgE enhances Fc epsilon receptor I expression and IgE-dependent release of histamine and lipid mediators from human umbilical cord blood-derived mast cells: synergistic effect of IL-4 and IgE on human mast cell Fc epsilon receptor I expression and mediator release.
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We investigated the effects of IgE versus IL-4 on Fc epsilon RI surface expression in differentiated human mast cells derived in vitro from umbilical cord blood mononuclear cells. We found that IgE (at 5 micrograms/ml) much more strikingly enhanced surface expression of Fc epsilon RI than did IL-4 (at 0.1-100 ng/ml); similar results were also obtained with differentiated mouse mast cells. However, IL-4 acted synergistically with IgE to enhance Fc epsilon RI expression in these umbilical cord blood-derived human mast cells, as well as in mouse peritoneal mast cells derived from IL-4-/- or IL-4+/+ mice. We also found that: 1) IgE-dependent enhancement of Fc epsilon RI expression was associated with a significantly enhanced ability of these human mast cells to secrete histamine, PGD2, and leukotriene C4 upon subsequent passive sensitization with IgE and challenge with anti-IgE; 2) preincubation with IL-4 enhanced IgE-dependent mediator secretion in these cells even in the absence of significant effects on Fc epsilon RI surface expression; 3) when used together with IgE, IL-4 enhanced IgE-dependent mediator secretion in human mast cells to levels greater than those observed in cells that had been preincubated with IgE alone; and 4) batches of human mast cells generated in vitro from umbilical cord blood cells derived from different donors exhibited differences in the magnitude and pattern of histamine and lipid mediator release in response to anti-IgE challenge, both under baseline conditions and after preincubation with IgE and/or IL-4. (+info)
Effects of insulin and amino acids on glucose and leucine metabolism in CAPD patients.
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This study investigates the basal and insulin-stimulated glucose metabolism, substrate utilization, and protein turnover in eight patients maintained on continuous ambulatory peritoneal dialysis (CAPD) (mean age 39+/-5 yr, body mass index [BMI] 108+/-6) and 14 control subjects (mean age 33+/-4 yr, BMI 103+/-3). Euglycemic insulin clamp studies (180 min) were performed in combination with continuous indirect calorimetry and 1-14C leucine infusion (study I). Postabsorptive glucose oxidation was higher (1.75+/-0.18 versus 1.42+/-0.14 mg/kg per min) and lipid oxidation was lower (0.43+/-0.09 versus 0.61+/-0.12 mg/kg per min) in CAPD patients than in control subjects (P<0.05 versus control subjects). During the last 60 min of euglycemic hyperinsulinemia, the total rate of glucose metabolism was similar in CAPD and control subjects (6.33+/-0.51 versus 6.54+/-0.62 mg/kg per min). Both insulin-stimulated glucose oxidation (2.53+/-0.27 versus 2.64+/-0.37 mg/kg per min) and glucose storage (3.70+/-0.48 versus 3.90+/-0.58 mg/kg per min) were similar in CAPD and control subjects. Basal leucine flux (an index of endogenous proteolysis) was significantly lower in CAPD patients than in control subjects (1.21+/-0.15 versus 1.65+/-0.07 micromol/kg per min). Leucine oxidation (0.13+/-0.02 versus 0.26+/-0.02 micromol/kg per min) and nonoxidative leucine disposal (an index of protein synthesis) (1.09+/-0.16 versus 1.35+/-0.05 micromol/kg per min) were also reduced in CAPD compared with control subjects (P<0.01 versus control subjects). In response to insulin (study I), endogenous leucine flux decreased to 0.83+/-0.08 and 1.05+/-0.05 micromol/kg per min in CAPD and control subjects, respectively (all P<0.01 versus basal). Leucine oxidation declined to 0.06+/-0.01 and to 0.19+/-0.02 micromol/kg per min in CAPD and control subjects, respectively (P<0.01 versus basal). A second insulin clamp was performed in combination with an intravenous amino acid infusion (study II). During insulin plus amino acid administration, nonoxidative leucine disposal rose to 1.23+/-0.17 and 1.42+/-0.09 micromol/kg per min in CAPD and control subjects, respectively (both P<0.05 versus basal, P = NS versus control subjects), and leucine balance, an index of the net amino acid flux into protein, become positive in both groups (0.30+/-0.05 versus 0.40+/-0.07 micromol/kg per min in CAPD and control subjects, respectively) (both P<0.01 versus basal, P = NS versus control subjects). In summary, in CAPD patients: (1) basal glucose oxidation is increased; (2) basal lipid oxidation is decreased; (3) insulin-mediated glucose oxidation and storage are normal; (4) basal leucine flux is reduced; (5) the antiproteolitic action of insulin is normal; and (6) the anabolic response to insulin plus amino acid administration is normal. Uremic patients maintained on CAPD treatment show a preferential utilization of glucose as postabsorptive energy substrate; however, their anabolic response to substrate administration and the sensitivity to insulin are normal. (+info)
Characterization of lipid efflux particles generated by seminal phospholipid-binding proteins.
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We reported recently that the choline phospholipid-binding proteins (BSP-A1/-A2, BSP-A3 and BSP-30-kDa) of bovine seminal plasma (BSP) stimulate cholesterol and choline phospholipid efflux from fibroblasts. In this study, we characterized the lipid efflux particles generated by BSP proteins. The density gradient ultracentrifugation of the efflux medium from radiolabeled fibroblasts incubated with BSP proteins showed a single peak of [3H]cholesterol between density (d) 1.12 and 1.14 g/ml, which is in the range of high-density lipoproteins. Size-exclusion chromatographic and immunoblot analysis revealed that the efflux particles have a large size equal to or bigger than very low-density lipoproteins and contained BSP proteins. Lipid analysis of density gradient and gel filtration fractions from efflux medium of simultaneously labeled fibroblasts ([3H]cholesterol and [3H]choline) incubated with BSP proteins showed that the efflux particles were homogeneous and composed of cholesterol and choline phospholipids. The lipid particles contained BSP proteins, cholesterol and choline phospholipids in molar ratio of 0.05:1.21:1, respectively. Agarose gel electrophoresis showed that the BSP-generated lipid particles had a gamma migration pattern which is slower than low-density lipoproteins. The sonication of cholesterol and BSP proteins followed by gel filtration chromatographic analysis indicated no direct binding of cholesterol to BSP proteins. These results taken together indicate that BSP proteins induce a concomitant cholesterol and choline phospholipid efflux and generate large protein-lipid particles. (+info)
Leptin opposes insulin's effects on fatty acid partitioning in muscles isolated from obese ob/ob mice.
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Because muscle triacylglycerol (TAG) accumulation might contribute to insulin resistance in leptin-deficient ob/ob mice, we studied the acute (60- to 90-min) effects of leptin and insulin on [14C]glucose and [14C]oleate metabolism in muscles isolated from lean and obese ob/ob mice. In ob/ob soleus, leptin decreased glycogen synthesis 36-46% (P < 0.05), increased oleate oxidation 26% (P < 0.05), decreased oleate incorporation into TAG 32% (P < 0.05), and decreased the oleate partitioning ratio (oleate partitioned into TAG/CO2) 44% (P < 0.05). Insulin decreased oleate oxidation 31% (P < 0.05), increased oleate incorporation into TAG 46% (P < 0.05), and increased the partitioning ratio 125% (P < 0.01). Adding leptin diminished insulin's antioxidative, lipogenic effects. In soleus from lean mice, insulin increased the partitioning ratio 142%, whereas leptin decreased it 51%, as previously reported (Muoio, D. M. , G. L. Dohm, F. T. Fiedorek, E. B. Tapscott, and R. A. Coleman. Diabetes 46: 1360-1363, 1997). The phosphatidylinositol 3-kinase inhibitor wortmannin blocked insulin's effects on lipid metabolism but only attenuated leptin's effects. Increasing glucose concentration from 5 to 10 mM did not affect TAG synthesis, suggesting that insulin-induced lipogenesis is independent of increased glucose uptake. These data indicate that leptin opposes insulin's promotion of TAG accumulation in lean and ob/ob muscles. Because acute leptin exposure does not correct insulin resistance in ob/ob muscles, in vivo improvements in glucose homeostasis appear to require other long-term factors, possibly TAG depletion. (+info)
Genetic differences in cholesterol absorption in 129/Sv and C57BL/6 mice: effect on cholesterol responsiveness.
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This study compared the cholesterolemic response of two strains of mice with genetically determined differences in cholesterol absorption. When fed a basal low-cholesterol diet, 129/Sv mice absorbed cholesterol twice as efficiently as did C57BL/6 mice (44% vs. 20%). Total lipid absorption, in contrast, averaged 80-82% in both strains. The higher level of cholesterol absorption in the 129/Sv animals was reflected in an adaptive reduction in hepatic and intestinal sterol synthesis. When fed lipid-enriched diets, the 129/Sv mice became significantly more hypercholesterolemic and had twofold higher hepatic cholesterol concentrations than did the C57BL/6 animals even though the conversion of cholesterol to bile acids was stimulated equally in both strains. The difference in cholesterol absorption between these mouse strains was not the result of physicochemical factors relating to the size and composition of the intestinal bile acid pool but more likely reflects an inherited difference in one or more of the biochemical steps that facilitate the translocation of sterol across the epithelial cell. (+info)
Hepatic insulin resistance and defects in substrate utilization in cystic fibrosis.
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Patients with cystic fibrosis (CF)-related diabetes (CFRD) have clinical features of both type 1 and type 2 diabetes. Past studies have documented peripheral insulin resistance in CF, and some studies have noted high hepatic glucose production (HGP) in CF patients. We hypothesized that patients with CF, similar to patients with type 2 diabetes, have hepatic insulin resistance. Cystic fibrosis is a catabolic condition, yet the etiology of catabolism is poorly understood. De novo lipogenesis is energy wasteful and precludes ketogenesis. Patients with CFRD rarely develop ketogenesis, despite insulin deficiency. We speculated that CF patients have de novo lipogenesis, and therefore evaluated substrate utilization in CF. Using [6,6-2H2]glucose and a three-step hyperinsulinemic-euglycemic clamp, we measured HGP in 29 adult CF subjects and 18 control volunteers. Using indirect calorimetry, we measured lipid oxidation, oxidative glucose metabolism, and resting energy expenditure at baseline and at high levels of insulin. All subjects were characterized by oral glucose tolerance testing (OGTT) and National Diabetes Data Group criteria. The CF subjects had increased HGP when compared with control subjects (CF, 3.5+/-0.6; control, 2.5+/-0.5 mg x kg(-1) x h(-1); P = 0.002). Baseline HGP correlated with glucose levels obtained 2 h after a glucose load given for OGTT (r = 0.69, P = 0.001). Suppression of HGP by insulin was significantly less in all CF subgroups than in control subjects at peripheral insulin levels of 16 and 29 microU/ml. At peripheral insulin levels of 100 microU/ml and 198 microU/ml, there was no difference in insulin suppression of HGP between CF and control subjects. At baseline, there was no significant difference between control and CF subjects for glucose or lipid oxidation. During maximum insulin stimulation, there was a greater tendency for nonoxidative glucose metabolism in all CF subjects. The CF subjects with abnormal glucose tolerance also had de novo lipogenesis. Our results indicate that CF patients have several defects in substrate utilization, including de novo lipogenesis. Furthermore, these results suggest that high hepatic glucose production and hepatic insulin resistance contribute to the high incidence of abnormal glucose tolerance in CF. (+info)
Contribution of copper binding to the inhibition of lipid oxidation by plasmalogen phospholipids.
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The role of plasmalogen phospholipids for copper-induced lipid oxidation was evaluated. Using 1H-NMR we observed that the copper (CuSO4)-promoted oxidative degradation of polyunsaturated fatty acids in micellar solution was dose-dependently attenuated by the plasmalogen lysoplasmenylethanolamine from bovine brain (lysoBP-PtdEtn). This was due to a direct interaction of copper ions with the plasmalogen-specific enol ether double bond. The enol ether methine 1H signal decreased on the addition of copper, saturation being reached at a molar ratio of lysoBP-PtdEtn to copper of 1:1. The original 1H signal was recovered almost completely after the addition of EDTA. Enrichment of micelles and low-density lipoproteins (LDLs) with plasmalogen phospholipids led to a decrease in the Cu(II) concentration in the aqueous media. After loading of LDLs in vitro with BP-PtdEtn, the LDL-dependent formation of Cu(I) was decreased, in particular in particles experimentally supplemented with alpha-tocopherol. The suppression of copper-promoted lipid oxidation that was observed in the presence of plasmalogen phospholipids plus alpha-tocopherol was greater than the sum of the protective effects elicited by the two substances alone. In conclusion, the formation of a complex between copper ions and the plasmalogens accounts partly for their inhibition of copper-induced lipid oxidation. (+info)