Einfluss AGE-modifizierter Proteine auf die Proliferation und Funktionalität osteoblastärer Zelllinien /

Hellmich, Dorothea Maria.

Unknown Date

Jena, Universiẗat, Diss., 2008.

Verstärkung der Zelladhärenz und Induktion des Zell-"Spreading" - eine neue Funktion von RAGE, einem hoch selektiven Differenzierungsmarker humaner Alveolar-Typ 1-Zellen

Demling, Nina,

January 2005

Dresden, Techn. Univ., Diss., 2005.

Einfluss einer fortgesetzten Benfotiamintherapie auf die Konzentration zirkulierender Advanced Glycation Endproducts, proinflammatorischer Zytokine und DNA-Läsionen bei Hämodialysepatienten / Influence of a prolonged therapy with benfotiamine on the concentration of circulating advanced glycation endproducts, proinflammatory cytokines and DNA-lesions at hemodialysis patients

Winkler, Michaela

January 2007

Der Einsatz der Vitamin B 1 Vorstufe Benfotiamin hat sich im Tiermodell durch Verhinderung oder gar Aufhebung typischer diabetischer Folgeschäden wie Ne- phropathie, Retinopathie und Neuropathie ausgezeichnet. Diese Wirkung wird unter anderem der Aktivitätssteigerung des Enzyms Transketolase zugeschrie- ben, welches auch bei Dialysepatienten ohne diabetische Grunderkrankung sup- primiert ist. Das Ziel der vorliegenden Arbeit war, die Auswirkungen einer ora- len Benfotiaminsubstitution auf den Stoffwechsel von Langzeithämodialysepati- enten zu untersuchen. Die 15 rekrutierten Patienten mit und ohne Diabetes mel- litus erhielten über einen Zeitraum von 2 Monaten eine Dosis von 300 mg/d Benfotiamin, die in den folgenden 2 Monaten bis maximal 450 mg/d gesteigert wurde. Um einen Eindruck über den Verlauf der Entzündungssituation und des oxidativen Stresses zu gewinnen, wurden im Patientenvollblut AGEs und pro- inflammatorische Zytokine gemessen. Außerdem wurden peripheren Lympho- zyten mit Hilfe des alkaline Comet-Assay und des Mikrokerntestes auf DNA- Schädigungen analysiert. In beiden Patientengruppen lässt die Senkung der Mi- krokernraten den Schluss zu, dass Benfotiamin DNA-Schäden und somit eventu- ell das Krebsrisiko reduziert. Dieses vielversprechende Ergebnis korreliert jedoch nicht mit dem Resultat des Comet-Assay. Da hier der relative DNA-Schaden ten- dentiell ansteigt, sollte es Ziel weiterer Studien sein, diesen Sachverhalt an ei- nem größeren Patientenkollektiv mit Kontrollgruppen zu überprüfen. Eventuell ist letzteres Testsystem wegen seiner hohen Sensitivität in diesem Fall nicht op- timal geeignet. Außerdem sollte gezielt auf die beobachtete schnellere und stär- kere Mikrokernsenkung der diabetischen Patienten eingegangen werden, da die- se in der vorliegenden Studie zahlenmäßig unterrepräsentiert waren. Positiv zu bewerten ist der leichte CRP-Abfall sowie der Anstieg des Gesamtproteins und Albumin im Serum, was auf eine Reduktion der Mikroinflammation und oder eine verbesserte Ernährungssituation hinweist. Andererseits spricht der Anstieg des Neopterin- und Interleukin 6-Spiegels gegen die Veränderung des Inflamma- tionsstatus. Entgegen der Erwartung ließ sich in dieser Studie keine Reduktion der zirkulierenden AGEs und AOPPs im Serum erzielen. Um eine Reduktion des oxidativen Stresses besser beurteilen zu können, sollten in Folgestudien direkte und leicht veränderliche Marker wie der Glutathionspiegel verwendet werden. Zusammenfassend reduzierte Benfotiamin bei Hämodialysepatienten mit und ohne Diabetes mellitus DNA-Schäden in peripheren Lymphozyten bei unver- änderter Inflammationssituation und steigerte die Plasmaproteinkonzentration. Dies wurde eventuell durch Reduktion von oxidativem Stress und oder Beein- flussung seiner Ursachen wie Reduktion von Urämietoxinen erreicht.Weitere kli- nische Studien sind notwendig, um dieses vielversprechende Medikament in der täglichen Praxis einsetzen zu können. Besonders vorteilhaft ist seine gute Verträg- lichkeit auch in hoher Dosierung. Darüber hinaus soll das Präparat auch neuro- patische Schmerzen reduzieren, die sich bei Dialysepatienten häufig manifestie- ren, und wirkt somit multikausal. / It has been shown in animal models, that Benfotiamine, a precursor of the vitamine B1, prevents typical complications of diabets, like nephropathy, retinopathy and neuropathy. This effect is attributed to the increased activity of the enzyme trankelotase. The latter is also suppressed in patients of the hemodialysis program who are not diabetic. The goal of this thesis was to show the effects of an oral administration of benfotiamine on longterm hemodialysis patients. Fifteen patients were treated with 300 mg per day of benfotiamine which was increased in the following two months to 450 mg per day. The patient group consisted of a sub-group of diabetic and non-diabetic individuals. Advanced glycation endproducts (AGEs) and proinflammatory cytocines were measured in patients full-blood to show the impact on the inflammation and the oxidative stress situation. The DNA-damage in peripheral lymphocytes was determined using the alkaline comet-assay and the micronucleus-assay. The rate of micronuclei was diminished in both patient groups which could be attributed to the reduction of DNA-damage by benfotiamine and so eventually to a reduced risk of cancer. However, this result does not agree with the comet-assay experiments. The relative DNA-damage increased in the course of the study and so seems to be unaffected by the benfotiamine therapy. This may be attributed to the high sensitivity of the comet-assay technique. Therefore, further investigations with a bigger patient group in a double-blind study are necessary. Additionally, there should be a greater focus on diabetic patients that showed a faster and increased reduction of micronuclei which were underrepresentated in this study. The slight reduction of CRP and the increased protein and serum-albumine concentration correlates to a better nutritional status. On the other hand, the increasing neopterine and interleukine 6 level do not agree to the changes in the inflammatory situation. Against all expectations there was no reduction of AGEs and AOPPs in patients serum. Following studies should focus on rapidly changing direct markers like the glutathione level. In summary, benfotiamine reduces DNA-damage in peripheral lymphocytes in hemodialysis patients with or without diabetes. The plasma protein concentration was increased but unexpectedly the inflammatory situation was stable. These effects may be due to a reduction of oxidative stress or its causes like diminished ureamic toxines. One of Benfotiamines advantages is its good tolerance, even in increased dosages. Furthermore it seems to diminish neuropathic pain which is frequent in hemodialysis patients. However, more clinical studies are neccessary for a use in daily practice.

Benfotiamin

Advanced glycosylation end products

Comet Assay

Dialyse

Cytokine

ddc:610

Vitamin D und Advanced Glycation Endproducts bei Gesunden, Hypertonikern und Patienten mit Diabetes Mellitus - Gibt es Zusammenhänge zwischen Vitamin D-Mangel und einer Akkumulation von Advanced Glycation Endproducts sowie Sero-Markern für Inflammation und oxidativen Stress? / Vitamin D and Advanced Glycation Endproducts in Healthy, Hypertensive and Diabetic Subjects – Are there Interactions between Vitamin D Deficiency and Accumulation of Advanced Glycation Endproducts, Markers of Inflammation und Oxidative Stress?

Stürmer, Michael

January 2021

Advanced Glycation Endproducts (AGEs) akkumulieren bei zunehmendem Alter. Die Haut ist das einzige Organ der durch ultraviolettes Licht ausgelösten Vitamin D Synthese. Die Akkumulation von AGEs in der Haut könnte die Synthese von Vitamin D stören, während Mikroinflammation und oxidativer Stress (beides mit Vitamin D-Mangel assoziiert), sowohl die toxischen Effekte der AGEs, als auch deren Bildung selbst verstärken könnten. Wir untersuchten zunächst potentielle Zusammenhänge zwischen zirkulierendem Vitamin D3, AGEs im Blut und AGEs in der Haut mit Markern für Inflammation und oxidativem Stress bei Nichtdiabetikern. In der vorliegenden Studie untersuchten wir 146 Probanden (119 gesunde Probanden und 27 Patienten mit arterieller Hypertonie; 73 Männer und 73 Frauen; durchschnittliches Alter 57.0 ± 15.5 Jahre). Mit Hilfe des AGE-Readers wurden die Advanced Glycation Endproducts in der Haut (SAF) gemessen. Außerdem wurde Vitamin D3, AGE-assoziierte Fluoreszenz (AGE-Fl) im Plasma, hoch-sensitives C-reaktives Protein (hs-CRP), Advanced Oxidation Protein Products (AOPPs) und die Nierenfunktion bestimmt. Außerdem wurden in einer Untergruppe von 61 Probanden N-Carboxymethyllysin (CML), der lösliche Rezeptor für AGEs (soluble RAGE) und das lösliche Vascular Adhesion Protein-1 (sVAP-1) bestimmt. Der durchschnittlich gemessene Vitamin D-Spiegel betrug 22.5 ± 8.9 ng/ml. Eine Vitamin D-Insuffizienz (20 – 29 ng/ml) lag bei 43% und ein manifester Vitamin D-Mangel bei 37% vor. Der altersabhängige Anstieg der Haut-AGEs war bei Rauchern und Patienten mit arterieller Hypertonie stärker ausgeprägt. Einen Zusammenhang zwischen der Hautfluoreszenz (SAF) und Vitamin D-Mangel fand sich nicht. Bei Rauchern konnte eine inverse Beziehung zwischen Vitamin D3 und Plasma AGE assoziierter Fluoreszenz sowie dem Soluble Vascular Adhesion Protein-1 nachgewiesen werden. Unsere Ergebnisse lassen vermuten, dass bei Probanden mit nichtdiabetischer Stoffwechsellage ein Vitamin D-Mangel nicht zu einer vermehrten Toxizität und Akkumulation der Advanced Glycation Endproducts führt. Nur bei Rauchern wäre solch eine Wechselwirkung denkbar. Weil bei Diabetes mellitus die Akkumulation von Advanced Glycation Endproducts mit vermehrter kardiovaskulärer Morbidität und Mortalität in Zusammenhang steht, fragten wir uns außerdem ob ein Vitamin D-Mangel mit vermehrter AGE-Bildung und Toxizität bei Diabetikern einhergeht. Hierzu untersuchten wir 276 Diabetiker (160 Männer und 116 Frauen; Alter 65 ± 13.4 Jahre; 43 Typ 1-Diabetiker, 233 Typ 2-Diabetiker) und 121 Nichtdiabetiker (60 Männer und 61 Frauen; Alter 58.6 ± 15.5 Jahre). Die gleichen Parameter wie zuvor wurden bestimmt. Diabetiker zeigten höhere Werte an SAF und AGE-Fl als die Kontrollen. SAF und AGE-Fl korrelierte mit Alter, Diabetesdauer und Einschränkung der Nierenfunktion. Bei den Typ 2-Diabetikern korrelierte der altersabhängige AGE-Anstieg direkt mit hs-CRP und sVAP-1. Die Vitamin D-Spiegel der Diabetiker und Nichtdiabetiker waren beide gleich erniedrigt und lagen im Durchschnitt bei 22.5 ng/ml. Eine Beziehung zwischen Vitamin D und den erhobenen Parametern fand sich außer mit sVAP-1 (bei den Diabetikern) nicht. Zusammenfassend scheint ein Vitamin D-Mangel bei Diabetikern nicht mit vermehrter AGE-Akkumulation und einem Anstieg der Marker für Mikroinflammation und oxidativem Stress, mit Ausnahme von sVAP-1, einherzugehen. / Advanced glycation endproducts (AGEs) accumulate during aging. Skin is the single organ of vitamin D synthesis, induced by ultraviolet B light. Accumulation of AGEs in the skin could interfere with synthesis of the vitamin, whereas the microinflammation and oxidative stress (associated with hypovitaminosis D) could amplify both the toxic effects of AGEs and their production. Clinical data on potential interactions between vitamin D3 deficiency and AGE accumulation are rare. Here we investigated potential associations between levels of circulating vitamin D3 and those of AGEs in blood and skin with regard to markers of inflammation and oxidative stress in nondiabetic subjects. In a cross-sectional study, 146 subjects (119 healthy persons and 27 hypertensive patients; 73 male and 73 female; mean age 57.0 ± 15.5 years) were included. Skin autofluorescence (SAF) and plasma levels of vitamin D3, AGE-associated fluorescence, high-sensitivity C-reactive protein level, and advanced oxidation protein products as well as renal function (estimated glomerular filtration rate) were determined. In a subgroup of 61 patients, N-carboxymethyllysine, soluble receptor of AGEs, and soluble vascular adhesion protein-1 were additionally analyzed. Vitamin D3 level averaged 22.5 ± 8.9 ng/mL. Prevalence of vitamin D insufficiency (20-29 ng/mL) was 43%, and that of deficiency (<20 ng/mL) 37%. The age-dependent rise in SAF was steeper in smokers and in subjects presenting arterial hypertension. No association between SAF and hypovitaminosis D was revealed. Among smokers, an inverse relationship manifested between vitamin D3 and plasma AGE-associated fluorescence as well as soluble vascular adhesion protein-1. Our data suggest that in nondiabetic adults, hypovitaminosis D does not enhance toxicity and accumulation of AGEs. Only in smokers interactions are conceivable. Because in diabetes accumulated advanced glycation end products (AGEs) are involved in the striking cardiovascular morbidity/mortality we also asked whether a hypovitaminosis D associates with an increased formation and toxicity of AGEs in diabetes. Methods. In 276 diabetics (160 M/116 F, mean age 65.0 ± 13.4; 43 type 1-DM and 233 type 2-DM) and 121 nondiabetic controls (60 M/61 F; mean age 58.6 ± 15.5 years) routine biochemistry, levels of 25-hydroxyvitamin D3 (25-(OH)D), skin autofluorescence (SAF), plasma AGE-associated fluorescence (AGE-FL), N-carboxymethyl)lysine (CML), soluble receptor for AGEs (sRAGE), soluble vascular adhesion protein-1 (sVAP-1), high sensitive C-reactive protein (hs-CRP), and renal function (eGFR) were determined. Results. In the diabetics SAF and AGE-Fl were higher than those of the controls and correlated with age, duration of diabetes, and degree of renal impairment. In T2DM patients but not in T1DM the age-dependent rise of SAF directly correlated with hs-CRP and sVAP-1. 25-(OH)D levels in diabetics and nondiabetics were lowered to a similar degree averaging 22.5 ng/mL. No relationship between 25-(OH)D and studied markers except for sVAP-1 was observed in the diabetics. Conclusion. In diabetics hypovitaminosis D does not augment accumulation of AGEs and studied markers of microinflammation and oxidative stress except for sVAP-1.

Advanced glycosylation end products

Diabetes mellitus

Entzündung

Vitamin-D-Mangel

Oxidativer Stress

ddc:610

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

Lima, Adriana Machado Saldiba de

24 February 2011

Produtos de glicação avançada (AGE) são prevalentes no diabete melito e alteram o metabolismo de lípides e lipoproteínas. Neste estudo, avaliou-se a influência da albumina, isolada do soro de indivíduos controles (C, n =12) e de portadores de diabete melito tipo 1 (DM 1, n=13) e tipo 2 (DM 2, n=11), com controle glicêmico inadequado, sobre a remoção de colesterol de macrófagos, o acúmulo intracelular de lípides, o conteúdo do receptor de HDL, ABCA-1 e a captação seletiva de colesterol esterificado de HDL. Além disso, foi determinada a expressão diferencial de genes em macrófagos tratados com albumina C, DM 1 ou DM 2. A concentração plasmática de albumina glicada foi superior no grupo DM 1 e DM 2 em relação ao C e correlacionou-se positivamente com glicemia, hemoglobina glicada e frutosamina. Albumina sérica foi isolada por cromatografia para separação rápida de proteínas e purificada por extração alcoólica. Albumina DM 1 e DM 2 apresentaram maior conteúdo de carboximetil-lisina e apo A-I quando comparada à albumina C. Macrófagos enriquecidos com LDL acetilada e 14C-colesterol foram tratados com albumina C, DM 1 ou DM 2 e, a seguir, incubados na presença ou ausência de apo A-I, HDL3 ou HDL2 para determinação do efluxo de colesterol. Apesar de removerem maior quantidade de colesterol celular, as albumina DM 1 e DM 2 reduziram o efluxo de colesterol mediado por apo A-I (70% e 45%, respectivamente) e HDL2 (55% e 54%, respectivamente) em comparação à albumina C. Com HDL3, a queda no efluxo de colesterol só foi observada em macrófagos expostos à albumina DM 2 (55%). Macrófagos incubados apenas com albumina C, DM 1 ou DM 2 apresentaram conteúdo lipídico semelhante, evidenciado por coloração com Oil Red O. A adição de apo A-I, HDL3 ou HDL2 reduziu o conteúdo lipídico apenas nas células tratadas com albumina C, mas não com albumina DM 1 ou DM 2. A expressão de ABCA-1 foi diminuída 82% e 25% em macrófagos expostos, respectivamente, à albumina DM 1 e DM 2, em comparação às células tratadas com albumina C. As albuminas DM 1 e DM 2 reduziram a captação de 3H colesteril oleoil éter de HDL por células que superexpressam o receptor SR-BI. Estes resultados também foram obtidos com albumina humana modificada in vitro por glicação avançada. As albuminas isoladas dos pacientes diabéticos aumentaram a expressão de receptores envolvidos na captação de LDL modificadas e de proteínas que modulam vias da homeostase do colesterol. Os resultados deste estudo evidenciaram que a modificação in vivo da albumina por glicação avançada prejudica o transporte reverso de colesterol no diabete melito, por reduzir a expressão de ABCA-1 e a remoção de colesterol de macrófagos, bem como a captação seletiva de colesterol esterificado de HDL pelo SR-BI. Independentemente de variação na concentração e composição de HDL, a glicação da albumina pode contribuir para o acúmulo de lípides em macrófagos e gênese da aterosclerose no diabete melito / 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

Advanced glycosylation end products

Albumina sérica

Aterosclerose

Atherosclerosis

Cholesterol

Colesterol

Diabetes mellitus

Diabetes mellitus

Produtos finais de glicosilação

Serum albumin

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

Adriana Machado Saldiba de Lima

24 February 2011

Produtos de glicação avançada (AGE) são prevalentes no diabete melito e alteram o metabolismo de lípides e lipoproteínas. Neste estudo, avaliou-se a influência da albumina, isolada do soro de indivíduos controles (C, n =12) e de portadores de diabete melito tipo 1 (DM 1, n=13) e tipo 2 (DM 2, n=11), com controle glicêmico inadequado, sobre a remoção de colesterol de macrófagos, o acúmulo intracelular de lípides, o conteúdo do receptor de HDL, ABCA-1 e a captação seletiva de colesterol esterificado de HDL. Além disso, foi determinada a expressão diferencial de genes em macrófagos tratados com albumina C, DM 1 ou DM 2. A concentração plasmática de albumina glicada foi superior no grupo DM 1 e DM 2 em relação ao C e correlacionou-se positivamente com glicemia, hemoglobina glicada e frutosamina. Albumina sérica foi isolada por cromatografia para separação rápida de proteínas e purificada por extração alcoólica. Albumina DM 1 e DM 2 apresentaram maior conteúdo de carboximetil-lisina e apo A-I quando comparada à albumina C. Macrófagos enriquecidos com LDL acetilada e 14C-colesterol foram tratados com albumina C, DM 1 ou DM 2 e, a seguir, incubados na presença ou ausência de apo A-I, HDL3 ou HDL2 para determinação do efluxo de colesterol. Apesar de removerem maior quantidade de colesterol celular, as albumina DM 1 e DM 2 reduziram o efluxo de colesterol mediado por apo A-I (70% e 45%, respectivamente) e HDL2 (55% e 54%, respectivamente) em comparação à albumina C. Com HDL3, a queda no efluxo de colesterol só foi observada em macrófagos expostos à albumina DM 2 (55%). Macrófagos incubados apenas com albumina C, DM 1 ou DM 2 apresentaram conteúdo lipídico semelhante, evidenciado por coloração com Oil Red O. A adição de apo A-I, HDL3 ou HDL2 reduziu o conteúdo lipídico apenas nas células tratadas com albumina C, mas não com albumina DM 1 ou DM 2. A expressão de ABCA-1 foi diminuída 82% e 25% em macrófagos expostos, respectivamente, à albumina DM 1 e DM 2, em comparação às células tratadas com albumina C. As albuminas DM 1 e DM 2 reduziram a captação de 3H colesteril oleoil éter de HDL por células que superexpressam o receptor SR-BI. Estes resultados também foram obtidos com albumina humana modificada in vitro por glicação avançada. As albuminas isoladas dos pacientes diabéticos aumentaram a expressão de receptores envolvidos na captação de LDL modificadas e de proteínas que modulam vias da homeostase do colesterol. Os resultados deste estudo evidenciaram que a modificação in vivo da albumina por glicação avançada prejudica o transporte reverso de colesterol no diabete melito, por reduzir a expressão de ABCA-1 e a remoção de colesterol de macrófagos, bem como a captação seletiva de colesterol esterificado de HDL pelo SR-BI. Independentemente de variação na concentração e composição de HDL, a glicação da albumina pode contribuir para o acúmulo de lípides em macrófagos e gênese da aterosclerose no diabete melito / 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

Albumina sérica

Aterosclerose

Colesterol

Diabetes mellitus

Produtos finais de glicosilação

Advanced glycosylation end products

Atherosclerosis

Cholesterol

Diabetes mellitus

Serum albumin

Verstärkung der Zelladhärenz und Induktion des Zell-Spreading - eine neue Funktion von RAGE, einem hoch selektiven Differenzierungsmarker humaner Alveolar-Typ 1-Zellen / Promotion of cell adherence and induction of cell spreading - a novel function of RAGE, a highly selective differentiation marker of human alveolar type 1 cells

Demling, Nina

15 June 2005

RAGE (receptor for advanved glycation endproducts) was identified on endothelial cells as binding partner for AGE-modified molecules. The term &amp;quot;Advanced glycation endproducts&amp;quot; involves a number of structurally diverse molecules, which derive from multiple complex rearrangements of reducing sugars with free amino-groups of proteins. They evolve during food production and also in vivo during ageing and to an accelerated degree in diabetes, where AGEs cause receptor-mediated cellular perturbations. Due to the pathological relevance the aim of this thesis was to generate a &amp;quot;biosensor&amp;quot; for AGEs. To this end, the membrane-expressed receptor (flRAGE) as well as soluble RAGE (sRAGE) were expressed in mammalian cells and investigated in numerous binding studies. These did not reveal a specific interaction of AGE-modified ligands with RAGE. In addition, the expression of RAGE on endothelial cells, as described in the literature, could not be followed neither with the help of newly generated monoclonal anti-RAGE antibodies, nor in quantitative &amp;quot;real time&amp;quot; RT-PCR analysis. These results cast doubts on the meaning of RAGE as a proinflammatory receptor in AGE-mediated pathologies and on the adequacy of RAGE for the &amp;quot;biosensor&amp;quot;. At the same time the question concerning a physiological role of the receptor arose. RAGE-expression was analysed in different healthy human tissues by &amp;quot;real time&amp;quot; RT-PCR, which revealed an almost selective expression in lung tissue. An important indication for a possible physiological function of RAGE in lung provided the selective localization of RAGE on alveolar epithelial type I cells as demonstrated in frozen lung sections as well as in in vitro cultivated lung cells. RAGE could be identified as a novel, highly specific marker for the thin, expanded AT I cell, which form part of the air-blood-barrier. In the following, RAGE was found to be an interaction partner for collagen IV, a major component of the alveolar basal lamina. Membrane-expressed RAGE did not only strengthened adherence of cells but also induced cell spreading on collagen IV-coated surfaces. This preferential interaction of RAGE with collagen IV could substantially contribute to the functional morphology of AT I cells in vivo, thereby ensuring an effective bidirectional gas-exchange. The results of this thesis expose a novel, so far unnoticed aspect of the biology of RAGE, which presumably contributes to the phenotypic characteristic und function of normal human lung tissue. / RAGE (receptor for advanced glycation endproducts) wurde als Interaktionspartner auf Endothelzellen für AGE-modifizierte Moleküle identifiziert. Unter den &amp;quot;Advanced glycation endproducts&amp;quot; werden eine Vielzahl strukturell unterschiedlicher Moleküle zusammengefasst, die durch mehrstufige komplexe Umlagerungen zwischen reduzierenden Zuckern und freien Aminogruppen von Proteinen entstehen. Sie entstehen sowohl bei der Herstellung von Lebensmitteln, als auch in vivo während des Alterns und in erhöhtem Maß bei Diabetes, wobei sie Rezeptor-vermittelt Zellstörungen hervorrufen. In der vorliegenden Arbeit wurde zunächst aufgrund der pathologischen Relevanz eine Strategie zur Konzeption eines &amp;quot;Biosensors&amp;quot; für AGEs verfolgt. Hierfür wurde sowohl der membranständige Rezeptor (flRAGE) als auch löslicher RAGE (sRAGE) in Säugerzellen exprimiert und in zahlreichen Bindungs- und Funktionsanalysen getestet. Hierbei konnte keine spezifische Interaktion der AGE-modifizierten Moleküle mit RAGE nachgewiesen werden. Auch die in der Literatur beschriebene Expression von RAGE auf Endothelzellen konnte mit Hilfe neu generierter monoklonaler Antikörper, sowie in quantitativen &amp;quot;real time&amp;quot; RT-PCR-Analysen nicht nachvollzogen werden. Diese Ergebnisse warfen Zweifel an der grundlegenden Bedeutung von RAGE als proinflammatorischer Rezeptor in AGE-bedingten Krankheiten auf und stellten damit auch dessen Eignung für einen AGE-Biosensor in Frage. Gleichzeitig warf diese Skepsis die Frage nach einer möglichen physiologischen Funktion dieses Rezeptors auf. Eine vergleichende Analyse der RAGE-Expression in verschiedenen gesunden Geweben mittels &amp;quot;real time&amp;quot; RT-PCR ergab eine nahezu selektive Expression in Lungengewebe. Wichtige Anhaltspunkte für die Funktion von RAGE in der Lunge ergaben sich aus der selektiven Lokalisation des Rezeptors auf Alveolarepithelzellen Typ I (AT I) sowohl in Gefrierschnitten der Lunge als auch nach in vitro-Kultur von Lungenzellen. RAGE konnte als neuer, hoch spezifischer Marker für die lang gestreckten AT 1 Zellen, die einen Teil der Blut-Luft-Schranke bilden, definiert werden. In folgenden Funktionsanalysen konnte RAGE als spezifischer Interaktionspartner für Kollagen IV, einer Hauptkomponente der Alveolar-Basalmembran, identifiziert werden. Membranständiger RAGE verstärkte nicht nur die Adhärenz von Zellen an Kollagen IV-beschichtete Oberflächen, er induzierte auch Zell-&amp;quot;Spreading&amp;quot;. Dies gab Anlass für die Vermutung, dass die beobachtete präferentielle Interaktion von RAGE mit Kollagen IV maßgeblich zu der funktionellen Morphologie der AT I Zellen in vivo beitragen könnte, die die Voraussetzung für einen effektiven bidirektionalen Gasaustausch darstellt. Durch die Ergebnisse dieser Arbeit wurde ein neuer, bisher unbeachteter Aspekt der Biologie des RAGE aufgedeckt, der vermutlich entscheidend zur phänotypischen Ausprägung und Funktion des normalen humanen Lungengewebes beiträgt.

AGE

AT 1

Adhärenz

Alveolarepithel

Kollagen IV

RAGE

Rezeptor

Spreading

AGE

AT 1

RAGE

adherence

alveolar epithelium

collagen IV

receptor

spreading

ddc:570

rvk:WE 2300

Advanced glycosylation end products

Ausbreitung

Cytologie

Kollagen

Pneumozyt

Rezeptor

Zelladhäsion

Verstärkung der Zelladhärenz und Induktion des Zell-Spreading - eine neue Funktion von RAGE, einem hoch selektiven Differenzierungsmarker humaner Alveolar-Typ 1-Zellen

Demling, Nina

08 July 2005

RAGE (receptor for advanved glycation endproducts) was identified on endothelial cells as binding partner for AGE-modified molecules. The term &amp;quot;Advanced glycation endproducts&amp;quot; involves a number of structurally diverse molecules, which derive from multiple complex rearrangements of reducing sugars with free amino-groups of proteins. They evolve during food production and also in vivo during ageing and to an accelerated degree in diabetes, where AGEs cause receptor-mediated cellular perturbations. Due to the pathological relevance the aim of this thesis was to generate a &amp;quot;biosensor&amp;quot; for AGEs. To this end, the membrane-expressed receptor (flRAGE) as well as soluble RAGE (sRAGE) were expressed in mammalian cells and investigated in numerous binding studies. These did not reveal a specific interaction of AGE-modified ligands with RAGE. In addition, the expression of RAGE on endothelial cells, as described in the literature, could not be followed neither with the help of newly generated monoclonal anti-RAGE antibodies, nor in quantitative &amp;quot;real time&amp;quot; RT-PCR analysis. These results cast doubts on the meaning of RAGE as a proinflammatory receptor in AGE-mediated pathologies and on the adequacy of RAGE for the &amp;quot;biosensor&amp;quot;. At the same time the question concerning a physiological role of the receptor arose. RAGE-expression was analysed in different healthy human tissues by &amp;quot;real time&amp;quot; RT-PCR, which revealed an almost selective expression in lung tissue. An important indication for a possible physiological function of RAGE in lung provided the selective localization of RAGE on alveolar epithelial type I cells as demonstrated in frozen lung sections as well as in in vitro cultivated lung cells. RAGE could be identified as a novel, highly specific marker for the thin, expanded AT I cell, which form part of the air-blood-barrier. In the following, RAGE was found to be an interaction partner for collagen IV, a major component of the alveolar basal lamina. Membrane-expressed RAGE did not only strengthened adherence of cells but also induced cell spreading on collagen IV-coated surfaces. This preferential interaction of RAGE with collagen IV could substantially contribute to the functional morphology of AT I cells in vivo, thereby ensuring an effective bidirectional gas-exchange. The results of this thesis expose a novel, so far unnoticed aspect of the biology of RAGE, which presumably contributes to the phenotypic characteristic und function of normal human lung tissue. / RAGE (receptor for advanced glycation endproducts) wurde als Interaktionspartner auf Endothelzellen für AGE-modifizierte Moleküle identifiziert. Unter den &amp;quot;Advanced glycation endproducts&amp;quot; werden eine Vielzahl strukturell unterschiedlicher Moleküle zusammengefasst, die durch mehrstufige komplexe Umlagerungen zwischen reduzierenden Zuckern und freien Aminogruppen von Proteinen entstehen. Sie entstehen sowohl bei der Herstellung von Lebensmitteln, als auch in vivo während des Alterns und in erhöhtem Maß bei Diabetes, wobei sie Rezeptor-vermittelt Zellstörungen hervorrufen. In der vorliegenden Arbeit wurde zunächst aufgrund der pathologischen Relevanz eine Strategie zur Konzeption eines &amp;quot;Biosensors&amp;quot; für AGEs verfolgt. Hierfür wurde sowohl der membranständige Rezeptor (flRAGE) als auch löslicher RAGE (sRAGE) in Säugerzellen exprimiert und in zahlreichen Bindungs- und Funktionsanalysen getestet. Hierbei konnte keine spezifische Interaktion der AGE-modifizierten Moleküle mit RAGE nachgewiesen werden. Auch die in der Literatur beschriebene Expression von RAGE auf Endothelzellen konnte mit Hilfe neu generierter monoklonaler Antikörper, sowie in quantitativen &amp;quot;real time&amp;quot; RT-PCR-Analysen nicht nachvollzogen werden. Diese Ergebnisse warfen Zweifel an der grundlegenden Bedeutung von RAGE als proinflammatorischer Rezeptor in AGE-bedingten Krankheiten auf und stellten damit auch dessen Eignung für einen AGE-Biosensor in Frage. Gleichzeitig warf diese Skepsis die Frage nach einer möglichen physiologischen Funktion dieses Rezeptors auf. Eine vergleichende Analyse der RAGE-Expression in verschiedenen gesunden Geweben mittels &amp;quot;real time&amp;quot; RT-PCR ergab eine nahezu selektive Expression in Lungengewebe. Wichtige Anhaltspunkte für die Funktion von RAGE in der Lunge ergaben sich aus der selektiven Lokalisation des Rezeptors auf Alveolarepithelzellen Typ I (AT I) sowohl in Gefrierschnitten der Lunge als auch nach in vitro-Kultur von Lungenzellen. RAGE konnte als neuer, hoch spezifischer Marker für die lang gestreckten AT 1 Zellen, die einen Teil der Blut-Luft-Schranke bilden, definiert werden. In folgenden Funktionsanalysen konnte RAGE als spezifischer Interaktionspartner für Kollagen IV, einer Hauptkomponente der Alveolar-Basalmembran, identifiziert werden. Membranständiger RAGE verstärkte nicht nur die Adhärenz von Zellen an Kollagen IV-beschichtete Oberflächen, er induzierte auch Zell-&amp;quot;Spreading&amp;quot;. Dies gab Anlass für die Vermutung, dass die beobachtete präferentielle Interaktion von RAGE mit Kollagen IV maßgeblich zu der funktionellen Morphologie der AT I Zellen in vivo beitragen könnte, die die Voraussetzung für einen effektiven bidirektionalen Gasaustausch darstellt. Durch die Ergebnisse dieser Arbeit wurde ein neuer, bisher unbeachteter Aspekt der Biologie des RAGE aufgedeckt, der vermutlich entscheidend zur phänotypischen Ausprägung und Funktion des normalen humanen Lungengewebes beiträgt.

info:eu-repo/classification/ddc/570

ddc:570

N-acetilcisteína reduz o estresse de retículo endoplasmático e afeta seletivamente o efluxo de colesterol de macrófagos mediado por ABCA-1 e ABCG-1 na doença renal crônica / -

Machado, Juliana Tironi

01 September 2014

Produtos de glicação avançada, carbamilação e estresse oxidativo contribuem como fatores de risco não tradicionais para a aterosclerose na doença renal crônica (DRC), em parte, por prejudicarem o metabolismo lipídico e por representarem um mecanismo de injúria memorizado ao longo do desenvolvimento da doença renal. A albumina sérica, isolada de animais com DRC, reduz a remoção de colesterol mediado por apoA-I e subfrações de HDL, prejudicando o fluxo de colesterol de macrófagos arteriais ao fígado por meio do transporte reverso de colesterol. Objetivo: Avaliou-se a influência do tratamento com N-acetilcisteína (NAC) em ratos com DRC sobre a concentração plasmática de produtos de oxidação e glicação avançada e o reflexo sobre os efeitos da albumina sérica sobre o efluxo de colesterol e o estresse de retículo endoplasmático em macrófagos. Métodos: Ratos Wistar com 2 meses de idade, pesando aproximadamente 200-250g foram submetidos à nefrectomia 5/6 e mantidos por 60 dias (grupo DRC) com ou sem tratamento com N-acetilcisteína na água (600mg/L), após o 7° dia de indução da DRC (grupo DRC + NAC). Animais controles foram falso-operados (grupo C) e um subgrupo submetido ao tratamento com NAC (C + NAC). No início e no final do estudo foram determinadas as concentrações plasmáticas de glicose, colesterol (CT), triglicérides (TG), ureia, creatinina e na urina, excreção urinária de proteína de 24 h. AGE totais, pentosidina, TBARS (marcador de peroxidação lipídica) e pressão arterial sistólica (PAS) foram determinados no final do estudo. A albumina sérica foi isolada por cromatografia rápida para separação de proteínas e purificada por extração alcoólica. Macrófagos J774 foram incubados por 18 h com as albuminas dos diferentes grupos experimentais para determinação do conteúdo dos receptores de HDL (ABCA-1 e ABCG-1) e de marcadores de estresse de retículo endoplasmático (chaperonas Grp 78, Grp94 e proteína dissulfeto isomerase, PDI) por imunolbot e efluxo de colesterol, mediado por apo A-I e HDL2. Para isto, as células foram previamente enriquecidas com LDL-acetilada e 14C-colesterol. Macrófagos foram também incubados isoladamente com concentrações crescentes de NAC para avaliação do conteúdo dos receptores de HDL. Resultados: Ao final do estudo, o peso corporal foi 10% menor no grupo DRC em comparação ao C (p=0,006). Esta alteração foi prevenida pelo tratamento com NAC. A PAS (mmHg) foi maior no grupo DRC (130 ± 3) em comparação ao grupo DRC+NAC (109±3; p=0,0004). Ureia, creatinina, CT, TG (mg/dL), proteinúria (mg/24 h), AGE total, pentosidina (unidades arbitrárias de fluorescência) e TBARS (nmol/mL) foram maiores nos grupos DRC em comparação ao grupo C (122 ± 8 vs. 41 ± 0,9 ; 0,9 ± 0,07 vs. 0,4 ± 0,03; 151 ± 6 vs. 76 ± 2,7; 83 ± 4 vs. 51,5 ± 3; 46 ± 2,5 vs. 14 ± 0,9; 32620 ± 673 vs. 21750 ± 960; 16700 ± 1370 vs. 5314 ± 129; 6,6 ± 0,5 vs. 2 ± 0,2, respectivamente) (p < 0,0001) e nos grupos DRC+NAC em comparação ao grupo C+NAC (91,4 ± 5 vs. 40 ± 0,9 ; 0,6 ± 0,02 vs. 0,3 ± 0,02; 126 ± 7,5 vs. 76 ± 2,6; 73 ± 6 vs. 68 ± 4; 51 ± 3,5 vs. 18,4 ± 1,5; 24720 ± 1114 vs. 20040 ± 700; 10080 ± 748 vs. 5050 ± 267; 4,5 ± 0,5 vs. 1,8 ± 0,2, respectivamente) (p < 0,0001). No grupo DRC + NAC, PAS, CT, ureia, creatinina, AGE total, pentosidina e TBARS foram, respectivamente, 17% (p=0,0004), 17% (p=0,02), 25% (p=0,02), 33% (p=0,06), 24% (p < 0,0001), 40% (p=0,0008), 28% (p=0,009) menores do que no grupo DRC. A glicemia foi maior nos grupos C + NAC (107+-4,6) e DRC + NAC (107+-2,6) em comparação ao C (96+-1,8) e DRC (98+-1,6), respectivamente. Macrófagos tratados com albumina-DRC apresentaram maior conteúdo de PDI (5 vezes; p=0,02 e 7 vezes p=0,02) e Grp94 (66 %; p =0,02 e 20 %; p=0,02) quando comparados aos tratados com albumina-C ou albumina-DRC + NAC, respectivamente. O conteúdo do receptor ABCA-1 foi menor 87% e 70% (p < 0,01) nos macrófagos tratados com albumina-C+NAC e albumina-DRC, respectivamente em comparação com albumina-C. O conteúdo de ABCG-1 foi, respectivamente, 4 e 7,5 vezes maior nos macrófagos tratados com albumina-C+NAC e albumina-DRC+NAC em comparação as respectivas situações sem tratamento. O efluxo de colesterol mediado por apo A-I foi 59 % e 70 % (p < 0,0001) menor nos macrófagos tratados com albumina-C+NAC e albumina-DRC, respectivamente em comparação a albumina-C. O efluxo de colesterol mediado pela HDL2 foi 52 % maior nos macrófagos tratados com albumina-C+NAC em comparação as células tratadas com albumina-C. Não houve diferença no conteúdo do receptor ABCA-1 nos macrófagos tratados com concentrações crescentes NAC por 8 h. No entanto, após 18 h, o ABCA-1 diminuiu 50 %, 69 % e 72 % nos macrófagos tratados respectivamente com 10 mM, 20 mM e 30 mM de NAC isoladamente em comparação aos macrófagos controles. O conteúdo de ABCG-1 nos macrófagos tratados com NAC, em 8 h e 18 h não sofreu alteração. Conclusão: A N-acetilcisteína reduz produtos de oxidação e glicação avançada no plasma de animais com DRC e previne o estresse de RE em macrófagos, induzido pela albumina isolada destes animais. Apesar de diminuir o conteúdo de ABCA-1 e o efluxo de colesterol mediado por apo A-I, a NAC aumenta o conteúdo de ABCG-1. Desta forma, a NAC pode contribuir para atenuar os efeitos deletérios da albumina modificada na DRC sobre o acúmulo lipídico em macrófagos, contribuindo para a prevenção da aterosclerose / Advanced glycation, carbamylation and oxidative stress c contribute to atherosclerosis in chronic kidney disease (CKD) as nontraditional risk factors. They impair lipid metabolism and promote a long last injury during the development of CKD. Serum albumin isolated from CKD-animals reduces cholesterol efflux mediated by apoa A-I and HDl subfractions, impairing the cholesterol flux from arterial wall macrophage to the the liver by the reverse cholesterol transport (RCT).Objective: In the present study it was analyzed the influence of N-acetylcysteine treatment in CKD-rats in plasma concentration of lipid peroxides and advanced glycation end products and the effect of serum albumin in macrophage cholesterol efflux and endoplasmic reticulum stress development. Methods: Two months male Wistar weighting 200-250g were submitted to a 5/6 nephrectomized maintained for 60 days (CKD group) treated or not with N-acetylcysteine in water (600 mg/L), after the seventh day of CKD induction (CKD+NAC group). Sham animals were false-operated (SHAM group) and a subgroup was treated with NAC (SHAM+NAC group). In the basal and final periods it was determined plasma concentration of glucose, total cholesterol (TC), triglycerides (TG), urea, creatinine and 24h-urinary protein excretion (UPE). Total AGE, pentosidine, thiobarbituric reactive substances (TBARS) levels and systolic blood pressure (SBP) were measured at the final period only. Serum albumin was isolated by fast protein liquid chromatography and purified by alcoholic extraction. J774 macrophage were incubated for 18 h with albumin isolated from the experimental groups in order to determine the content of HDL receptors and markers of endoplasmic reticulum stress (Grp78, Grp94 and protein dissulfide isomerase, PDI) by immunioblot and cholesterol efflux mediated by apo A-I and HDL2. For this, cells were previously overloaded with acetylated LDL and 14C-cholesterol. Macrophage were also incubated with different concentrations of NAC alone in order to measure HDL-receptors and cholesterole efflux. Results: In the end of the protocol, body weight was 10% lower in CKD group in comparison to SHAM group (p=0.006). This change was preserved by treatment with NAC. SBP (mmHg) was higher in CKD group (130±3) in comparison to CKD+NAC (109±3; p=0.0004). Urea, creatinine, TC, TG (mg/dL), UPE (mg/24 h), total AGE, pentosidine (arbitrary units of fluorescence) and TBARS (nmol/mL) were higher in CKD group in comparison to SHAM (122±8 vs. 41 ± 0.9; 0.9 ± 0.07 vs. 0.4 ± 0.03; 151 ± 6 vs. 76±2.7; 83 ± 4 vs. 51.5 ± 3; 46 ± 2.5 vs. 14 ± 0.9; 32620 ± 673 vs. 21750 ± 960; 16700 ± 1370 vs. 5314 ± 129; 6.6 ± 0.5 vs. 2 ± 0.2, respectively) (p < 0.0001) and in CKD+NAC in comparison to C+NAC (91.4±5 vs. 40±0.9 ; 0.6±0.02 vs. 0.3 ± 0.02; 126±7.5 vs. 76 ± 2.6; 73±6 vs. 68±4; 51 ± 3.5 vs. 18.4±1.5; 24720 ± 1114 vs. 20040±700; 10080±748 vs. 5050 ± 267; 4.5±0.5 vs. 1.8±0.2, respectively) (p < 0.0001). In CKD+NAC group, SBP, TC, urea, creatinine, total AGE, pentosidine and TBARS were, respectively, 17 % (p=0.0004), 17 % (p=0.02), 25 % (p=0.02), 33 % (p=0.06), 24 % (p<0.0001), 40 % (p=0.0008), 28 % (p=0.009) lower than CKD group. Glycemia was higher in SHAM+NAC (107+-4.6) and CKD+NAC (107+-2.6) in comparison to SHAM (96+-1.8) and CKD group (98+-1.6), respectively. Macrophages treat with CKD-albumin presented higher content of PDI (5 times; p=0.02 e 7 times p=0.02) and Grp94 (66 %; p=0.02 e 20 %; p=0.02) when compared to SHAM-albumin and CKD+NAC-albumin- treated cells, respectively. ABCA-1 protein content was 87 % and 70 % (p < 0.01) lower in macrophages treated with SHAM+NAC-albumin and CKD-albumin, respectively compared with SHAM-albumin. ABCG-1 protein level was respectively 4 and 7.5 times higher in macrophages treated with SHAM+NAC-albumin and CKD+NAC-albumin in comparison to their respective controls without treatment. The cholesterol efflux mediated by apo A-I was 59 % and 70 % (p < 0.0001) lower in macrophages treated with SHAM+NAC-albumin and CKD-albumin, respectively, when compared to SHAM-albumin. The HDL2-mediated cholesterol efflux was 52 % higher in macrophages treated with SHAM+NAC-albumin compared to macrophages treated with SHAM-albumin. No difference was observed in the ABCA-1 protein level in macrophages treated with crescent concentrations of NAC alone for 8 h. Nonetheless, after 18 h, ABCA-1 was 50 %, 69 % and 72 % reduced in macrophages treated, respectively, with 10 mM, 20 mM and 30 mM NAC in comparison to control cells. ABCG-1 content in macrophages treated with NAC for 8 h and 18 h was not changed. Conclusion: NAC reduces plasma lipid peroxidation and AGE in CKD animals and prevents the endoplasmic reticulum stress induced by CKD-albumin in macrophages. Despite diminishing ABCA-1 and apo A-I-mediated cholesterol efflux, NAC increases ABCG-1. Then, NAC may contribute to attenuate the deleterious effects of the in vivo modified albumin on lipid accumulation in macrophages helping to prevent atherosclerosis in CKD

Advanced glycosylation end products

Albumin seric

Albumina sérica

Apo A-I

Apo A-I

ATP-binding cassette transporters

Cholesterol

Chronic renal insufficiency

Colesterol

Endoplasmic reticulum stress

Estresse do retículo endoplasmático

Estresse oxidativo

Insuficiência renal crônica

Oxidative stress

Produtos finais de glicosilação

N-acetilcisteína reduz o estresse de retículo endoplasmático e afeta seletivamente o efluxo de colesterol de macrófagos mediado por ABCA-1 e ABCG-1 na doença renal crônica / -

Juliana Tironi Machado

01 September 2014

Produtos de glicação avançada, carbamilação e estresse oxidativo contribuem como fatores de risco não tradicionais para a aterosclerose na doença renal crônica (DRC), em parte, por prejudicarem o metabolismo lipídico e por representarem um mecanismo de injúria memorizado ao longo do desenvolvimento da doença renal. A albumina sérica, isolada de animais com DRC, reduz a remoção de colesterol mediado por apoA-I e subfrações de HDL, prejudicando o fluxo de colesterol de macrófagos arteriais ao fígado por meio do transporte reverso de colesterol. Objetivo: Avaliou-se a influência do tratamento com N-acetilcisteína (NAC) em ratos com DRC sobre a concentração plasmática de produtos de oxidação e glicação avançada e o reflexo sobre os efeitos da albumina sérica sobre o efluxo de colesterol e o estresse de retículo endoplasmático em macrófagos. Métodos: Ratos Wistar com 2 meses de idade, pesando aproximadamente 200-250g foram submetidos à nefrectomia 5/6 e mantidos por 60 dias (grupo DRC) com ou sem tratamento com N-acetilcisteína na água (600mg/L), após o 7° dia de indução da DRC (grupo DRC + NAC). Animais controles foram falso-operados (grupo C) e um subgrupo submetido ao tratamento com NAC (C + NAC). No início e no final do estudo foram determinadas as concentrações plasmáticas de glicose, colesterol (CT), triglicérides (TG), ureia, creatinina e na urina, excreção urinária de proteína de 24 h. AGE totais, pentosidina, TBARS (marcador de peroxidação lipídica) e pressão arterial sistólica (PAS) foram determinados no final do estudo. A albumina sérica foi isolada por cromatografia rápida para separação de proteínas e purificada por extração alcoólica. Macrófagos J774 foram incubados por 18 h com as albuminas dos diferentes grupos experimentais para determinação do conteúdo dos receptores de HDL (ABCA-1 e ABCG-1) e de marcadores de estresse de retículo endoplasmático (chaperonas Grp 78, Grp94 e proteína dissulfeto isomerase, PDI) por imunolbot e efluxo de colesterol, mediado por apo A-I e HDL2. Para isto, as células foram previamente enriquecidas com LDL-acetilada e 14C-colesterol. Macrófagos foram também incubados isoladamente com concentrações crescentes de NAC para avaliação do conteúdo dos receptores de HDL. Resultados: Ao final do estudo, o peso corporal foi 10% menor no grupo DRC em comparação ao C (p=0,006). Esta alteração foi prevenida pelo tratamento com NAC. A PAS (mmHg) foi maior no grupo DRC (130 ± 3) em comparação ao grupo DRC+NAC (109±3; p=0,0004). Ureia, creatinina, CT, TG (mg/dL), proteinúria (mg/24 h), AGE total, pentosidina (unidades arbitrárias de fluorescência) e TBARS (nmol/mL) foram maiores nos grupos DRC em comparação ao grupo C (122 ± 8 vs. 41 ± 0,9 ; 0,9 ± 0,07 vs. 0,4 ± 0,03; 151 ± 6 vs. 76 ± 2,7; 83 ± 4 vs. 51,5 ± 3; 46 ± 2,5 vs. 14 ± 0,9; 32620 ± 673 vs. 21750 ± 960; 16700 ± 1370 vs. 5314 ± 129; 6,6 ± 0,5 vs. 2 ± 0,2, respectivamente) (p < 0,0001) e nos grupos DRC+NAC em comparação ao grupo C+NAC (91,4 ± 5 vs. 40 ± 0,9 ; 0,6 ± 0,02 vs. 0,3 ± 0,02; 126 ± 7,5 vs. 76 ± 2,6; 73 ± 6 vs. 68 ± 4; 51 ± 3,5 vs. 18,4 ± 1,5; 24720 ± 1114 vs. 20040 ± 700; 10080 ± 748 vs. 5050 ± 267; 4,5 ± 0,5 vs. 1,8 ± 0,2, respectivamente) (p < 0,0001). No grupo DRC + NAC, PAS, CT, ureia, creatinina, AGE total, pentosidina e TBARS foram, respectivamente, 17% (p=0,0004), 17% (p=0,02), 25% (p=0,02), 33% (p=0,06), 24% (p < 0,0001), 40% (p=0,0008), 28% (p=0,009) menores do que no grupo DRC. A glicemia foi maior nos grupos C + NAC (107+-4,6) e DRC + NAC (107+-2,6) em comparação ao C (96+-1,8) e DRC (98+-1,6), respectivamente. Macrófagos tratados com albumina-DRC apresentaram maior conteúdo de PDI (5 vezes; p=0,02 e 7 vezes p=0,02) e Grp94 (66 %; p =0,02 e 20 %; p=0,02) quando comparados aos tratados com albumina-C ou albumina-DRC + NAC, respectivamente. O conteúdo do receptor ABCA-1 foi menor 87% e 70% (p < 0,01) nos macrófagos tratados com albumina-C+NAC e albumina-DRC, respectivamente em comparação com albumina-C. O conteúdo de ABCG-1 foi, respectivamente, 4 e 7,5 vezes maior nos macrófagos tratados com albumina-C+NAC e albumina-DRC+NAC em comparação as respectivas situações sem tratamento. O efluxo de colesterol mediado por apo A-I foi 59 % e 70 % (p < 0,0001) menor nos macrófagos tratados com albumina-C+NAC e albumina-DRC, respectivamente em comparação a albumina-C. O efluxo de colesterol mediado pela HDL2 foi 52 % maior nos macrófagos tratados com albumina-C+NAC em comparação as células tratadas com albumina-C. Não houve diferença no conteúdo do receptor ABCA-1 nos macrófagos tratados com concentrações crescentes NAC por 8 h. No entanto, após 18 h, o ABCA-1 diminuiu 50 %, 69 % e 72 % nos macrófagos tratados respectivamente com 10 mM, 20 mM e 30 mM de NAC isoladamente em comparação aos macrófagos controles. O conteúdo de ABCG-1 nos macrófagos tratados com NAC, em 8 h e 18 h não sofreu alteração. Conclusão: A N-acetilcisteína reduz produtos de oxidação e glicação avançada no plasma de animais com DRC e previne o estresse de RE em macrófagos, induzido pela albumina isolada destes animais. Apesar de diminuir o conteúdo de ABCA-1 e o efluxo de colesterol mediado por apo A-I, a NAC aumenta o conteúdo de ABCG-1. Desta forma, a NAC pode contribuir para atenuar os efeitos deletérios da albumina modificada na DRC sobre o acúmulo lipídico em macrófagos, contribuindo para a prevenção da aterosclerose / Advanced glycation, carbamylation and oxidative stress c contribute to atherosclerosis in chronic kidney disease (CKD) as nontraditional risk factors. They impair lipid metabolism and promote a long last injury during the development of CKD. Serum albumin isolated from CKD-animals reduces cholesterol efflux mediated by apoa A-I and HDl subfractions, impairing the cholesterol flux from arterial wall macrophage to the the liver by the reverse cholesterol transport (RCT).Objective: In the present study it was analyzed the influence of N-acetylcysteine treatment in CKD-rats in plasma concentration of lipid peroxides and advanced glycation end products and the effect of serum albumin in macrophage cholesterol efflux and endoplasmic reticulum stress development. Methods: Two months male Wistar weighting 200-250g were submitted to a 5/6 nephrectomized maintained for 60 days (CKD group) treated or not with N-acetylcysteine in water (600 mg/L), after the seventh day of CKD induction (CKD+NAC group). Sham animals were false-operated (SHAM group) and a subgroup was treated with NAC (SHAM+NAC group). In the basal and final periods it was determined plasma concentration of glucose, total cholesterol (TC), triglycerides (TG), urea, creatinine and 24h-urinary protein excretion (UPE). Total AGE, pentosidine, thiobarbituric reactive substances (TBARS) levels and systolic blood pressure (SBP) were measured at the final period only. Serum albumin was isolated by fast protein liquid chromatography and purified by alcoholic extraction. J774 macrophage were incubated for 18 h with albumin isolated from the experimental groups in order to determine the content of HDL receptors and markers of endoplasmic reticulum stress (Grp78, Grp94 and protein dissulfide isomerase, PDI) by immunioblot and cholesterol efflux mediated by apo A-I and HDL2. For this, cells were previously overloaded with acetylated LDL and 14C-cholesterol. Macrophage were also incubated with different concentrations of NAC alone in order to measure HDL-receptors and cholesterole efflux. Results: In the end of the protocol, body weight was 10% lower in CKD group in comparison to SHAM group (p=0.006). This change was preserved by treatment with NAC. SBP (mmHg) was higher in CKD group (130±3) in comparison to CKD+NAC (109±3; p=0.0004). Urea, creatinine, TC, TG (mg/dL), UPE (mg/24 h), total AGE, pentosidine (arbitrary units of fluorescence) and TBARS (nmol/mL) were higher in CKD group in comparison to SHAM (122±8 vs. 41 ± 0.9; 0.9 ± 0.07 vs. 0.4 ± 0.03; 151 ± 6 vs. 76±2.7; 83 ± 4 vs. 51.5 ± 3; 46 ± 2.5 vs. 14 ± 0.9; 32620 ± 673 vs. 21750 ± 960; 16700 ± 1370 vs. 5314 ± 129; 6.6 ± 0.5 vs. 2 ± 0.2, respectively) (p < 0.0001) and in CKD+NAC in comparison to C+NAC (91.4±5 vs. 40±0.9 ; 0.6±0.02 vs. 0.3 ± 0.02; 126±7.5 vs. 76 ± 2.6; 73±6 vs. 68±4; 51 ± 3.5 vs. 18.4±1.5; 24720 ± 1114 vs. 20040±700; 10080±748 vs. 5050 ± 267; 4.5±0.5 vs. 1.8±0.2, respectively) (p < 0.0001). In CKD+NAC group, SBP, TC, urea, creatinine, total AGE, pentosidine and TBARS were, respectively, 17 % (p=0.0004), 17 % (p=0.02), 25 % (p=0.02), 33 % (p=0.06), 24 % (p<0.0001), 40 % (p=0.0008), 28 % (p=0.009) lower than CKD group. Glycemia was higher in SHAM+NAC (107+-4.6) and CKD+NAC (107+-2.6) in comparison to SHAM (96+-1.8) and CKD group (98+-1.6), respectively. Macrophages treat with CKD-albumin presented higher content of PDI (5 times; p=0.02 e 7 times p=0.02) and Grp94 (66 %; p=0.02 e 20 %; p=0.02) when compared to SHAM-albumin and CKD+NAC-albumin- treated cells, respectively. ABCA-1 protein content was 87 % and 70 % (p < 0.01) lower in macrophages treated with SHAM+NAC-albumin and CKD-albumin, respectively compared with SHAM-albumin. ABCG-1 protein level was respectively 4 and 7.5 times higher in macrophages treated with SHAM+NAC-albumin and CKD+NAC-albumin in comparison to their respective controls without treatment. The cholesterol efflux mediated by apo A-I was 59 % and 70 % (p < 0.0001) lower in macrophages treated with SHAM+NAC-albumin and CKD-albumin, respectively, when compared to SHAM-albumin. The HDL2-mediated cholesterol efflux was 52 % higher in macrophages treated with SHAM+NAC-albumin compared to macrophages treated with SHAM-albumin. No difference was observed in the ABCA-1 protein level in macrophages treated with crescent concentrations of NAC alone for 8 h. Nonetheless, after 18 h, ABCA-1 was 50 %, 69 % and 72 % reduced in macrophages treated, respectively, with 10 mM, 20 mM and 30 mM NAC in comparison to control cells. ABCG-1 content in macrophages treated with NAC for 8 h and 18 h was not changed. Conclusion: NAC reduces plasma lipid peroxidation and AGE in CKD animals and prevents the endoplasmic reticulum stress induced by CKD-albumin in macrophages. Despite diminishing ABCA-1 and apo A-I-mediated cholesterol efflux, NAC increases ABCG-1. Then, NAC may contribute to attenuate the deleterious effects of the in vivo modified albumin on lipid accumulation in macrophages helping to prevent atherosclerosis in CKD

Albumina sérica

Apo A-I

Colesterol

Estresse do retículo endoplasmático

Estresse oxidativo

Insuficiência renal crônica

Produtos finais de glicosilação

Advanced glycosylation end products

Albumin seric

Apo A-I

ATP-binding cassette transporters

Cholesterol

Chronic renal insufficiency

Endoplasmic reticulum stress

Oxidative stress