Regulation of plasma triglycerides by ANGPTL4 and GPIHBP1

Cushing, Emily Malcolm

01 August 2018

The absorption, packaging, and delivery of fat to appropriate peripheral tissues is essential for maintaining metabolic homeostasis, and defects or dysregulation of these processes can contribute to metabolic disorders such as diabetes, obesity, and hyperlipidemia. In the intestine, dietary fat is packaged into triglyceride-rich lipoprotein particles and delivered to peripheral tissues through the circulatory system. Lipolysis of lipoprotein triglycerides requires the enzyme lipoprotein lipase (LPL) and takes place on the luminal surface of capillary endothelial cells. Lipolysis by LPL is regulated in part by two proteins, GPIHBP1 and ANGPTL4. GPIHBP1, a GPI-anchored protein of capillary endothelial cells, is responsible for transporting LPL across endothelial cells to the capillary lumen. Without this transport, LPL becomes mislocalized to the interstitial space and cannot access triglyceride-rich lipoproteins, resulting in severe hypertriglyceridemia. Conversely, ANGPTL4 inhibits LPL and ANGPTL4 deficiency results in increased LPL activity and lower plasma triglyceride levels. Our goal is to understand how the interactions between LPL, GPIHBP1, and ANGPTL4 influence the delivery of triglyceride-derived fatty acids to tissues. In this thesis, I (1) use mouse models to elucidate the function of ANGPTL4 in regulating the clearance of diet-derived fat from plasma, (2) describe a mechanism for GPIHBP1-independent plasma triglyceride clearance observed in mice lacking both GPIHBP1 and ANGPTL4, and (3) propose that this GPIHBP1-independent mechanism is also operative in Gpihbp1–/– mice following a high fat diet challenge. The contributions of this thesis are significant because they close a gap in our knowledge of how and where ANGPTL4 functions, as well as indicating that, when ANGPTL4 is suppressed or absent altogether, a GPIHBP1-independent mechanism can function to clear plasma triglycerides.

ANGPTL4

chylomicron

GPIHBP1

LPL

metabolism

triglycerides

Biochemistry

Development of in vitro Chylomicron Assay Using Caco-2 Cells

Sun, Yuxi

01 December 2013

Dietary fats are mainly transported by the intestine in lipoproteins: chylomicrons (CMs) and very low density lipoproteins (VLDLs). Unfortunately, studies of the intestinal absorption of dietary fat have been hampered by the lack of an adequate in vitro model system. As an in vitro model Caco-2 cells are able to secrete lipoproteins. We investigated the possible factors that may affect the secretion of CMs through the ultracentrifugation technique. The dose-dependent effects of oleic acid, mono-olein, egg lecithin, collagen matrix, and the effect of cell differentiation on CM secretion were then tested. We found that oleic acid, lecithin, and cell differentiation are critical for CM secretion by Caco-2 cells. To further confirm that our optimal condition is, in fact, favorable for efficient CM production, we compared it with control groups. We observed that our condition led to more efficient CM secretion as determined by the TGs, ApoB, and TEM analysis.

chylomicron

VLDL

Caco-2 cells

in vitro

Biology

Effet aigü d'une insulinothérapie intensive sur le métabolisme des lipoparticules riches en triglycérides(TRL) intestinales chez le patient diabétique de type 2

Nogueira, Juan Patricio

13 December 2011

La mortalité cardiovasculaire représente la première cause de mortalité chez les sujets diabétiques de type 2. La dyslipidémie de ces patients caractérisée par le quatuor : hypertriglycéridémie, baisse du HDL-cholestérol, augmentation du nombre de LDL petites et denses et hyperlipidémie postprandiale, constitue un facteur de risque prépondérant. Cette dyslipidémie est en grande partie expliquée par l’accumulation sanguine des lipoparticules riches en triglycérides (TRL) d’origine hépatique (VLDL) et intestinale (chylomicrons). L’hyperproduction des chylomicrons, déjà connue pour les VLDL, est une composante nouvellement reconnue d’insulinorésistance. L’action inhibitrice aigüe de l’insuline sur la production des VLDL est absente chez le sujet diabétique de type 2. Dans notre étude, nous avons montré l’absence d’effet aigu de l’insuline sur la production des chylomicrons chez les sujets diabétiques de type 2 grâce à une étude cinétique utilisant un isotope stable (D3-leucine). / The cardiovascular mortality represents the first cause of mortality in human type 2 diabetes. The typical diabetic dyslipidemia characterized by the quartet: high triglyceride levels, low HDL-cholesterol, increased number of small and dense LDL particles and postprandial hyperlipidemia, is a major cardiovascular risk factor. This dyslipidemia is mainly explained by the accumulation of triglyceride-rich lipoproteins (TRL) from liver (VLDL) and intestine (chylomicrons).The overproduction of chylomicrons, as is known for VLDL, is a newly characteristic of insulin resistant states. The acute inhibitory effect of insulin on VLDL production is absent in type 2 diabetic patients. In our study, we have shown the absence of acute inhibitory effect of insulin on chylomicron production in type 2 diabetic patients, using a kinetic study with stable isotope (D3-leucine).

ApoB-48

Diabètes de type 2

Chylomicron

Insuline

Clamp

ApoB-48

Type 2 diabetes

Chylomicron

Insulin

Clamp

Absorption de la vitamine E dans les hypocholestérolémies génétiques / Absorption of vitamin E in patients with genetic hypocholesterolemia

Cuerq, Charlotte

30 June 2016

Les hypocholestérolémies génétiques représentent un ensemble de pathologies héréditaires du métabolisme caractérisées par une hypocholestérolémie inférieure au 5ème percentile pour l'âge et le sexe. Elles sont majoritairement dues à un défaut d'assemblage et de sécrétion des lipoprotéines entraînant, dès la période néonatale, une malabsorption des lipides et des vitamines liposolubles. Les conséquences à long terme peuvent être dramatiques (complications ophtalmologiques et neurologiques graves) si un traitement par vitamines liposolubles, en particulier vitamine E à fortes doses, n'est pas instauré rapidement. Pour ces raisons, l'étude clinique princeps a comparé une formulation de vitamine E rendue hydrosoluble (tocofersolan) à l'acétate de tocophérol liposoluble et traditionnellement utilisé en thérapeutique chez ces patients. En parallèle, un travail sur modèle cellulaire Caco2, nous a permis d'étudier les mécanismes d'absorption/sécrétion de ces deux formulations de vitamine E afin de mieux appréhender les mécanismes mis en jeu. Deux études méthodologiques ont été menées en amont de cette étude clinique. La première visait à vérifier la stabilité des échantillons dans les conditions de transport imposées par l'étude princeps. Par ailleurs, les concentrations effondrées de lipoprotéines chez ces patients rendent difficile l'évaluation du statut en vitamine E par les simples dosages plasmatiques. Aussi, la seconde étude avait pour but d'établir les valeurs usuelles pour les concentrations en vitamine E dans les globules rouges et le tissu adipeux chez l'enfant sain comme outil d'aide au suivi des patients atteints d'hypocholestérolémie génétique. Grâce aux valeurs de référence établies dans ce travail, l'analyse de la vitamine E dans les globules rouges et le tissu adipeux permet de proposer une vue plus globale du statut en vitamine E chez ces patients / Abetalipoproteinemia (ABL) and chylomicron retention disease (CMRD) are rare recessive forms of hypobetalipoproteinemia characterized by an intestinal lipid malabsorption and a severe vitamin E deficiency leading to disabling neuro-ophtalmologic sequelae. Oral a- tocopherol supplementation with high doses has to be initiated as early as possible to prevent or halt progression of complications. The main aim of our work was to investigate the interest of tocofersolan, a water-soluble derivative of RRR-α-tocopherol, compared to a-tocopherol acetate in ABL and CMRD. In parallel, we investigated the mechanisms of absorption / secretion of tocofersolan and a- tocopheryl acetate on Caco2 cells for a better understanding of the mechanisms of their therapeutic efficacy. Two methodological studies were conducted prior to this clinical study. Firstly, we studied the stability of commonly measured vitamins and carotenoids in whole blood in the conditions of transport imposed by the clinical study. Secondly, we established the reference intervals for vitamin E concentrations in red blood cells and adipose tissue in healthy child as a tool to monitore treatment of children with ABL and CMRD with vitamin E. Indeed, the very reduced lipoprotein concentrations in these patients make difficult the assesment of vitamin E status based on plasma a-tocopherol concentrations. The references values established in this work allows us to propose a more comprehensive view of the vitamin E status in these patients

Vitamine E

A-tocopherol

Chylomicron

Hypocholestérolémie génétique

Maladie de rétention des chylomicrons

Abétalipoprotéinémie

Nutrition

Vitamin E

A-tocopherol

Chylomicron

Genetic hypocholesterolemia

Chylomicron Retention Disease

Abetalipoproteinémia

Nutrition

572

Effets des différentes techniques de chirurgie bariatrique sur le métabolisme des lipoprotéines riches en triglycérides(LRT) intestinales et hépatiques chez le patient obèse / Effects of Bariatric Surgery on Hepatic and Intestinal Lipoprotein Particle Metabolism in Obese Humans

Padilla, Nadège

08 July 2014

Introduction/objectif : La dyslipidémie des sujets obèses insulinorésistants est principalement caractérisée par une augmentation plasmatique des LRT hépatiques (LRT-apo-B100) et intestinales (LRT-apo-B48). La chirurgie bariatrique, largement pratiquée dans le traitement de l'obésité, est associée à l'amélioration de nombreuses anomalies métaboliques. Nous avons étudié l'effet de la chirurgie bariatrique sur le métabolisme des LRT intestinales et hépatiques.Méthodes/résultats : Le métabolisme des LRT de 22 patients obèses non diabétiques bénéficiant d'une chirurgie bariatrique : sleeve gastrectomie (SG ; n=12) ou bypass gastrique (BP ; n=10) a été étudié par une méthode d'enrichissement isotopique stable (D3-L-Leucine) en alimentation continue. Chaque sujet a réalisé deux études cinétiques : une 1 mois avant et une 6 mois après la chirurgie. Le résultat principal est une diminution de la taille du pool de LRT-apo-B100 après une SG et un BP (p<0,01) expliquée par une augmentation du taux de clairance des LRT-apo-B100 (SG : p<0,05) sans diminution du taux de production. Le pool de LRT-apo-B48 est significativement réduit après une SG (p<0,05), sans explication claire à part une tendance à la diminution du taux de production. La diminution du pool de LRT-apo-B100 est significativement corrélée à la diminution de la concentration en apo-CIII dans le groupe entier.Conclusion : Cette étude est la première étude cinétique réalisée chez l'Homme explorant les mécanismes d'amélioration du métabolisme des LRT après une chirurgie bariatrique. Cette amélioration du métabolisme peut contribuer à la diminution de la mortalité cardiovasculaire observée après une chirurgie bariatrique. / Introduction and objective: The dyslipidemia of insulin-resistant obese patients is widely characterised by the elevation of plasma triglyceride-rich lipoproteins (TRL) of both hepatic (TRL-apoB-100) and intestinal (TRL-apoB-48) origin. Bariatric surgery is a well-established and effective modality for the treatment of obesity, and is associated with improvements in a number of metabolic abnormalities that are associated with obesity. Here, we have investigated the effect of bariatric surgery on intestinal and hepatic TRL metabolism. Approach and Results: Twenty two non-diabetic, obese subjects undergoing bariatric surgery: sleeve gastrectomy (SG; n=12) and gastric bypass (BP; n=10) were studied using a stable isotope (D3-L-Leucine) enrichment methodology, in the constant fed state. Each subject underwent two lipoprotein turnover studies: 1 month before and 6 months after surgery. The main finding was a reduction in TRL-apo-B100 concentration following both SG and BP procedures (P<0.01 for both), explained by an increase in TRL-apo-B100 fractional catabolic rate (P<0.05 for SG) without a reduction in production rate. TRL-apo-B48 concentration was significantly reduced following SG, with no clear explanation other than a trend towards reduction in production rate. The reduction of TRL-apo-B100 concentration was significantly associated with a reduction of plasma apo-CIII in the pooled group of patients undergoing bariatric surgery. Conclusions: This is the first human kinetic study to explore the mechanism of improvement of TRL metabolism following bariatric surgery. These effects may contribute to the decrease of cardiovascular mortality after surgery.

Obésité

Chirurgie bariatrique

Lipoprotéines riches en triglycérides

Étude cinétique

Métabolisme

Chylomicron

Vldl

Obesity

Bariatric surgery

Triglyceride-Rich lipoproteins

Kinetic study

Metabolism

Chylomicron

Vldl

Postprandial lipoprotein metabolism in patients at high risk of coronary artery disease : effects of statin therapy

Dane-Stewart, Cheryl Ann

January 2003

[Formulae and special characters can only be approximated here. Please see the pdf version of the abstract for an accurate reproduction.] Atherosclerosis is a common degenerative disease in which the clinical manifestations are often through stroke or myocardial infarction. Some of the established risk factors for atherosclerosis include elevated plasma low-density lipoprotein (LDL)-cholesterol levels, obesity, diabetes mellitus (DM) and cigarette smoking. Of the risk factors, an elevation in plasma LDL is one of the most established and the most researched. This is partly a consequence of the deposition of cholesterol within arterial intima being a crucial step in the progression of atherosclerosis, combined with the finding that LDL particles are a major transporter of cholesterol in circulation. Recently there is increasing evidence showing a role of the other major transporter of cholesterol in circulation, chylomicron remnants, in the progression of atherosclerosis. The notion of atherosclerosis as a postprandial phenomenon has been further substantiated by the emergence of evidence showing a direct role of chylomicron remnants in arterial cholesterol deposition. Based on evidence that chylomicron remnants are proatherogenic, the suggestion arises that accumulation of postprandial lipoproteins in plasma may add another dimension of risk to the development of coronary artery disease (CAD). This thesis tests the general hypothesis that individuals with or at high risk of CAD have postprandial dyslipidaemia and that this metabolic abnormality is correctable with a class of lipid-lowering drugs called statins. To test the hypothesis, clinical studies were conducted in normolipidaemic CAD patients, heterozygous familial hypercholesterolaemia (FH) and postmenopausal women with type 2 DM. Determination of postprandial dyslipidaemia by comparison with control populations were conducted initially in each patient group (Studies 1, 3 and 5), followed by intervention studies investigating possible modulation of the dyslipidaemia with a statin (Studies 2, 4 and 6). Six observation statements based on case-control comparisons of postprandial lipaemia in patients with or at risk of CAD and the effects of statins on postprandial dyslipidaemia in the patient groups were derived from the general hypothesis. The observation statements were examined in the individual studies described below. Postprandial lipoprotein metabolism was assessed using a number of methods. For comparison of postprandial lipaemia in Studies 1 and 2, a classic oral fat challenge was utilised. As markers of chylomicrons and chylomicron remnants, retinyl palmitate and triglyceride were measured postprandially as well as apolipoprotein (apo) B48 concentrations, a specific marker of intestinal lipoproteins. ApoB48 was also measured in the fasting state and found to predict the postprandial responses of retinyl palmitate, triglyceride and apoB48. This suggested that fasting measurement of apoB48 could be used as a simple indicator of postprandial dyslipidaemia. Consequently for Studies 3 - 6, fasting apoB48 measurements were used as primary markers of postprandial dyslipidaemia. Other markers for chylomicrons and their remnants utilised were fasting plasma concentrations of remnant-like particle-cholesterol (RLP-C) and apoC-III. As well as these static markers, chylomicron remnant catabolism was measured using a stable isotope breath test. The breath test involves the intravenous injection of a chylomicron remnant-like emulsion labelled with ¹³C-oleate and measurement of enriched ¹³CO2 in expired breath by isotope ratio mass spectrometry. The fractional catabolic rate (FCR) of the injected emulsion was subsequently calculated using multi-compartmental modeling (SAAM II). The studies are presented in this thesis as published and unpublished works. In Study 1, postprandial lipoprotein metabolism was compared between 18 normolipidaemic CAD patients (cholesterol 4.54 ± 0.12 mmol/L, triglyceride 1.09 ± 0.16) with 13 asymptomatic healthy controls using an oral fat challenge. Normolipidaemic CAD patients had higher postprandial area-under-curve (AUC) for triglyceride (+34%, p=0.019), retinyl palmitate (+74%, p=0.032) and apoB48 (+36%, p<0.001). Fasting apoB48 was also higher (+41%, p=0.001) and found to correlate significantly with AUC of triglyceride (p=0.017), retinyl palmitate (p=0.001) and apoB48 (p<0.001). The data suggest that normolipidaemic CAD patients have increased concentrations of intestinal lipoproteins in the fasting and postprandial state. In addition to these findings, significant correlations of fasting apoB48 with postprandial markers (p<0.02) suggests the fasting marker to be a simpler surrogate marker for the degree of total postprandial lipaemia. Study 2 investigated the effect of atorvastatin treatment on postprandial dyslipidaemia found in the 18 near-normolipidaemic CAD patients from Study 1. The trial was conducted in a randomised, placebo-controlled design, using oral fat challenges before and after 12-weeks atorvastatin/placebo treatment. Compared with the placebo group, atorvastatin decreased the total postprandial AUC for iii triglyceride (-22%, p=0.05) and apoB48 (-34%, p=0.013). Fasting markers of apoB48 (-35%, p=0.019) and RLP-C (-36%, p=0.032) also decreased significantly. Atorvastatin was also found to increase LDL-receptor activity by +218% (p<0.001) as reflected in binding studies. The data suggest atorvastatin reduces the fasting levels of intestinal lipoproteins as well as total postprandial lipaemia, but without acute dynamic changes in postprandial lipaemia. The reduction in fasting and total postprandial lipoprotein levels could be partly attributed to an increase in LDL-receptor mediated removal from circulation. In Study 3, postprandial lipaemia was compared in 15 heterozygous FH patients with 15 healthy controls. FH patients had higher fasting concentrations of apoB48 (+56%, p<0.001) and RLP-C (+48%, p=0.003). The elevation in these fasting markers of chylomicrons and their remnants suggests FH patients have postprandial dyslipidaemia due to an accumulation of these particles in plasma. Study 4 examined the effects of long- (> 6 months) and short-term (4 weeks) simvastatin treatment on modulating postprandial dyslipidaemia found in the 15 FH patients from Study 3. Short- and long-term simvastatin treatment decreased the fasting concentrations of apoB48 (-29% and 15% respectively, p<0.05) and RLP-C (both -38%, p<0.001), but did not significantly alter the FCR of the injected chylomicron remnant-like emulsion. The data suggest that in heterozygous FH both long- and short-term simvastatin treatments decrease the fasting markers of postprandial lipoproteins by mechanisms that may not be mediated via processes differentiated by the 13CO2 breath test. This implies that the effect on postprandial lipaemia may be from a decrease in production and/or a possible increase in catabolism of triglyceride-rich lipoproteins (TRLs). In Study 5, postprandial lipaemia was compared in 24 postmenopausal women age and body mass index matched with 14 postmenopausal women with type 2 DM. Postmenopausal diabetic women were found to have higher fasting concentrations of apoB48 (+21%, p=0.021) and apoC-III (+16%, p=0.042) as well as lower FCR of the chylomicron remnant-like emulsion (-50%, p<0.001). The data suggest that postmenopausal diabetic women have postprandial dyslipidaemia, and that this is due to delayed catabolism of chylomicron remnants. Study 6 was an hypothesis-generating exercise examining the effects of 4-weeks pravastatin treatment on postprandial dyslipidaemia found in 7 postmenopausal women with type 2 DM from Study 5. Although plasma LDL-cholesterol was reduced (-19%, p=0.028), there were no significant effects found on fasting apoB48 concentrations (-12%, p=0.116) or the FCR of the chylomicron remnant-like emulsion (+38%, p=0.345). A larger sample size of patients and/or treatment with a more potent statin at a dosage known to affect chylomicron remnant metabolism would be required to demonstrate a significant reduction in postprandial dyslipidaemia in postmenopausal women with type 2 DM. The results of the above mentioned studies combined support the general hypothesis that postprandial dyslipidaemia is a feature of patients with or at risk of CAD. This defect may be demonstrated using fasting apoB48 as an indicator of the degree of postprandial lipaemia. Postprandial dyslipidaemia may reflect a reduction in catabolism, as suggested with the breath test in type 2 DM, and/or an over overproduction of chylomicrons. Both these mechanisms would also increase competition for lipolysis and clearance pathways between hepatically and intestinally-derived lipoproteins. The exact mechanisms by which postprandial dyslipidaemia occurs are yet to be determined. Statins appear to improve defective postprandial lipaemia in patients with or at risk of CAD, which is in agreement with the general hypothesis. The effectiveness of a statin is dependant on their potency in inhibiting cholesterol biosynthesis and increasing receptor mediated clearance of LDL and chylomicron remnants. The studies conducted in this thesis show that postprandial dyslipidaemia can be reduced by statins but not to the extent demonstrated in controls. However, the demonstrated reduction in fasting and total postprandial lipaemia translates to a lowering in overall arterial exposure to circulating proatherogenic particles. The elevation in fasting and postprandial levels of proatherogenic chylomicron remnants found in the patient groups described in this thesis indicates another dimension to their risk of coronary disease. The reductions in the overall levels of proatherogenic particles in patients with or at high CAD risk, infers a possible reduction in the risk of coronary disease in these patients.

Lipoproteins -- Metabolism -- Disorders

Statins (Cardiovascular agents)

Atherosclerosis -- Pathogenesis

Atherosclerosis -- Chemotherapy

Coronary heart disease -- Pathogenesis

Coronary heart disease -- Chemotherapy

Chylomicron

Chylomicron remnant

Postprandial

Efeitos da dieta vegetariana no metabolismo de quilomícrons e aspectos qualitativos da lipoproteína de alta densidade (HDL) / Effects of vegetarian diets on chylomicron metabolism and high density lipoprotein qualitative aspects (HDL)

Vinagre, Juliana Christiano de Matos

02 December 2010

Dietas vegetarianas oferecem baixo conteúdo calórico, baixos níveis de gordura saturada, colesterol, proteína animal e mais altos de gordura polinsaturada, carboidratos, fibras, magnésio, boro, folato e antioxidantes. Todos esses nutrientes influenciam nos fatores de risco de doenças cardiovasculares como hipertensão arterial, diabetes mellitus, obesidade e dislipidemias. Níveis plasmáticos de colesterol total, colesterol de lipoproteína de baixa densidade (LDL), de lipoproteína de densidade muito baixa (VLDL) e triglicérides em indivíduos vegetarianos são menores, em vários estudos, quando comparados a indivíduos onívoros. O metabolismo de quilomícrons (Qm) e dos seus produtos de degradação pela lipase lipoprotéica, os remanescentes, lipoproteínas que transportam os lípides da dieta na circulação sanguínea, não foi avaliado até o momento e está relacionado à aterosclerose. O objetivo deste estudo foi avaliar a cinética plasmática de quilomícrons artificiais marcados com triglicérides (TG-3H) e éster de colesterol (EC-14C) e aspectos qualitativos da HDL, em 18 indivíduos ovolacto-vegetarianos (excluem da alimentação carne, frango e peixe), 21 indivíduos veganos (não consomem nenhum alimento de origem animal), há pelo menos 5 anos e 29 indivíduos onívoros (consomem alimentos de origem animal), todos normolipidêmicos, não diabéticos e sem uso de medicamentos hipolipemiantes. Após a injeção endovenosa dos Qm artificias, foram colhidas amostras de sangue em tempos pré-estabelecidos durante 60 minutos. A radioatividade em cada uma das amostras foi medida para o cálculo da taxa fracional de remoção (TFR) dos lípides radioativos, através de análise compartimental. Foram realizadas as determinações bioquímicas nesses indivíduos e calculada a atividade da lipase lipoprotéica pós-heparina, em ensaio in vitro. Verificou-se também a transferência de lípides de uma nanoemulsão lipídica para a lipoproteína de alta densidade (HDL) e o diâmetro dessa lipoproteína. A remoção plasmática dos remanescentes de quilomícrons avaliada pela taxa fracional de remoção do éster de colesterol da emulsão, foi maior nos veganos (p<0,05) e ovolacto-vegetarianos (p<0,05) comparando-se aos onívoros, enquanto que o processo de lipólise dos quilomícrons, avaliado pela taxa fracional de remoção dos triglicérides da emulsão e pela medida da atividade da lipase lipoprotéica in vitro foi similar nos três grupos avaliados. Não foram encontradas diferenças significativas nas concentrações plasmáticas de HDLC, VLDL e triglicérides entre os grupos estudados .No grupo vegano, as concentrações plasmáticas de LDL-C e glicose foram menores quando comparadas apenas ao grupo dos onívoros (p<0,05, p<0,01; respectivamente). Já em relação ao colesterol total, os indivíduos veganos apresentaram menores níveis quando comparados tanto aos ovolacto-vegetarianos (p<0,05) como aos onívoros (p<0,01). Não observou-se diferença na transferência de lípides da nanoemulsão para a HDL e no tamanho da HDL entre os três grupos. Os resultados do presente estudo sugerem que a dieta vegana e ovolacto-vegetariana aceleram a remoção dos remanescentes de quilomícrons, lipoproteínas aterogênicas, o que pode estar relacionado, aos efeitos benéficos dessa dieta em relação a doenças em relação ao processo aterosclerótico / Vegetarian diets provide less caloric content, low levels of saturated fats, cholesterol and animal protein while providing at the same time providing high levels of polyunsaturated fats, carbohydrates, fibers, magnesium, borium, folate and antioxidants. All these nutrients have an influence upon the cardiovascular diseases such as hypertension, diabetes mellitus, obesity and dyslipidemias. Studies have shown that total cholesterol plasmatic levels, low density lipoprotein (LDL), very low density lipoprotein (VLDL) and triglycerides in vegetarian individuals are lower when compared to omnivores individuals. Chylomicron metabolism (Qm) and its lipoprotein lipase degradation products, the remnants, lipoproteins that transport dietary lipids in the blood has not yet been evaluated, although it is related to atherosclerosis. This study evaluated the plasmatic kinetics of artificial chylomicrons marked with triglycerides (3HTG) and cholesterol esters (14C-CE), as well as the qualitative aspects of HDL in 13 ovolacto-vegetarians (no ingestion of meat, chicken or fish), 10 vegan individuals (no ingestion of any food of animal origin) for more than 5 years and 14 omnivores individuals (ingestion of animal origin foods). All participants were normolipidemic, non diabetic and using no hypolipemiants medication. After an intravenous injection containing artificial Qms, blood samples were collected during 60 minutes at predetermined times. The radioactivity of each sample was measured and the fractional clearance rate (FCR) calculated for the radioactive lipids using compartmental analysis. Biochemical determinations were undertaken in order to calculate the post-heparin lipoprotein lipase activity in vitro. Also evaluated were the lipid transfer of the lipid nanoemulsion to the HDL and the diameter of the HDL particles. The plasma removal of the chylomicron remnants evaluated by the fractional clearance rate of the cholesteryl ester of the emulsion was greater in the vegan (p<0,05) and ovolacto-vegetarian (p<0,05) groups when compared to the omnivore group. The lipolysis of the chylomicron evaluated by the fractional clearance rate of the emulsion triglycerides and by the in vitro lipoprotein lipase activity assay was similar in the three studied groups. There were no differences in the plasma concentrations of HDL-C, VLDL-C and triglycerides between the three groups. The plasma concentrations of LDL-C and glucose of the vegan group were lower than omnivore group (p<0.05 and p<0.01, respectively). In regards to total cholesterol, vegans present lower levels when compared to both ovolactovegetarians (p<0.05) and omnivores (p<0.01). No difference was found in the transfer of nanoemulsion lipids to HDL or in the size of the HDL of all three groups. These results suggest that the vegetarian diet can improve the metabolism of chylomicron remnants, atherogenic lipoproteins, which can be related to the beneficial effects of this diet upon the atherosclerosis process.

Aterosclerose

Chylomicron remnants

Chylomicrons

Diet

Dieta vegetariana

Lipídeos

Lipids

Lipoproteínas

Lipoproteins

Quilomícrons

Remanescentes de quilomícrons

Vegetarian and atherosclerosis

Efeitos do Triton WR 1339, sulfato de protamina E heparina sobre a lipólise e a remoção plasmática de quilomícrons artificiais em ratos / Effects of Triton WR 1339, protamine sulfate and heparin in the lipolise and plasma removal of artificial quilomicrons in rats

Hirata, Mario Hiroyuki

27 December 1985

Emulsões artificiais sem proteína simulando quilomicrons e remanescentes de quilomícron foram preparadas por sonicalcação de trioleína, lecitina, colesteril oleato e colesterol em solução aquosa. A seguir foram ultracentrifugadas em gradiente descontínuo de densidade. As emulsões, marcadas com 3H-trioleína e 14C-colesteril oleato foram injetadas via intra-arterial em ratos controle e em ratos tratados com Triton WR1339, sulfato de protamina e heparina, medindo-se a seguir a remoção plasmática do colesteril-ester e dos triglicérides, durante dez minutos. O Triton WR 1339 e a protamina inibiram a lipólise dos quilomícrons artificiais, diminuindo a remoção destas partículas do plasma. O Triton WR 1339 mostrou ser mais efetivo que a protamina nestes efeitos. Por outro lado, a heparina promoveu uma lipólise rápida e brusca nos quilomícrons artificiais, assim como uma aceleração na remoção destas partículas do plasma. Em contraste flagrante com esses resultados, o metabolismo dos remanescentes de quilomícron não foi consideravelmente afetado pelo tratamento com Triton e heparina. Estas experiências indicam que as emulsões artificiais reproduzem o comportamento metabólico dos quilomícrons e remanescentes de quilomícron naturais, em condições em que a atividade da lipase lipoproteica esteja alterada. / Protein-free emulsions models of chylomicrons and chylomicron remnants were prepared by sonicating triolein, lecithin., cholesteryl oleate and cholesterol in aqueous saline media, followed by ultracentrifugation in density gradient solution. The 3H-triolein and 14C-cholesteryl oleate labeled emulsions were injected into the carotid artery of control rats and rats treated with Triton WR 1339, protamine sulphate and heparin. Plasma removal of both labels was measured during ten minutes in two minutes intervals. Triton WR 1339 and protamine sulphate strongly inhibited lipolysis of chylomicron-like emulsions leading to delayed removal of the particles from blood. Triton WR 1339 de appeared to be more effective than protamine to elicit these effects. On the other hand, heparin produced instantaneous lipolysis of the chylomicron-like particles markedly enhancing its removal from plasma. Contrarily, chylomicron remnant-like emulsions were not considerably affected either by Triton WR 1339 or by heparin treatment. The above described results obtained with artificial emulsions support current concepts on the metabolic behavior of natural chylomicron and remnant submitted to changes in lipoprotein lipase action.

Artificial lipid emulsion

Chylomicron metabolism

Colesterol sérico

Exercício físico

HDL colesterol

Lipoprotein lipase

Dietary Fiber/Carnitine, Diacylglycerol, and Low Glycemic Index Starch Effects on Obesity and Triglyceride Rich Lipoprotein Metabolsim in Dogs

Mitsuhashi, Yuka

2009 December 1900

Obesity is the most common clinical disorder and is associated with various medical conditions in dogs. Appropriate dietary management potentially provides weight loss in a safe, healthy, and efficacious manner. In order to elucidate whether dietary fiber, carnitine, diacylglycerol (DAG), and low glycemic index (LGI) act on such dietary components, a series of studies was conducted: 1) the combination of dietary fiber/carnitine effect on short term (3 and 7 h) satiety and long term (6 weeks) canine weight loss, 2) the combination of dietary LGI/high glycemic index (HGI) starches and DAG/triacylglycerol (TAG) effect during a 9 week canine weight loss period, and 3) the DAG effect on triglyceride rich lipoprotein (TRL) metabolism isolated from canine plasma 3-4 h postprandially. The combination of dietary fiber/carnitine supplementation decreased both food and energy intake at 3 h post-feeding, suggesting that this combination diet provided 3 h post-meal satiety. This combination supplement also increased postprandial plasma B- hydroxybutyrate (BHB) at d 42 and body fat and weight loss at d 42 from baseline. This combination supplement did not alter plasma vitamin A distributions or concentrations although it contained high vitamin A as B-carotene. In the second study, the LGI diets resulted in a more pronounced body weight loss than the HGI diets due to lower diet digestibilities. These data are consistent with LGI diets decreasing metabolizable energy and consequently consuming less energy compared to the HGI diets. The DAG diets lowered postprandial plasma TAG at weeks 1 and 8 in and increased plasma BHB at week 8, suggesting an increase in fat oxidation. The combination of DAG/LGI decreased postprandial total cholesterol at week 8. Lipoprotein concentrations were not altered by diet types. Fasting lipoprotein lipase (LPL) and hepatic lipase (HL) activities were not affected by diets. In the final study, DAG ingestion decreased TRL and plasma TAG concentrations vs. TAG ingestion. The DAG enriched meal increased non-esterified fatty acid, monoacylglycerol, and 1,3-DAG and decreased TAG in TRLs which may be attributed to larger TRL particle size compared to the TAG meal. Consequently, the DAG derived TRLs showed increased affinity of core TAG for LPL and HL in vitro. Moreover, the intravenous injection of the DAG derived canine TRLs into mice underwent more rapid blood clearance associated with the greater hepatic uptake compared to the TAG derived TRL injection. In conclusion, the combination of dietary fiber/carnitine and DAG/LGI preferably reduced body weight and stimulated fat oxidation, which promotes overall weight loss. The postprandial plasma TAG lowering effect of DAG is the result, at least partially, from the efficient clearance of TRLs from blood circulation and their ability to act as a more efficient substrate for plasma lipolytic enzymes.

dietary fiber

carnitine

diacylglycerol

low glycemic index

dietary management of obesity

chylomicron metabolism

Characterization of a novel model of intestinal lipoprotein overproduction and the impact of N-3 PUFA supplementation

Hassanali, Zahra

Unknown Date

No description available.

apoB48

intestine

JCR-LA:cp rat

insulin resistance

cardiovascular disease

chylomicron

n-3 PUFA

lipoprotein

enterocyte