Lysosomal acid lipase deficiency in rats: lipid analyses and lipase activities in liver and spleen

We report the biological characterization of an animal model of a genetic lipid storage disease analogous to human Wolman's disease. Affected rats accumulated cholesteryl esters (13.3-fold), free cholesterol (2.8-fold), and triglycerides (5.4-fold) in the liver, as well as cholesteryl esters (2.5-fold) and free cholesterol (1.33-fold) in the spleen. Triglycerides did not accumulate, and the levels actually decreased in the spleen. Analysis of the fatty acid composition of the cholesteryl esters and triglycerides showed high percentages of linoleic acid (18:2) and arachidonic acid (20:4) in both organs, especially in the liver. No accumulation of phospholipids, neutral glycosphingolipids, or gangliosides was found in the affected rats. Acid lipase activity for [14C]triolein, [14C]cholesteryl oleate, and 4-methyl-umbelliferyl oleate was deficient in both the liver and spleen of affected rats. Lipase activity at neutral pH was normal in both liver and spleen. Heterozygous rats showed intermediate utilization of these substrates in both organs at levels between those for affected rats and those for normal controls, although they did not accumulate any lipids. These data suggest that these rats represent an animal counterpart of Wolman's disease in humans.     

Effect of dietary palm oil on lipoprotein lipases: lipoprotein levels and tissue lipids in rat

The aims of our study were to investigate the effect of dietary palm oil on the levels of lipoprotein lipase, hepatic lipase, fat distribution (in the aorta and liver), and total cholesterol, HDL, LDL, and triacylglycerol levels in young rats (70 g body wt) over a period of 10 weeks. Palm oil-fed rats showed higher growth rate and lower triacylglycerol levels than the control group. Hepatic lipase activity was correlated to the liver fat distribution (correlation coefficient, r = +0.682) as seen by histopathological sections and was similar for both the palm oil and the control diets. Palm oil-fed rats exhibited a significantly higher HDL cholesterol to total plasma cholesterol ratio when compared to animals fed the control diet. The triacylglycerol levels correlated inversely to the HDL cholesterol levels (r = -0.536) while the lipoprotein lipase (LPL) activity correlated directly to the LDL level (r = +0.617) for both groups of animals. The fatty acid profiles of adipose and liver tissues and plasma revealed that saturated fatty acids--palmitic and stearic--were preferentially incorporated in liver and adipose tissues and less in the plasma. This accounts for lack of deposition in the arterial wall and for the antithrombotic tendency of palm oil. Thus, our present findings suggest that dietary palm oil may not contribute to the risk for coronary heart disease.     

Intercellular transport of lysosomal acid lipase mediates lipoprotein cholesteryl ester metabolism in a human vascular endothelial cell-fibroblast coculture system.

We present results from studies of human cell culture models to support the premise that the extracellular transport of lysosomal acid lipase has a function in lipoprotein cholesteryl ester metabolism in vascular tissue. Vascular endothelial cells secreted a higher fraction of cellular acid lipase than did smooth muscle cells and fibroblasts. Acid lipase and lysosomal beta-hexosaminidase were secreted at approximately the same rate from the apical and basolateral surface of an endothelial cell monolayer. Stimulation of secretion with NH4Cl did not affect the polarity. We tested for the ability of secreted endothelial lipase to interact with connective tissue cells and influence lipoprotein cholesterol metabolism in a coculture system in which endothelial cells on a micropore filter were suspended above a monolayer of acid lipase-deficient (Wolman disease) fibroblasts. After 5-7 d, acid lipase activity in the fibroblasts reached 10%-20% of the level in normal cells; cholesteryl esters that had accumulated from growth in serum were cleared. Addition of mannose 6-phosphate to the coculture medium blocked acid lipase uptake and cholesterol clearance, indicating that lipase released from endothelial cells was packaged into fibroblast lysosomes by a phosphomannosyl receptor-mediated pathway. Supplementation of the coculture medium with serum was not required for lipase uptake and cholesteryl ester hydrolysis by the fibroblasts, but was necessary for cholesterol clearance. Results from our coculture model suggest that acid lipase may be transported from intact endothelium to cells in the lumen or the wall of a blood vessel. We postulate that delivery of acid hydrolases and lipoproteins to a common endocytic compartment may occur and have an impact on cellular lipoprotein processing.     

Cetilistat (ATL-962), a novel pancreatic lipase inhibitor, ameliorates body weight gain and improves lipid profiles in rats.

Cetilistat is a novel inhibitor of pancreatic lipase. The aim of this report is to evaluate the anti-obesity action of cetilistat in diet-induced obesity (DIO) rats. Cetilistat inhibited rat and human pancreatic lipase activity with an IC (50) of 54.8 nmol/l, and 5.95 nmol/l, respectively, meaning that it is 9.2 times more potent for human pancreatic lipase than for that of rat. Cetilistat was orally administered simultaneously with fat emulsion to Sprague-Dawley rats. Plasma triglyceride (TG) concentrations were measured before and after oral fat loading. The elevation in plasma triglyceride concentration by oral fat loading was reduced by cetilistat in a dose-dependent manner at 3, 10, 30, and 100 mg/kg, indicating that cetilistat reduces intestinal fat absorption in rats. Cetilistat was administered to DIO F344 rats as food admixture in a high-fat diet at 4.9, 14.9, or 50.7 mg/kg/day for three weeks. Both triglyceride and nonesterified fatty acid content in the feces were dose-dependently and drastically increased, suggesting the intestinal breakdown of fat and excretion. Body weight (BW) gain and white adipose tissue (WAT) weight were reduced in a dose-dependent manner. In addition, leptin, TG, and total cholesterol (TC) in plasma were reduced and there were no reports of oily stools. These results suggest that cetilistat ameliorates obesity and hyperlipidemia in DIO rats, a plausible animal model of the most common type of human obesity.     

Docosahexaenoic acid-induced amelioration on impairment of memory learning in amyloid beta-infused rats relates to the decreases of amyloid beta and cholesterol levels in detergent-insoluble membrane fractions

We investigated the effects of dietary administration of docosahexaenoic acid (DHA; C22:6n-3) on the levels of amyloid beta (A beta) peptide (1-40) and cholesterol in the nonionic detergent Triton 100 x-insoluble membrane fractions (DIFs) of the cerebral cortex and, also, on learning-related memory in an animal model of Alzheimer's disease (AD) rats infused with A beta peptide (1-40) into the cerebral ventricle. The infusion increased the levels of A beta peptide and cholesterol in the DIFs concurrently with a significant increase in reference memory errors (measured by eight-arm radial-maze tasks) compared with those of vehicle rats. Conversely, the dietary administration of DHA to AD-model rats decreased the levels of A beta peptide and cholesterol in the DIFs, with the decrease being more prominent in the DHA-administered rats. Regression analysis revealed a significant positive correlation between A beta peptide and each of cholesterol, palmitic acid and stearic acid, and between the number of reference memory errors and each of cholesterol, palmitic, stearic and oleic acid; moreover, a significant negative correlation was observed between the number of reference memory errors and the molar ratio of DHA to palmitic plus stearic acid. These results suggest that DHA-induced protection of memory deficits in AD-model rats is related to the interactions of cholesterol, palmitic acid or stearic acid with A beta peptides in DIFs where DHA ameliorates these interactions.     

Enzyme studies on Epstein-Barr virus-transformed lymphoid cell lines from Wolman's disease. Lipases, cholesterol esterase and 4-methylumbelliferyl acyl ester hydrolases

(1) In lymphoid cell lines established by Epstein-Barr virus transformation of B-lymphocytes from normal subjects there exist two lipases hydrolysing triolein (the first one with acid optimum pH and the other one with alkaline optimum pH) and one cholesterol esterase (with acidic optimum pH). The acid triolein lipase (optimum pH 3.75-4.0) and the acid cholesterol esterase are activated by taurocholate (optimal concentration between 1 and 2.5 g/l) whereas alkaline triolein-lipase is inhibited by crude taurocholate. (2) Acid lipase deficiency is demonstrated in lymphoid cell lines from a Wolman's patient, using natural substrates, triolein and cholesteryl oleate (residual activity 5 and 8%, respectively). Thus, this similar deficiency demonstrates that, in lymphoid cell lines, triolein and cholesteryl esters are hydrolysed (under the conditions used here) by a single enzyme, i.e., lysosomal acid lipase muted in Wolman's disease. (3) pH profiles of synthetic substrate hydrolysis show marked differences between methylumbelliferyl oleate and methylumbelliferyl palmitate, and are greatly dependent on the assay conditions used. In the presence of optimal concentrations of taurocholate (1-2.5 g/l), nonspecific carboxylesterases are inhibited and acid lipase is activated: in this case, methylumbelliferyl oleate can be used to demonstrate the acid lipase deficiency in Wolman's lines (15-20% of residual activity). Methylumbelliferyl palmitate hydrolysis is less dependent on assay conditions and thus can be more accurately used for the diagnosis of Wolman's disease, with lower residual activity (10-15%) than using methylumbelliferyl oleate. Thus, Epstein-Barr virus-transformed lymphoid cell lines represent an accurate model system in culture for experimental studies of Wolman's disease.     

Hepatic lipase and HDL metabolism

Hepatic lipase is a lipolytic enzyme that has been suggested to have a role in HDL metabolism. Evidence suggests that HDL-cholesterol level is at least partly regulated by hepatic lipase level. Recent studies have shown that hepatic lipase not only hydrolyzes triglyceride and phospholipid in HDL, but also stimulates HDL cholesterol ester uptake by hepatocytes. Therefore, hepatic lipase, together with lipid transfer proteins, determines both HDL-cholesterol level and its function in reverse cholesterol transport. These conclusions are based on observations from in-vitro model substrate studies, cell culture studies, transgenic animal studies, and clinical studies. At present time, it is not known whether hepatic lipase action increases or decreases risk of developing atherosclerosis.     

Chemical screen to reduce sterol accumulation in Niemann–Pick C disease cells identifies novel lysosomal acid lipase inhibitors

Niemann–Pick C disease (NPC) is a lysosomal storage disorder causing abnormal accumulation of unesterified free cholesterol in lysosomal storage organelles. High content phenotypic microscopy chemical screens in both human and hamster NPC-deficient cells have identified several compounds that partially revert the NPC phenotype. Cell biological and biochemical studies show that several of these molecules inhibit lysosomal acid lipase, the enzyme that hydrolyzes LDL-derived triacylglycerol and cholesteryl esters. The effects of reduced lysosomal acid lipase activity in lowering cholesterol accumulation in NPC mutant cells were verified by RNAi-mediated knockdown of lysosomal acid lipase in NPC1-deficient human fibroblasts. This work demonstrates the utility of phenotypic cellular screens as a means to identify molecular targets for altering a complex process such as intracellular cholesterol trafficking and metabolism.     

Heparin-releasable lipase activity of rat adrenals, ovaries and testes.

The presence of NaCl-resistant, neutral triacylglycerol hydrolase (lipase) activity in rat adrenal gland, ovary and testis was studied. Both adrenals and ovaries but not testes were found to contain such a lipase. The activity of the enzyme in the adrenal gland was lowered during cortisol treatment and hypothyroidism. An elevated adrenal lipase activity was found during hyperthyroidism. Pseudo-pregnant and lactating rats had higher ovarian lipase activities than cyclic rats. Ovarian lipase activity in lactating rats was positively correlated with the serum concentrations of progesterone and of 20 alpha-hydroxyprogesterone and negatively correlated with the high-density-lipoprotein non-esterified cholesterol concentration. The lipase activity of adrenals and of ovaries was largely releasable from these organs by heparin and could be inhibited by an antibody against heparin-releasable liver lipase. This indicated that the lipase is extracellularly located and is similar to 'liver' lipase. A possible role of this lipase in adrenals and ovaries is discussed.     

Homozygosity for a splice junction mutation in exon 8 of the gene encoding lysosomal acid lipase in a Spanish kindred with cholesterol ester storage disease (CESD)

Deficiency of lysosomal acid lipase is expressed in two distinct recognizable phenotypes. Wolman disease represents the severe early onset form, whereas cholesterol ester storage disease is the more benign late onset type. Previous studies have indicated that compound heterozygosity consisting of a G A mutation at the 3 splice junction of exon 8 (E8SJM-allele) together with a null allele of the gene encoding lysosomal acid lipase leads to cholesterol ester storage disease. We have now observed homozygosity for the G A splice junction mutation in a non-related Spanish kindred with the same disease. As expected, the residual activity of lysosomal acid lipase is higher in this case, suggesting that the E8SJM-allele is associated with low residual acid lipase activity. However, the phenotype of the homozygous propositus is more severe compared with the previously described case, indicating that no direct relationship exists between the genotype or residual LAL activity and the precise cholesterol or triglyceride levels in a given patient. Nevertheless, our findings provide convincing evidence that homozygosity for the E8SJM-allele causes cholesterol ester storage disease to at least the same extent as compound heterozygosity consisting of this allele and a null allele.This study was performed in accordance with the ethical standards laid down in the 1964 Declaration of Helsinki     

Weight cycling-induced alteration in fatty acid metabolism

Epidemiological studies have suggested that repeated weight cycling over time may increase the risk of coronary heart disease. The mechanism involved remains poorly understood, but the change in lipid metabolism during weight cycling has been offered as a possible explanation. The present study investigated the effect of weight cycling on the size and fatty acid composition of rat fat pads as well as serum cholesterol, triglyceride, glucose, insulin, and glucagon in rats. Two consecutive weight cycles were induced by 40% energy restriction followed by ad libitum refeeding of either a moderate-fat (MF; 22% energy) or a high-fat (HF; 45% energy) diet. The lipogenic enzymes, including fatty acid synthase, acetyl-CoA carboxylase, malic enzyme, pyruvate kinase, and lipoprotein lipase in the weight-cycled (WC) rats fed only the HF diet, yielded an overshoot of activities at the end of two weight cycles. These changes were accompanied by an 80% increase in the size of the adipocyte and a 40-50% increase in the size of perirenal and epididymal fat tissues in HF-WC rats. Regardless of whether the rats were fed the HF or MF diet, all WC rats showed a gradual reduction in linoleic and alpha-linolenic acid and an increase in palmitic, palmitoleic, and stearic acid in total body lipid. It is concluded that weight cycling in rats may promote body fatness if an HF diet is consumed and can significantly alter whole body fatty acid balance irrespective of whether they consumed an MF or HF diet. Most importantly, the weight cycling led to an overshoot or fluctuation of serum cholesterol, triglyceride, glucose, insulin, and glucagon. If weight cycling is associated with an increased risk of cardiovascular disease, then, part of the mechanism may involve the changes in these risk factors.     

Acid lipase cross-reacting material in Wolman disease and cholesterol ester storage disease

Material cross-reacting with antibodies to acid lipase was demonstrated in fibroblasts of three patients with Wolman disease and three with cholesterol ester storage disease. Quantitation of the immunologically cross-reacting material (CRM) by a single radial immunodiffusion method revealed normal levels in both mutant cell types. CRM specific activity toward triolein and cholesteryl oleate was reduced about 200-fold in the Wolman disease fibroblasts and 50- to 100-fold in the cholesterol ester storage disease cells when compared to normal.     

Hepatic hydroxymethylglutaryl coenzyme A reductase activity in inbred strains of mice

Hydroxymethylglutaryl coenzyme A reductase (HMGR) activity is a major factor in the regulation of cholesterol homeostasis. Enzyme activity is known to vary with age, sex, diurnal cycle, and dietary properties in rats. Mice are available in numerous genetic strains and could be a useful inexpensive animal model for studying diet and genetic interactions in the regulation of cholesterol metabolism. Obese and non-obese C57BL/6J, CBA/J, and obese and non-obese DW dbPas mice were subjected to variations in light cycle, feeding schedule, and pectin and fat composition of their diets. They were then killed by decapitation, and hepatic microsomal HMGR analyzed. The mice responded in the same ways as rats to light cycle, feeding pattern, and sex difference. They exhibited marked differences in HMGR activity due to age, genotype, strain, and diet variations. We conclude that mice will, indeed, offer an excellent animal model for the study of cholesterol metabolism regulation.     

Inhibition of liver lipase in vivo leads to induction of de novo cholesterol synthesis in rat liver

Rats were injected with control-gamma-globulins or anti-liverlipase. The anti-liverlipase treatment resulted in a 69-78% inhibition of the salt-resistant lipase activity (liver lipase) in the liver. De novo cholesterol synthesis was significantly higher in slices of livers from anti-liverlipase treated rats than from control-gamma-globulin injected rats. The anti-liverlipase treatment also affected all plasma lipoprotein fractions. If the rats had been fed a cholestyramine containing diet no effect of anti-liverlipase on cholesterol synthesis was found. In these rats the effects on plasma lipoprotein fractions were more pronounced than in the control fed rats.     

Comparison of the changes in lipid metabolism between hepatoma-bearing and lipopolysaccharide-treated rats

To elucidate the mechanism for hyperlipidemia in the hepatoma-bearing state, changes in some parameters related to the lipid metabolism and serum tumor necrosis factor-alpha (TNF-alpha) level were examined in Donryu rats that had been subcutaneously implanted with an ascites hepatoma cell line of AH109A. These parameters were also examined in rats that had been given a single injection of lipopolysaccharide (LPS), a model for acute infection with TNF-alpha secretion into the blood circulation. The serum triglyceride and total cholesterol (Ch) levels were significantly higher in both the hepatoma-implanted and LPS-injected rats than in normal rats. The level of adipose tissue lipoprotein lipase was decreased by hepatoma implantation and LPS injection, while the hormone-sensitive lipase activity was increased by the same treatments. Fatty acid (FA) oxidation and Ch synthesis were also stimulated by both treatments. The serum TNF-alpha level was noticably elevated by hepatoma implantation and greatly by the LPS injection. This LPS injection increased hepatic FA synthesis. The serum high-density lipoprotein Ch level and hepatic Ch 7alpha-hydroxylase activity were not changed by the LPS injection. Hepatoma implantation led to hyperlipidemia and elevated the serum TNF-alpha level, as did the LPS injection.     

High-cholesterol diet-induced lipoproteins stimulate lipoprotein lipase secretion in cultured rat alveolar macrophages

We have previously shown that cultured rat alveolar macrophages synthesize and secrete lipoprotein lipase into the medium. The purpose of the present experiments is to examine whether cholesterol-enriched lipoproteins from cholesterol-fed animals have any effects on the lipoprotein lipase secretion and the lipid accumulation in macrophages. Macrophages incubated with the VLDL obtained from rats fed a normal diet secreted 2-fold higher amounts of lipoprotein lipase than those without lipoproteins. Intermediate-, low- and very-low-density lipoproteins from rats fed a high-cholesterol diet also enhanced the lipoprotein lipase secretion. Normal high- and low-density lipoproteins, and high-density lipoproteins from hypercholesterolemic animals did not cause any increase in the lipoprotein lipase secretion. The lipoproteins which stimulated the lipoprotein lipase secretion caused intracellular accumulation of both triacylglycerol and cholesterol. It is speculated that macrophages residing in the environment rich in lipoproteins, especially hypercholesterolemic lipoproteins, take them up and accumulate lipids intracellularly, and that this process links with the lipoprotein lipase secretion. The secreted lipoprotein lipase could facilitate, by degrading lipoproteins, the uptake of lipoprotein lipase-modified lipoproteins. Probably such a series of events is of importance in the foam cell formation of macrophages.     

Changes in fat metabolism of black-bone chickens during early stages of infection with Newcastle disease virus

Experiments were conducted to determine the effects of Newcastle disease on chicken fat metabolism. Thirty black-bone chickens were infected intraocularly with the Newcastle disease virus (NDV). Six birds were killed at 0, 12, 24, 48 and 72 h post infection, respectively. Results showed that the NDV infection decreased concentration of high-density lipoprotein cholesterol and increased concentrations of total cholesterol and low-density lipoprotein cholesterol in the plasma. Concentrations of triglycerides and free fatty acid were decreased after their initial increase. NDV infection also dramatically raised the activities of lipoprotein lipase (LPL), hepatic lipase and lipases in the serum. Furthermore, PCR results showed that the incipient infection up-regulated mRNA expression of LPL, adipose triglyceride lipase and nuclear factor peroxisome proliferator-activated receptor alpha (PPARα), but down-regulated them at later stage. Similarly, mRNA expression of fatty acid synthase, acetyl-CoA carboxylase and nuclear factor PPARγ, fatty acid transport protein 1 (FATP1), and 4(FATP4) decreased, whereas fatty acid translocase and fatty acid-binding protein increased initially. Data from Western blotting analysis showed that the changes in protein levels were consistent with mRNA expression. These results indicated that fat metabolism of the chicken was affected by the NDV infection. At the beginning of NDV infection, lipogenesis was inhibited, whereas lipolysis was strengthened. After lipolysis was strengthened, fat metabolism was found to be maximally depressed.     

Adrenocortical function in 4-APP treated rats: a coupled stereological and biochemical study

Adrenocortical function in 4-APP-induced (4-aminopyrazolo[3,4-d]pyrymidine) lipoprotein-deficient rats was studied in relation to quantitative morphologic changes in the gland. 4-APP treatment results in enlargement of the adrenal cortex and its zona fasciculata and reticularis cells. In enlarged livers, cholesterol and free fatty acid concentrations were similar to that of control rats, however a marked accumulation of triglycerides with a concomitant drop in hepatic delta 4-steroid hydrogenase activity was found. A profound drop in serum cholesterol in both, high and low density lipoproteins, as well as triglycerides and plasma corticosterone concentrations was accompanied by a marked lowering of cholesterol and corticosterone concentration in the adrenal gland. Corticosterone output by adrenal homogenates was higher in 4-APP treated rats than in control animals. Such a treatment did not change cholesterol side-chain cleavage, 11 beta-hydroxylase, 3 beta-ol dehydrogenase-isomerase, steroid 5 alpha-reductase and neutral lipase activities when expressing results per unit weight of tissue or protein. However, when calculating per adrenocortical cell, adenine analogue applied increased 11 beta-hydroxylase, steroid 5 alpha-reductase and neutral lipase activities. Thus, coupled biochemical and stereologic studies revealed a complex and multidirectional effect of 4-APP on the rat adrenal cortex. This effect may be caused by serum lipoprotein deficiency and by toxic and stressful action of the adenine analogue on the rat. Also a direct effect of 4-APP on rat adrenal cortex may not be excluded.     

Cholesteryl ester storage disease and Wolman disease: phenotypic variants of lysosomal acid cholesteryl ester hydrolase deficiency

The lysosomal enzyme responsible for cholesteryl ester hydrolysis, acid cholesteryl ester hydrolase, or acid lipase (E.C.3.1.1.13) plays an important role in cellular cholesterol metabolism. Loss of the activity of this enzyme in tissues of individuals with both Wolman disease and cholesteryl ester storage disease is believed to play a causal role in these conditions. The objectives of our studies were not only to directly compare and contrast the clinical features of Wolman disease and cholesteryl ester storage disease but also to determine the reasons(s) for the varied phenotype expression of acid cholesteryl ester hydrolase deficiency. Although both diseases manifest a type II hyperlipoproteinemic phenotype and hepatomegaly secondary to lipid accumulation, a more malignant clinical course with more significant hepatic and adrenal manifestations was observed in the patient with Wolman disease. However, the acid cholesteryl ester hydrolase activity in cultured fibroblasts in both diseases was virtually absent. In addition, fibroblasts from both Wolman disease and cholesteryl ester storage disease were able to utilize exogenously supplied enzyme, suggesting that neither disease was due to defective enzyme delivery by the mannose-6-phosphate receptor pathway. Coculture and cell fusion of fibroblasts from Wolman disease and cholesteryl ester storage disease subjects did not lead to correction of the enzyme deficiency, indicating that these disorders are allelic. However, the activities of the hepatic acid and neutral lipase in these two clinical variants were quite different. Hepatic acid lipase activity was only 4% normal in Wolman disease, but the activity was 23% normal in cholesteryl ester storage disease. The hepatic neutral lipase activity was normal in Wolman disease but increased more than twofold in cholesteryl ester storage disease. These combined results indicate that the clinical heterogeneity in acid cholesteryl ester hydrolase deficiency can be explained by a varied hepatic metabolic response to an allelic mutation.