Albumina modificada por glicação avançada no diabete melito tipo 1 e 2 prejudica o transporte reverso de colesterol e favorece o acúmulo de lípides em macrófagos / Impairment in reverse cholesterol transport and macrophage lipid accumulation induced by advanced glycated albumin drawn from uncontrolled type 1 and type 2 diabetes mellitus patients

AUTOR(ES)
DATA DE PUBLICAÇÃO

2011

RESUMO

Advanced glycation end products are prevalent in diabetes mellitus and alter lipids and lipoprotein metabolism. In this study we analyzed the role of albumin, isolated from control individuals (C, n = 12) and uncontrolled type 1 (DM 1, n = 13) and type 2 (DM 2, n = 11) diabetes mellitus patients on macrophage cholesterol removal, intracellular lipid accumulation, expression of the HDL receptor protein level, ABCA-1and the uptake of esterified cholesterol from HDL. It was also investigated the differential gene expression in macrophages treated with C, DM 1 or DM 2 albumin. Glycated albumin was higher in DM 1 and DM 2 groups as compared to C and was positivetly correlated with glycemia, glycated hemoglobin and fructosamine. Serum albumin was isolated by fast protein liquid chromatography and alchoolic extraction. DM 1 and DM 2 albumin presented a higher amount of carboxymethyllysine and apo A-I as compared to C albumin. In order to determine cholesterol efflux acetylated LDL and 14C-cholesterol enriched J- 774 macrophages were treated with C, DM 1 or DM 2 albumin and then incubated in the absence or presence of apo A-I, HDL3 or HDL2. Although presenting a higher ability to remove cell cholesterol by itself, DM 1 and DM 2 albumin reduced cholesterol efflux mediated by apo A-I (70% e 45%, respectively) and by HDL2 (55% e 54%, respectively) as compared to C albumin. With HDL3 the reduction of the cholesterol efflux was only observed in macrophages treated with DM 2 albumin (55%) in comparison to C albumin. Macrophages incubated with C, DM 1 or DM 2 albumin alone presented similar amount of intracellular lipids as assessed by Oil Red O staining. The addition of apo A-I, HDL3 or HDL2 reduced the lipid content in cells treated with C albumin, but not in those exposed to DM 1 or DM 2 albumin. The expression of ABCA-1 was reduced 82% and 25% in macrophages treated, respectively, with DM 1 or DM 2 albumin, in comparison to C albumin. DM 1 and DM 2 albumin reduced the uptake of 3H colesteril oleoyl ether from HDL by SR-BI overexpressing cells. These findings also were obtained when cells were treated in vitro with human serum albumin submitted to advanced glycation. DM 1 and DM 2 albumin enhanced the expression of receptors involved in the uptake of modified LDL and cholesterol homeostasis. Our findings showed that the advanced glycation of albumin that takes place in diabetes mellitus impairs the reverse cholesterol transport efficiency by reducing the ABCA-1 expression and cholesterol exportation to HDL and also by diminishing the uptake of esterified cholesterol from HDL. Independently of changes in HDL composition and concentration, advanced glycated albumin contributes to cholesterol accumulation in macrophages and atherogenesis in diabetes mellitus

ASSUNTO(S)

advanced glycosylation end products albumina sérica aterosclerose atherosclerosis cholesterol colesterol diabetes mellitus diabetes mellitus produtos finais de glicosilação serum albumin

ACESSO AO ARTIGO

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