A Generic Synthesizable HDL Platform for Network on Chip(GSHNoC)

Agrawal, Natwar

03 August 2011

No description available.

Computer Engineering

NoC HDL Platform

NoC Experimental Platform

GSHNoC

Network on Chip Platform

Mulitore Architecture HDL Platform

Natwar Agrawal

Rôle des lipides oxydés dans la régulation de l'activation plaquettaire par les lipoprotéines de haute densité (HDL) plasmatiques et implication dans le diabète de type 2 / Role of oxidized lipids in the regulation of platelet activation by plasma highdensity lipoproteins (HDL) and involvement in type 2 diabetes

Lê, Quang Huy

20 October 2015

Le diabète de type 2 (DT2) est associé à un risque athéro-thrombotique élevé, en partie dû à l'hyperactivation plaquettaire et aux dyslipoprotéinémies. Les lipoprotéines de haute densité (HDL) possèdent des propriétés anti-athérogènes et subissent des modifications glycoxydatives lors du DT2. Notre objectif a été de déterminer les effets d'HDL glycoxydées in vitro ou de DT2 sur les plaquettes sanguines humaines et de déterminer leur contenu en lipides oxydés. Les HDL glycoxydées possèdent des proportions moindres d'acides linoléique et arachidonique dans les phospholipides (PL) et esters de cholestérol, des concentrations plus élevées de dialdéhyde malonique et des principaux acides gras hydroxylés (AGOH) dont les 9-HODE, 13- HODE et 15-HETE dans toutes les classes lipidiques, en particulier dans les PL ainsi que des concentrations très faibles de vitamine E comparativement aux HDL contrôles. Les HDL glycoxydées in vitro et de patients DT2 inhibent de façon dose-dépendante l'agrégation plaquettaire induite par le collagène via le récepteur SR-BI. Ces HDL glycoxydées diminuent la phosphorylation des p38 MAPK et cPLA2 plaquettaires. D'autre part, des HDL contrôles enrichies avec le PC(16:0/13-HODE) inhibent fortement l'agrégation comparativement aux HDL contrôles. De plus, les effets des sous-classes d'HDL, HDL 2 & 3, de DT2 et de témoins ont été testés sur l'agrégation plaquettaire. Les HDL2 de DT2 possèdent des concentrations d'AGOH plus élevées que les HDL3 de DT2 et tendent à inhiber plus l'agrégation plaquettaire. En conclusion, nos résultats montrent que les HDL glycoxydées de patients diabétiques ne perdent pas leurs propriétés anti-agrégantes, qui pourraient être médiées par certaines PL oxydés / Type 2 diabetes (T2D) is associated with a high athero-thrombotic risk, partly due to platelet hyperactivation and dyslipoproteinemia. High-density lipoproteins (HDL) possess antiatherogenic properties and undergo glycoxidation changes in T2D. Our objective was to determine the effects of glycoxidized HDL in vitro or from T2D patients on human blood platelets and to identify their oxidized lipid species. Compared to control HDL, glycoxidized HDL have lower proportions of linoleic and arachidonic acids in phospholipids (PL) and cholesteryl esters, higher concentrations of malondialdehyde and main hydroxylated fatty acid (HOFA) including 9-HODE, 13-HODE and 15-HETE in all lipid classes, especially in PL, and very low concentrations of vitamin E. In vitro glycoxidized and T2D HDL dose-dependently inhibit platelet aggregation induced by collagen via the SR-BI receptor. Glycoxidized HDL decrease the phosphorylation of platelet p38 MAPK and cPLA2. On the other hand, control HDL enriched with oxidized phospholipids i.e. PC(16:0/13-HODE) strongly inhibit platelet aggregation compared to controls. Moreover, the effects of HDL subclasses, HDL 2 & 3, from T2D patients and healthy controls were tested on platelet aggregation. T2D HDL2 have higher concentrations of HOFA than T2D HDL3 and tend to inhibit platelet aggregation to a greater extent. In conclusion, our results show that T2D glycoxidized HDL do not lose their anti-aggregatingproperties and are even more effective than control HDL. These anti-aggregatory effects could be partly due to some oxidized PL species

Diabète de type 2

HDL glycoxydées

Agrégation plaquettaire

Acides gras hydroxylés

Phospholipides oxydés

Sous-classes d’HDL

Type 2 diabetes

Glycoxidized HDL

Platelet aggregation

Hydroxylated fatty acids

Oxidized phospholipids

HDL subclasses

572

NADPH Oxydase et Stress Oxydant au cours de l'Insuffisance Rénale Chronique : modulation par les HDL / NADPH Oxidase and Oxidative Stress during Chronic Kidney Disease : modulation by HDL

Goux, Aurélie

13 December 2010

Les maladies cardiovasculaires (CV) représentent la première cause de mortalité lors de l'insuffisance rénale chronique (IRC). Cette morbidité apparat précocement lors de l'IRC et ne peut être explique par les facteurs de risque traditionnels. Le stress oxydant (SO), composante du cortège métabolique de l'IRC, représente un facteur de risque non traditionnel intriqué avec l'inflammation et la malnutrition. Le but de ce travail a été d'étudier la place du SO dans la survenue des complications CV au cours de l'IRC sur modale animal, puis de comparer le profil protéomique et la fonctionnalité des HDL in vitro entre sujets hémodialysés (HD) et témoins. Le SO au niveau CV a été étudié dans un modèle animal (adénine) d'IRC associé à la malnutrition. L'activité de la NADPH oxydase cardiaque est triple, alors que les activités des complexes de la chaîne respiratoire mitochondriale et de la SOD sont normales. Cette surproduction d'anion super oxyde est associé à une surexpression de l'ostéopontine et du pro-collagène de type I. L'étude protéomique des HDL de sujets HD et témoins a permis de préciser les anomalies qualitatives associées à la baisse des HDL induite par l'IRC. Les propriétés anti-oxydantes des HDL de ces mêmes sujets ont été étudiées in vitro sur un modèle d'oxydation des LDL au cuivre et sur un modèle cellulaire d'activation de la NADPH oxydase. En comparaison aux témoins, les HDL des sujets HD perdent leur capacité de protection des LDL contre l'oxydation. Par contre, la modulation de la NADPH oxydase sur modèle cellulaire est conservée avec les HDL de sujets HD mais serait moindre en présence d'une forte inflammation systémique. Ces résultats suggèrent que le SO est au cœur des complications cardiaques au cours de l'IRC. Parmi les mécanismes de défense endogènes, les propriétés anti-oxydantes des HDL sont en partie altérées chez le sujet HD. / Cardiovascular (CV) diseases are the first cause of mortality during chronic kidney disease (CKD) and cannot only be explained by traditional risk factors (age, gender, dyslipidemia, hypertension). Oxidative stress, which has been associated with CKD, appears as a non-traditional risk factor closely interconnected with inflammation and malnutrition.This study aimed at investigating oxidative stress in CV complications in uremic rats. Then, HDL proteomic profile and in vitro functionality of HDL were compared between hemodialyzed (HD) patients and control subjects.First, an animal model of CKD associated with malnutrition, the adenine-fed rats, was set up in order to study CV oxidative stress. NADPH oxidase activity was increased three-fold, but the maximal activity of mitochondrial respiratory chain complexes and SOD were not different between groups. Superoxide anion output was associated with accumulation of osteopontin and of pro-collagen type I. In a second part, HDL proteomic study from HD and control subjects was performed to characterize qualitative modifications associated with the decrease in HDL observed in CKD. HDL anti-oxidative activities from these subjects were studied in vitro in a model of copper-induced LDL oxidation and in a cellular model of NADPH oxidase activation. Compared to control, HDL from HD patients failed to protect LDL oxidation. By contrast, HDL modulation of NADPH activity is maintained in HD patients but could be impaired by elevated inflammation.These results suggest that oxidative stress is a key event in cardiac complications during CKD. Among protective endogenous mechanisms, HDL anti-oxidative properties could be impaired in HD patients.

Maladies cardiovasculaires

Insuffisance rénale chronique terminale

Stress oxydant

Hémodialyse

Lipoprotéines de haute densité (HDL)

Protéomique

Cardiovascular diseases

End stage renal disease

Oxidative stress

Hemodialysis

High Density Lipoproteins (HDL)

Proteomic

Déficit familial de la LCAT au Québec : description d’une première mutation et contribution du génotype de l’APO E sur le phénotype lipoprotéique

Baass, Alexis

12 1900

Le déficit familial de LCAT (FLD) est une maladie caractérisée par un défaut de l’activité de l’enzyme lecithin:cholesterol acyltransferase (LCAT). Ce défaut résulte en une concentration plasmatique de C-HDL extrêmement basse, des opacités cornéennes prématurées, la présence d’anémie, de protéinurie et d’insuffisance rénale. Nous avons identifié les premiers patients canadiens-français atteints de déficit familial de LCAT. Deux frères, présentant les signes classiques de FLD étaient homozygotes pour une nouvelle mutation du gène de la LCAT: la mutation c.102delG. Cette mutation se traduit au niveau protéique par un changement du cadre de lecture au niveau du codon His35 et l’insertion d’un codon stop en position 61 entraînant une abolition de l’activité LCAT in vitro et in vivo. La présence de cette mutation cause une réduction importante du C-HDL chez les hétérozygotes (22%) et les homozygotes (88%) ainsi qu’une baisse du C-LDL chez les hétérozygotes (35%) et les homozygotes (58%). De plus, le profil lipidique différait de manière importante entre les deux frères atteints de FLD qui présentaient des génotypes APOE différents. Nous suggérons que APOE est un gène qui modifie le phénotype du FLD et pourrait expliquer l’hétérogénéité des profils lipidiques chez les patients atteints de FLD. Nos résultats suggèrent également que l’association du génotype LCAT-/- a un allèle APOE ε2 est un nouveau mécanisme conduisant à la dysbétalipoproteinemie. Finalement nous avons montré des différences importantes dans les sous-populations des HDL chez les deux sujets atteints de FLD. Le porteur de l’allèle APOE ε2 présentait une proportion beaucoup plus importante de HDL immatures (preβ discoïdaux) par rapport a son frère (77.9% vs. 31.0%). / Familial LCAT deficiency (FLD) is a disease characterized by a defect in the enzyme lecithin:cholesterol acyltransferase (LCAT) resulting in low HDL-C, premature corneal opacities, anaemia as well as proteinuria and renal failure. We have identified the first French Canadian kindred with familial LCAT deficiency. Two brothers, presenting classical signs of FLD, were shown to be homozygous for a novel LCAT mutation. This c.102delG mutation occurs at the codon for His35 and causes a frameshift that stops transcription at codon 61 abolishing LCAT enzymatic activity both in vivo and in vitro. It has a dramatic effect on the lipoprotein profile, with an important reduction of HDL-C in both heterozygotes (22%) and homozygotes (88%) and a significant decrease in LDL-C in heterozygotes (35%) as well as homozygotes (58%). Furthermore, the lipoprotein profile differs markedly between the two affected brothers who had different APOE genotypes. We propose that APOE could be an important modifier gene explaining heterogeneity in lipoprotein profiles observed among FLD patients. Our results suggest that a LCAT-/- genotype associated with an APOE ε2 allele could be a novel mechanism leading to dysbetalipoproteinemia. Finally we have identified major differences in the HDL sub-populations of both subjects affected by FLD. The carrier of the APOE ε2 allele presented a much higher proportion of immature HDL particles (discoid preβ) compared to his brother (77.9% vs. 31.0%).

Mutation

102delG

LCAT

FLD

HDL

LpX

dysbêtalipoprotéinémie

APOE

Mutation

102delG

LCAT

FLD

HDL

LpX

dysbetalipoproteinemia

APOE

Albumina modificada por glicação avançada sensibiliza macrófagos à inflamação prejudicando o transporte reverso de colesterol e a atividade anti-inflamatória da HDL / Advanced glycated albumin primes macrophages to an inflammatory response that reduces reverse cholesterol transport and impairs the HDL anti-inflammatory properties

Okuda, Ligia Shimabukuro

03 July 2012

No diabete melito, produtos de glicação avançada (AGE) reduzem o efluxo de colesterol celular o que agrava o desenvolvimento da aterosclerose. Neste estudo, investigou-se o papel da albumina modificada por glicação avançada (albumina-AGE) sobre a sensibilização de macrófagos à resposta inflamatória e o impacto da secreção de citocinas, quimocinas e moléculas de adesão sobre o efluxo de colesterol mediado por apolipoproteína A-I e subfrações de HDL. Além disso, determinou-se a capacidade da HDL em modular a resposta inflamatória em macrófagos tratados com albumina-AGE. Macrófagos de peritônio de camundongo foram tratados com ou sem sobrecarga de colesterol, na presença de 2 mg/mL de albumina-controle (albumina-C) ou albumina-AGE, por 72 h, seguindo-se de incubação, por 24 h, com calgranulina S100B (20 g/mL) ou lipopolissacarídeo (LPS; 1 g/mL). Em comparação com albumina-C, a albumina-AGE, isenta em endotoxinas, isoladamente não alterou a secreção de citocinas em macrófagos. No entanto, a albumina-AGE sensibilizou macrófagos não enriquecidos em colesterol a uma maior secreção de interleucina 6 (IL-6), fator de necrose tumoral alfa (TNF-), proteína quimoatraente de monócitos 1 (MCP-1), interlucina 1 beta (IL-1) e molécula de adesão celular vascular 1 (VCAM-1) após estimulação com S100B ou LPS, o que foi potencializado pela sobrecarga de colesterol celular. Em macrófagos não estimulados, o meio condicionado, advindo das incubações de células com albumina-AGE e S100B (meio enriquecido em citocinas), reduziu o efluxo de 14C-colesterol mediado por apoA-I, HDL2 e HDL3 em, respectivamente, 23%, 43% e 20%, em comparação com células incubadas com meio isolado do tratamento com albumina-C e S100B. De forma similar, o efluxo de 14C-colesterol mediado por apoA-I, HDL2 e HDL3 foi reduzido em macrófagos tratados com meio advindo de incubações com albumina-AGE e LPS, respectivamente, 37%, 47% e 8,5% em comparação ao tratamento com albumina-C e LPS. Em macrófagos tratados com albumina-C e S100B, a incubação prévia com HDL reduziu a secreção de IL-6, TNF-, MCP-1 e VCAM-1 em, respectivamente, 72%, 57%, 50% e 41% quando comparada à incubação na ausência de HDL. Em incubações com albumina-C, a secreção de IL-6, TNF-, MCP-1, IL-1 e VCAM-1 induzida por LPS foi respectivamente, 58%, 54%, 42%, 74% e 45% menor mediante incubação com HDL, em comparação a incubações similares, porém na ausência desta lipoproteína. Por outro lado, em macrófagos tratados com albumina-AGE e S100B, a HDL não foi capaz de reduzir a secreção de TNF-, IL-1 e VCAM-1 e aumentou a secreção de IL-6 (54%) e MCP-1 (20%). Nas células tratadas com albumina-AGE e LPS, a HDL também não reduziu a secreção de TNF-, MCP-1 e IL-1 e aumentou a secreção de IL-6 (16%) e VCAM-1 (20%). Redução na secreção de mediadores inflamatórios foi observada em macrófagos tratados com albumina-AGE apenas quando a HDL foi incubada juntamente com S100B ou LPS. Em conclusão, a albumina-AGE sensibiliza macrófagos à resposta inflamatória induzida por calgranulina S100B e LPS, prejudicando o transporte reverso de colesterol de macrófagos. Além disso, a albumina-AGE reduz as propriedades anti-inflamatórias da HDL, o que pode agravar a aterosclerose no diabete melito / In diabetes mellitus, advanced glycation end products (AGE) reduces the cholesterol efflux from cells, which aggravates the development of atherosclerosis. In this study, we investigated the role of advanced glycated albumin (AGE-albumin) on macrophage inflammatory response and the impact of cytokines, chemokines and adhesion molecules secretion on cholesterol efflux mediated by apolipoprotein A-I (apoA-I) and HDL subfractions. Furthermore, the HDL ability in modulating inflammatory response in macrophages treated with AGE-albumin was also determined. Mouse peritoneal macrophages previously enriched or not with cholesterol were treated in the presence of 2 mg/mL of control-albumin (C-albumin) or AGE-albumin, for 72 h, followed by incubation, for 24 h, with S100B calgranulin (20 g/mL) or lipopolysaccharide (LPS; 1 g/mL). In comparison to free endotoxin-C-albumin, AGE-albumin, by itself did not alter cytokine secretion by macrophages. However, AGE-albumin primed non-cholesterol enriched macrophages to a higher secretion of interleukin -6 (IL-6), tumor necrosis factor alpha (TNF-), monocyte chemotactic protein 1 (MCP-1), interleukin 1 beta (IL-1) and vascular cell adhesion molecule 1 (VCAM-1) after stimulation with S100B or LPS, which was potentiated by cell cholesterol overload. In non-stimulated macrophages, conditioned medium, derived from incubation with AGE-albumin and S100B (cytokine enriched-medium), reduced the 14C-cholesterol efflux mediated by apoA-I, HDL2 and HDL3 in, respectively, 23%, 43% and 20%, in comparison to cells incubated with conditioned medium isolated from treatment with C-albumin and S100B. Similarly, 14C-cholesterol efflux mediated by apoA-I, HDL2 and HDL3 was reduced in macrophages treated with medium derived from incubation with AGE-albumin and LPS, respectively, 37%, 47% and 8,5% in comparison to treatment with C-albumin and LPS. In macrophages treated with C-albumin and S100B, previous incubation with HDL reduced the secretion of IL-6, TNF-, MCP-1 and VCAM-1 in, respectively 72%, 57%, 50% and 41% in comparison to incubation in the absence of HDL. In incubations with C-albumin, the secretion of IL-6, TNF-, MCP-1, IL-1 and VCAM-1 induced by LPS was respectively, 58%, 54%, 42%, 74% and 45% lower in cells treated with HDL in comparison to similar incubations in the absence of this lipoprotein. On the other hand, in macrophages treated with AGE-albumin and S100B, HDL was unable to reduce the TNF-, IL-1 and VCAM-1 secretion and increased the secretion of IL-6 (54%) and MCP-1 (20%). In cells treated with AGE-albumin and LPS, HDL was unable to reduce the secretion of TNF-, MCP-1 and IL-1 and increased IL-6 (16%) and VCAM-1 (20%). Reduction in inflammatory mediators was observed in macrophages treated with AGE-albumin only when HDL was incubated simultaneously with S100B or LPS. In conclusion, AGE-albumin primes macrophages to an inflammatory response elicited by S100B calgranulin and LPS, impairing macrophage reverse cholesterol transport. Moreover, AGE-albumin impairs the HDL anti-inflammatory properties, which can aggravate the atherosclerosis in diabetes mellitus

Advanced glycation end products

Aterosclerose

Atherosclerosis

Cholesterol

Colesterol

Diabetes mellitus

Diabetes mellitus

HDL

HDL

Produtos finais de glicação avançada

Reverse cholesterol transport

Transporte reverso de colesterol

O metabolismo de lipoproteínas e a sensibilidade à insulina são distintamente modulados em indivíduos saudáveis com concentração alta ou baixa de HDL-colesterol / Lipoprotein metabolism and insulin sensitivity are distinctly modulated in healthy subjects with high and low plasma HDL-cholesterol concentration

Leança, Camila Canteiro

02 May 2012

A síndrome metabólica (SM) e o diabete melito (DM) caracterizam-se por uma série de alterações no metabolismo de lipoproteínas, entre elas a hipertrigliceridemia e a redução nas concentrações de HDL-colesterol (HDL-C). Em estudo prévio demonstramos que indivíduos saudáveis, não obesos, com concentração de HDL-C abaixo de 40mg/dL, quando comparados àqueles com concentração de HDL-C acima de 60mg/dL, apresentam, no plasma, esteróis marcadores de absorção intestinal de colesterol alimentar diminuídos, e de síntese de colesterol aumentados. Achados semelhantes foram descritos por outros autores em portadores de SM e DM, sugerindo que a resistência à insulina participa na origem do distúrbio, embora não se saiba por quais mecanismos. Considerando nossos achados prévios, os objetivos deste estudo são investigar quais os mecanismos moleculares envolvidos nas alterações do metabolismo de colesterol presentes em indivíduos com concentrações alta (HIPERALFA, HDL-C > 60mg/dL, n = 36) ou baixa (HIPOALFA, HDL-C < 40mg/dL, n = 37) de HDL-C por meio de medida de: 1) conteúdo celular de colesterol e expressão gênica de enzimas e receptores críticos para a regulação intracelular de colesterol, tendo como modelo células linfomononucleares de sangue periférico; 2) parâmetros que regulam o metabolismo de lipoproteínas no plasma e que são influenciados pela insulina, tais como lecitina-colesterol aciltransferase (LCAT), lipoproteína lipase (LPL) e lipase hepática (LH) pós-heparina, proteína de transferência de colesterol esterificado (CETP), proteína de transferência de fosfolípides (PLTP) e pré- beta1 HDL. Os critérios de exclusão foram: diabete melito, IMC 30Kg/m2, tabagismo, consumo elevado de álcool e uso de fármacos capazes de interferir no metabolismo de lipoproteínas. Mostramos que, quando comparado ao grupo HIPERALFA, o grupo HIPOALFA apresentou maiores concentrações de insulina, triglicérides, ALT(TGP), índice HOMA, atividade de LCAT e LH, e menor atividade de LPL e concentração de pré-beta1 HDL. Não houve diferença entre os grupos com relação ao conteúdo celular de colesterol, à expressão dos genes estudados (ABCA1, ABCG1, SR-BI, LDLR, HMG CoA redutase, SREBP-1c e LXR alfa), às atividades de CETP e PLTP no plasma e à ultrassonografia de carótidas. Nossos resultados mostram que indivíduos com concentração alta ou baixa de HDL-C no plasma diferem com relação à sensibilidade à insulina, além de parâmetros envolvidos na regulação do metabolismo de lipoproteínas. Estes achados não se relacionaram com o metabolismo celular de colesterol no modelo estudado, mas sugerem que este quadro metabólico, cuja origem é desconhecida, precede o aparecimento, no decorrer da idade, de outras alterações típicas da síndrome metabólica no grupo com baixas concentrações de HDL-C no plasma / The metabolic syndrome (MS) and the diabetes mellitus (DM) are characterized for a series of alterations in lipoprotein metabolism as hypertriglyceridemia and reduced HDL-cholesterol (HDL-C) concentration. In previous study we demonstrated that healthy non obese subjects with HDL-C concentration below 40mg/dL, when compared with those with HDL-C above 60mg/dL, present low plasma sterol markers of alimentary cholesterol intestinal absorption and high plasma sterol markers of cholesterol synthesis. Similar findings have been described by others in subjects with MS and DM, suggesting that insulin resistance participates in the origin of the disorder, although by unknown mechanisms. Considering our previous findings, the objectives of this study are to investigate the molecular mechanisms involved in alterations of cholesterol metabolism in subjects with high HDL-C (HYPERALPHA, HDL-C > 60mg/dL, n = 36) or low HDL-C (HYPOALPHA, HDL-C < 40mg/dL, n = 37) concentration by means of measuring: 1) cellular cholesterol content and gene expression of critical enzymes and receptors involved in the intracellular cholesterol regulation, having peripheral blood mononuclear cells as model; 2) parameters that regulate the plasma lipoproteins metabolism and that are influenced by insulin, such as lecithin: cholesterol acyltransferase (LCAT), post-heparin hepatic (HL) and lipoprotein lipase (LPL), cholesteryl ester transfer protein (CETP), phospholipid transfer protein (PLTP) and pre-beta1 HDL. The exclusion criteria were: diabetes mellitus, body mass index 30Kg/m2, smoking, heavy drinking and use of medications that interfere with lipoprotein metabolism. We demonstrated that, as compared with HYPERALPHA, the HYPOALPHA group presented higher insulin, triglycerides and alanine aminotransferase concentrations, HOMA index, LCAT and HL activities and lower LPL activity and pre-beta1 HDL concentration. There was no difference between the groups in the cellular cholesterol content, expression of genes (ABCA1, ABCG1, SR-BI, LDLR, HMG CoA reductase, SREBP-1c and LXR alpha), plasma CETP and PLTP activities and carotid ultrasonography. Our results show that subjects with high or low plasma HDL-C concentration differ in relation to insulin sensitivity and in parameters involved in lipoprotein metabolism regulation. These findings were not related to the cellular cholesterol metabolism in the studied model, but they suggest that this metabolic disturbance, whose origin is unknown, precedes the appearance, in the course of the human life of other typical alterations of metabolic syndrome in the low HDL-C concentration group

Aterosclerose

Atherosclerosis

Cellular cholesterol metabolism

Colesterol HDL

Diabete melito

Diabetes mellitus

HDL cholesterol

Hipoalfalipoproteinemia

Hypoalphalipoproteinemia

Insulin resistance

Metabolismo celular de colesterol

Resistência à insulina

Efeitos do controle glicêmico sobre os lípides séricos e na transferência lipídica para a HDL em pacientes com diabetes mellitus tipo 2: novos achados no status do colesterol não esterificado / Effects of glycemic control upon serum lipids and lipid transfers to HDL in patients with type 2 diabetes mellitus: novel findings in unesterified cholesterol status

Laverdy Neto, Oscar Giese

29 October 2014

Introdução:Uma das causas da doença cardiovascular do diabético é a dislipidemia associada ao diabetes mellitus tipo 2 (DM2), caracterizada basicamente por hipertrigliceridemia e baixa concentração de HDL-colesterol. O bom controle da glicemia geralmente resulta em diminuição dos triglicerídeos plasmáticos, mas há controvérsia na literatura quanto aos níveis de HDL-colesterol e outros parâmetros lipídicos. As transferências lipídicas para a HDL têm importante função na sua formação e remodelamento e no seu papel antiaterogênico do transporte reverso do colesterol. A transferência de lípides entre as lipoproteínas é bidirecional e depende da estrutura e concentração da lipoproteína doadora e receptora, assim como da ação das proteínas de transferências, CETP e PLTP. Objetivo:Investigar as relações dos níveis glicêmicos com as transferências lipídicas para a HDL e com outros parâmetros do metabolismo lipídico em pacientes com DM2. Métodos:143 pacientes com DM2, que não estavam usando drogas hipolipemiantes, foram selecionados e separados em dois grupos: grupo com hemoglobina glicada (HbA1c) <= 6,5% (n=62) e grupo com HbA1c > 6,5% (n=81). O método in vitro de transferência lipídica para a HDL foi realizado através da incubação sob agitação, por 1 hora, de uma nanoemulsão doadora contendo colesterol esterificado e não esterificado, fosfolipídios e triglicerídeos, marcados radioativamente, com o plasma do paciente, seguido de precipitação química e contagem dos lipídios radiomarcados transferidos para HDL. Outras determinações plasmáticas do metabolismo lipídico também foram realizadas. Foi também verificado o percentual de pacientes nos dois grupos com o perfil lipídico dentro das metas estabelecidas pela American Diabetes Association. Pacientes com ou sem uso de insulina e com níveis maiores e menores de ácidos graxos livres (AGL) foram comparados quanto aos parâmetros estudados. Resultados:O grupo HbA1c > 6,5% apresentou maior trigliceridemia (205±115 vs 140±54mg/dl; p < 0,0001) e colesterol não esterificado (36,4±7,6 vs 33,7±5,7mg/dl; p > 0,05), além de apresentar maior concentração de triglicerídeos na partícula de HDL (9,2±2,8 vs 8,1±2,3%; p < 0,05), do que o grupo HbA1c<=6,5%. As concentrações de triglicerídeos, colesterol total e não esterificado e também o colesterol da fração não-HDL correlacionaram-se positivamente com a HbA1c (r=0,25, r=0,19, r=0,18, r=0,17, respectivamente, p < 0,05). A concentração de colesterol esterificado da HDL correlacionou-se negativamente com a HbA1c (r=-0,19, p < 0,05). Os pacientes com HbA1c <= 6,5% atingiram mais a meta trigliceridêmica do que os com HbA1c > 6,5% (66 vs 37%; p < 0,001). Os pacientes com maiores níveis de AGL tiveram maior trigliceridemia (196±105 vs 153±81 mg/dl; p < 0,01) e atividade de LCAT (1,36±0,10 vs 1,29±0,10 470/390nm; p < 0,01), além de uma maior concentração de triglicerídeos na partícula de HDL (9,4±2,9 vs 7,8±2,0%; p < 0,001), em relação aos pacientes com menores níveis de AGL. A transferência dos quatro lipídios da nanoemulsão para a HDL foi igual na comparação de todos os grupos deste estudo. Conclusão:Os resultados deste estudo mostraram pela primeira vez que junto com os triglicerídeos, o colesterol não esterificado é também um marcador de pobre controle glicêmico em pacientes com DM2 / Introduction:One cause of cardiovascular disease (CVD) of patients with type 2 diabetes mellitus (T2DM) is diabetic dyslipidemia, characterized primarily by hypertriglyceridemia and low HDL-cholesterol. Good blood glucose control usually results in decreased plasma triglycerides, but there is controversy in the literature as to the levels of HDL-cholesterol and other lipid parameters. Lipid transfers to HDL play an important role in the formation and remodeling of HDL and on its antiatherogenic role of reverse cholesterol transport. The transfer of lipids between lipoproteins is bidirectional and depends on the structure and concentration of the donor and acceptor lipoprotein as well as the action of the transfers proteins, PLTP and CETP. Objective:Investigate the relationship of blood glucose levels with lipid transfers to HDL and other parameters of lipid metabolism in patients with T2DM. Methods:143 patients with T2DM, who were not using lipid-lowering drugs, were selected and divided into two groups: group with glycated hemoglobin (HbA1c) <= 6.5% (n=62) and group with HbA1c > 6.5% (n=81). In vitro lipid transfers to HDL was performed by 1 hour incubation under stirring of a donor nanoemulsion containing radioactively labeled unesterified and esterified cholesterol, phospholipids and triglycerides with whole patient plasma, followed by chemical precipitation and counting of radiolabeled lipids transferred to HDL. Other determinations of plasma lipid metabolism were also performed. It was also checked the percentage of patients in both groups with lipid profile within the targets set by the American Diabetes Association criteria. Patients with or without insulin use and with higher and lower free fatty acids (FFA) levels were also compared for the studied parameters. Results:HbA1c>6.5% group had higher triglyceridemia (205 ± 115 vs 140 ± 54 mg/dl, p<0.0001) and unesterified cholesterol (36.4 ± 7.6 vs 33.7 ± 5.7 mg/dl, p<0.05) than the HbA1c<=6.5% group. The concentrations of triglycerides, total and unesterified cholesterol and also non-HDL cholesterol was positively correlated with HbA1c (r=0.25, r=0.19, r=0.18, r=0.17, respectively, p<0,05). The concentration of esterified cholesterol from HDL was negatively correlated with HbA1c (r = -0.19, p<0.05). Patients with HbA1c<=6,5% achieved more the triglyceridemic target than the patients with HbA1c>6.5% (66 vs 37%, p<0.001). Patients with higher levels of FFA had higher triglycerides levels (196 ± 105 vs 153 ± 81 mg/dl, P<0.01) and LCAT activity (1.36 ± 0.10 vs 1.29 ± 0.10 470/390nm, p<0.01), in addition to a higher concentration of triglycerides in the HDL particle (9.4 ± 2.9 vs 7.8 ± 2.0%, p <0.001). The transfer of the four lipid of the nanoemulsion to HDL was equal in the comparison of all the studied groups. Conclusion:The results of this study showed for the first time that unesterified cholesterol, along with triglycerides, is also a marker of poor glycemic control in patients with T2DM

Cardiovascular disease

Cholesterol

Colesterol

Diabetes Mellitus type 2

Diabetes Mellitus tipo 2

Dislipidemias

Doenças cardiovasculares

Dyslipidemias

Lipid metabolism

Lipoproteínas HDL

Lipoproteins HDL

Metabolismo dos lipídeos

Heterogeneidade e mecanismos moleculares da atividade anti-apoptótica das subfrações de HDL em células endoteliais humanas / Heterogeneity and molecular mechanisms of anti-apoptotic activity of high-density lipoprotein (HDL) subfractions on endothelial cells

Souza, Juliana Ascenção de

19 March 2007

Introdução: A lipoproteína de baixa densidade (LDL) e suas formas oxidadas (LDLox) possuem múltiplas propriedades aterogênicas, atuando na deposição de colesterol, indução e manutenção da inflamação, disfunção endotelial, surgimento de células espumosas na parede arterial e conseqüente formação da placa de ateroma. Adicionalmente, LDLox induz apoptose de células endoteliais humanas (HMEC). A lipoproteína de alta densidade (HDL) possui inúmeras atividades antiaterogênicas, incluindo ações antioxidante, anti-inflamatória e anti-trombótica. A HDL é capaz de proteger as HMEC contra apoptose. As subfrações de HDL (sHDL) são heterogêneas em sua composição físico-química e atividades biológicas. A atividade antioxidante das sHDL aumenta com a densidade (HDL2b<HDL2a<HDL3a<HDL3b <HDL3c) e está deficiente em pacientes com SMet. Contudo, a heterogeneidade da atividade anti-apoptótica das sHDL é ainda desconhecida. Objetivos: (i) avaliar a heterogeneidade da atividade protetora das sHDL de indivíduos normolipidêmicos (n=7) e de pacientes com SMet (n=16) contra apoptose de HMEC induzida por LDLox; (ii) definir os mecanismos moleculares envolvidos nesta atividade. Métodos: Através de ultracentrifugação por gradiente de densidade, isolamos cinco diferentes sHDL. HMEC foram incubadas com LDLox (200 ?g apoB/ml) na presença ou não das sHDL (5-100 ?g proteína/ml). Os marcadores de toxicidade (MTT) e de apoptose celular (microscopia de fluorescência, marcagem com anexina V, cit c, AIF, degradação Bid, atividade caspase-3 e fragmentação do ADN) foram analisados. Resultados: Todas sHDL protegeram as HMEC contra a toxicidade e apoptose induzidas pela LDLox. Com mesma concentração de proteína, as subfrações HDL3c (60% proteção - MTT - e >100% - anexina V) e 3b (43% e 67%, respectivamente) de indivíduos normolipidêmicos apresentaram atividade anti-apoptótica mais potente do que as subfrações HDL2a (29% e 28%; p<0,01 vs. HDL3c, respectivamente) e 2b (25% e 62%; p<0,001 vs. HDL3c, respectivamente). Todas sHDL reduziram geração de espécies reativas de oxigênio (ROS) induzida pela LDLox, sendo a HDL3c (54%) mais potente do que HDL2b (21%; p<0.05 vs. HDL3c). Houve correlação positiva entre as atividades anti-apoptótica e antioxidante intracelular com conteúdo de apoA-I e esfingosina 1-fosfato (E1F) das sHDL, senda HDL3b e 3c ricas em E1F. A atividade anti-apoptótica da E1F e das sHDL parece depender da interação com as células endoteliais via apoA-I e seu receptor SR-BI. Finalmente, as HDL3c (n=5) isoladas de pacientes com SMet possuem conteúdo significativamente menor de apoA-I e reduzida atividade anti-apoptótica (60%, p<0,01), quando comparada aos controles normolipidêmicos (n=5). Houve tendência à diminuição da proteção contra a geração de ROS (SMet, n=10). Conclusão: As subfrações HDL3c protegem de forma potente as células endoteliais humanas contra toxicidade e apoptose induzidas pela LDLox, assim como contra geração de ROS. Esta atividade antiapoptótica está reduzida na SMet. / Background: Low density lipoprotein (LDL) and its oxidized forms (oxLDL) have several atherogenic properties, including cholesterol deposition, inflammation, endothelial dysfunction and foam cell formation on the arterial wall, leading to atherosclerotic plaque development. In addition, oxLDL induces human endothelial cell apoptosis (HMEC). High-density lipoprotein (HDL) has number of antiatherogenic activities, as antioxidative, anti-inflammatory and anti-thrombotic actions. HDL displays anti-apoptotic activity and is able to protect endothelial cells against oxLDL-induced apoptosis. HDL subfractions (sHDL) are highly heterogeneous in their physical and chemical composition and biological functions. Antioxidative activity of HDL subfractions increases with increment in density, HDL2b<HDL2a<HDL3a<HDL3b <HDL3c. Important, HDL subfractions from subjects with metabolic syndrome (MetS), display a significantly lower antioxidative activity as compared to healthy controls. However, the heterogeneity of their anti-apoptotic activity was not demonstrated. Objectives: (i) to evaluate the heterogeneity of antiapoptotic activity of sHDL from normolipidemic controls (n=7) and MetS patients (n=16) towards oxLDL-induced apoptosis of HMEC; (ii) to define molecular mechanisms involved in this anti-apoptotic action. Methods: Five major sHDL were fractionated by density gradient ultracentrifugation. HMEC were incubated with mildly oxLDL (200 ?g apoB/ml) in the presence or absence of each sHDL (5-100 ?g protein/ml). Markers of cellular toxicity (MTT) and apoptosis (fluorescent nucleic acid staining, annexin V binding, cytochrome c, AIF and Bid, caspase-3 activity and DNA fragmentation) were observed. Results: All HDL subfractions isolated from normolipidemic subjects protected HMEC against oxLDL-induced toxicity and apoptosis. At equal protein concentrations, HDL3c (60% protection in the MTT test; >100% in annexin V biding) and 3b subfractions (43% and 67%, respectively) were more potent against oxLDL-induced toxicity and apoptosis as compared to HDL2a (29% and 28%; p<0.01 vs. HDL3c, respectively) and 2b subfractions (25% and 62%; p<0.001 vs. HDL3c, respectively). All HDL subfractions attenuated of reactive oxygen species (ROS) generation in HMEC induced by oxLDL. Again, HDL3c (54% inhibition) were more potent as compared to HDL2b (21%; p<0.05 vs. HDL3c). The anti-apoptotic and intracellular antioxidative activities of HDL3 were positively correlated with apoA-I and sphingosine 1-phosphate (S1P) content of sHDL and, possibly, depend on their cellular interaction through apoA-I and its SR-BI receptor. The sHDL3c isolated from MetS patients (n=5) possess reduced content of apoA-I and less potent anti-apoptotic activity (-60%, p<0.01) than controls (n=5). Conclusion: Normolipidemic small dense HDL3 provide potent protection of human endothelial cells from oxLDL-induced apoptosis; this anti-apoptotic activity is reduced in the MetS.

Apolipoproteína A-I

ApolipoproteinA-I

Apoptose

Apoptosis and endothelial cell

Células endoteliais

Dislipidemia

Dislipidemias

Esfingosina

HDL subfractions

Lipoproteínas do colesterol HDL

Metabolic syndrome

Oxidised LDL

Síndrome X metabólica

Sphingosine 1-phosphate

Os efeitos do exercício resistido no metabolismo da lipoproteína de baixa densidade (LDL) e da lipoproteína de alta densidade (HDL), utilizando uma nanoemulsão semelhante a LDL / Effects of resistance exercise on the low density lipoprotein (LDL) and high density lipoprotein (HDL) metabolism: utilizing an LDLlike nanoemulsion

Silva, Jeferson Luis da

12 September 2011

Treinamento físico é considerado um dos principais instrumentos para promover um estilo de vida saudável. No entanto, os efeitos do treinamento resistido sobre as vias metabólicas, especialmente o metabolismo lipídico intravascular é em grande parte inexplorada e merece uma investigação mais aprofundada. No presente estudo nós avaliamos os efeitos do treinamento resistido sobre o metabolismo de uma nanoemulsão artificial lipídica e na transferência de lípides para HDL, uma importante etapa do metabolismo da HDL. A cinética plasmática da nanoemulsão artificial lipídica foi estudada em 15 homens saudáveis com treinamento resistido regular de 1-4 anos (idade = 25 ± 5 anos, VO2máx = 50 ± 6 mL/kg/min) e em 15 homens saudáveis sedentários (28 ± 7 anos, VO2máx = 35 ± 9 mL/kg/min). A nanoemulsão artificial lipídica marcada com éster de colesterol-14C e colesterol livre-3H foi injetada por via intravenosa, as amostras de plasma foram coletadas por 24 h para determinar curvas de cinéticas e a taxa fracional de remoção (TFR). Transferência de lípides para HDL foi determinada in vitro pela incubação de amostras de plasma com nanoemulsões (doadores de lípides) marcada com o isótopo radioativo colesterol livre, éster de colesterol, triglicérides e fosfolípides. Tamanho da HDL, atividade da paraoxonase 1 e os níveis de LDL oxidada também foram determinadas. Os dois grupos apresentaram LDL-colesterol, HDL-colesterol e triglicérides semelhantes, mas a LDL oxidada foi menor no grupo treinamento resistido (30 ± 9 vs 61 ± 19 U/L, p = 0,0005). No treinamento resistido, a nanoemulsão éster de colesterol-14C foi removida duas vezes mais rápido do que em indivíduos sedentários (TFR: 0,068 ± 0,023 vs 0,037 ± 0,028, p = 0,002), bem como o colesterol livre-3H (0,041 ± 0,025 vs 0,022 ± 0,023, p = 0,04). Embora ambos os componentes da nanoemulsão tenham sido removidos na mesma proporção em indivíduos sedentários, no grupo treinamento resistido o colesterol livre-3H foi removido mais lento do que o éster de colesterol-14C (p = 0,005). Tamanho da HDL, paraoxonase 1 e as taxas de transferência de HDL dos quatro lipídios foram as mesmas em ambos os grupos. Portanto, concluímos que o treinamento resistido acelera a remoção da nanoemulsão artificial lipídica, o que provavelmente explica a redução dos níveis de LDL oxidada no grupo treinamento resistido. O treinamento resistido também alterou o equilíbrio da TFR do colesterol livre e esterificado. No entanto, o treinamento resistido não teve efeito nos parâmetros relacionados ao metabolismo da HDL / Exercise training is considered one of the main instruments to promote a healthy lifestyle. However, effects resistance training on the metabolic pathways, specially the intravascular lipid metabolism is largely unexplored and deserves further investigation. In this study we evaluated the effects of resistance training on the metabolism of an LDL-like nanoemulsion and on lipid transfer to HDL, an important step of HDL metabolism. LDL-like nanoemulsion plasma kinetics was studied in 15 healthy men under regular resistance training for 1-4 years (age = 25 ± 5 years, VO2peak = 50 ± 6 mL/kg/min) and in 15 healthy sedentary men (28 ± 7 years, VO2peak = 35 ± 9 mL/kg/min). LDL-like nanoemulsion labeled with 14C-cholesteryl ester and 3H-free cholesterol was injected intravenously, plasma samples were collected over 24 h to determine kinetics curves and fractional clearance rates (FCR). Lipid transfer to HDL was determined in vitro by incubating of plasma samples with nanoemulsions (lipid donors) labeled with radioactive free cholesterol, cholesteryl ester, triglycerides and phospholipids. HDL size, paraoxonase 1 activity and oxidized LDL levels were also determined. The two groups showed similar LDL and HDL-cholesterol and triglycerides, but oxidized LDL was lower in resistance training group (30 ± 9 vs 61 ± 19 U/L, p = 0.0005). In resistance training, the nanoemulsion 14Ccholesteryl ester was removed twice as fast than in sedentary individuals (FCR: 0.068 ± 0.023 vs 0.037 ± 0.028, p = 0.002), as well as 3H-free cholesterol (0.041 ± 0.025 vs 0.022 ± 0.023, p = 0.04). While both nanoemulsion labels were removed at the same rate in sedentary individuals, in resistance training group 3H-free cholesterol was removed slower than 14C-cholesteryl ester (p = 0.005). HDL size, paraoxonase 1 and the transfer rates to HDL of the four lipids were the same in both groups. Therefore, we conclude that the resistance training accelerated the clearance of LDL-like nanoemulsion, which probably accounts for the oxidized LDL levels reduction in resistance training group. Resistance training also changed the balance of free and esterified cholesterol FCRs. However, RT had no effect on HDL metabolism related parameters

Cholesterol HDL/metabolism

Cholesterol LDL/metabolism

Colesterol HDL/metabolismo

Colesterol LDL/metabolismo

Exercício

Exercise

Lípideos

Lipids

Lipoproteínas

Lipoproteins

Nanoparticles

Nanopartículas

Resistance training

Treinamento resistido

Avaliação do metabolismo de lipídes em diabéticos tipo 1, normolipidêmicos e sem complicações microvasculares e macrovasculares significativas através de nanoemulsão lipídica artificial / Evaluation of lipid metabolism in normolipidemic type 1 diabetes individuals without significant clinical microvascular and macrovascular complications through artificial lipid nanoemulsion

Rodrigues, Alina Coutinho

19 December 2008

INTRODUÇÃO: portadores de diabetes mellitus tipo 1 (DM1) apresentam, progressivamente, complicações vásculo-neurais. Os fatores que aumentam o risco de coronariopatia - hipertensão, dislipidemia e idade avançada - explicam, em parte, a alta mortalidade cardiovascular, entretanto diabéticos tipo 1 podem morrer de coronariopatia precoce e não apresentar os fatores de risco clássicos para aterosclerose. Modificações estruturais e funcionais nas lipoproteínas, alterando a sua composição e trocas lipídicas poderiam justificar o aumento de eventos vasculares, entretanto estas alterações podem não ser detectadas através das dosagens rotineiras de lípides plasmáticos. OBJETIVOS: através de nanoemulsão lipídica artificial (LDE) que simula a estrutura lipídica da LDL avaliamos, em portadores de DM1, normolipidêmicos, intensivamente tratados e sem complicações significativas da doença, a taxa de esterificação do colesterol, a remoção da nanoemulsão da circulação, o tamanho da partícula HDL e as transferências de lípides entre a nanoemulsão e as partículas HDL. Secundariamente, determinamos a influência do controle glicêmico, resistência à insulina (RI) e insulinização no metabolismo lipídico. MÉTODOS: estudamos 36 indivíduos diabéticos e 37 controles não-diabéticos pareados para idade, sexo e índice de massa corpórea. Nanoemulsão lipídica artificial com marcação radioativa nos lípides éster de colesterol (CE), colesterol livre (CL), triglicérides (TG) e fosfolípides (PL) foi utilizada para os estudos. Nanoemulsão com marcação 14C-CE e 3H-CL foi injetada nos participantes e amostras de sangue foram coletadas durante 24 horas para mensuração da radioatividade. Remoção dos lípides da circulação foi calculada por análise compartimental. A taxa da esterificação do colesterol livre foi calculada após extração e separação de lípides do plasma por cromatografia em camada delgada. Para estudo da transferência de lípides, nanoemulsões com marcação 14C-CE e 3H-CL ou 14C-PL e 3H-TG foram incubadas com plasma e a radioatividade dos lípides transferidos para as HDL foi contada após a precipitação de lipoproteínas contendo apoB. O diâmetro da HDL foi mensurado por método de dispersão da luz. A RI nos diabéticos foi mensurada por fórmula que estima a taxa de captação da glicose. RESULTADOS: hemoglobina glicada foi de 8,8±1,3 mg/dl e concentrações de LDLc foram menores nos diabéticos (85±22 vs. 98±26 mg/dl), p=0, 035. Não houve diferenças em relação às taxas de esterificação, transferências de lípides da nanoemulsão para as HDL e tamanho da partícula HDL entre os grupos. Não encontramos relação entre as análises cinéticas e HbA1c, glicemia, índices de RI e dose de insulina. A taxa de remoção do 14C-CE foi mais rápida em diabéticos tipo 1 que nos controles (0, 059±0, 022 vs.0, 039±0, 022 h-1), p=0, 019. 16 CONCLUSÕES: apesar de controle glicêmico ruim nos DM1, as transferências de lípides da nanoemulsão para as HDL, a taxa de esterificação e a remoção da 3H-CL são semelhantes às dos controles. O controle glicêmico, perfil lipídico, índices de RI e dose de insulina não influenciaram nas transferências de lípides e na taxa de esterificação. A remoção do 14C-CE é mais rápida em indivíduos diabéticos, o que poderia justificar as concentrações de LDLc mais baixas encontradas nesta população. Acreditamos que a terapia insulínica intensiva pode justificar estes achados / INTRODUTION: people with type 1 diabetes mellitus (DM1) have progressively neuro-vascular complications. Factors that increase the risk of coronary artery disease hypertension, dislipidemia and advanced age explains part of increased cardiovascular mortality, however some DM1 died of early coronary artery disease and often do not have atherosclerosis classical risk factors. Structural and functional changes in lipoproteins, altering their composition and activities of lipid exchange could justify the increase in vascular events but these changes are generally not detected by routine clinical laboratory plasma lipid exams. OBJETIVES: in normolipidemic DM1, intensively treated and without significant complications of disease we evaluated, by an artificial lipid nanoemulsion that resembles the lipid structure of LDL, rates of cholesterol esterification, nanoemulsion removal of the circulation, HDL particle size and lipid transfer from nanoemulsion to HDL. Secondarily, we determine the influence of glycemic control, insulin resistance (IR) and insulinization on lipid metabolism. METHODS: we studied 36 diabetics and 37 non-diabetic controls paired by age, sex and body mass index. Artificial lipid nanoemulsion labeled with radioactive lipids cholesterol ester (CE), cholesterol (CL), phospholipids (PL) and triglycerides (TG) was used for studies. Intravenous infusion of nanoemulsion 14C-CE e 3H-CL was injected in participants and blood was sampled over 24 hours for radioactivity measurement. Circulation lipid removal was calculated through compartmental analysis. Rate of cholesterol esterification was calculated after lipid extraction and separation by thin-layer chromatography. Nanoemulsion was incubated with plasma and radioactivity of lipids 14C-EC, 3H-CL, 14C-PL and 3H-TG transferred to the HDL was quantified after the precipitation of other apoB lipoproteins. The HDL diameter was measured by laser light scattering. The insulin resistance in diabetic patients was measured by formula that estimates the rate of uptake of glucose. RESULTS: glycated hemoglobin was 8,8±1,3 mg/dl and LDL concentrations were lower in diabetic patients (85 ± 22 vs. 98 ± 26 mg / dl), p = 0035. There were no differences between groups regarding rates of cholesterol esterification, lipids transfer from nanoemulsion to HDL and HDL particle size. We found no relationship between the kinetic analyses and HbA1c, blood glucose, measures of IR and dose of insulin. The rate of removal of 14C-EC was faster in diabetics type 1 than controls (0.059 ± 0.022 vs.0.039 ± 0.022 h- 1), p = 0.019. CONCLUSIONS: despite suboptimal glycemic control in diabetics, lipids transfer from nanoemulsion to HDL, rate of cholesterol esterification and removal of 3H-CL are similar to those of non-diabetic individuals. Glycemic control, lipid profile, measures of IR and dose of insulin did not influence lipids transfer and rate of cholesterol esterification. Removal of 14C-EC from diabetic circulation is faster than controls which could justify the 18 lower LDL concentration found in this population. We believe that intensive insulin therapy could explain these findings

Aterosclerose

Atherosclerosis

Cinética

Colesterol HDL

Colesterol LDL

Diabetes mellitus tipo 1

HDL cholesterol

Insulin

Insulina

Kinetic

LDL cholesterol

Lipoprotein

Lipoproteínas

Type 1 diabetes mellitus