Effect of estrogen replacement therapy on metabolic risk factors for cardiovascular diseases in hysterectomized postmenopausal women

Karjalainen, A. (Anna)

19 December 2003

Abstract Estrogen replacement therapy (ERT) has been associated with favorable effects on risk factors for atherosclerosis. In observational studies ERT was also suggested to reduce the risk of cardiovascular disease in postmenopausal women, but the cardioprotective role of estrogen has been challenged after negative results in randomized trials. However, the mechanisms of estrogen action in atherosclerosis development are only partially known. In order to investigate the regulation of plasma low-density lipoprotein (LDL) cholesterol in postmenopausal women and the effects of ERT on cholesterol and glucose metabolism and blood pressure, 79 hysterectomized, non-diabetic postmenopausal women were randomized in a double-blind, double-dummy study to receive either peroral estradiol valerate (2 mg/day) or transdermal 17β-estradiol gel (1 mg estradiol/day) for six months. At baseline the level of LDL cholesterol was related to body mass index, the fractional catabolic rate (FCR) and the production of LDL apolipoprotein B (apo B), but not to cholesterol absorption efficiency. Both peroral and transdermal ERT decreased plasma total and LDL cholesterol, while high-density lipoprotein cholesterol and triglycerides increased only in the peroral group. The LDL-lowering response was related to changes in estrogen levels, which presumably enhance LDL receptor activity shown as an increase in FCR for LDL apo B. In contrast, the determined genetic factors, apo E phenotype, EcoRI and XbaI polymorphisms of the apo B gene and polymorphism of 7α-hydroxylase gene, were not significant in regulation of LDL cholesterol, neither did they modify the response of ERT in these postmenopausal women. Similar outcomes were observed with both peroral and transdermal ERT as regards glucose metabolism and blood pressure. The overall effect of ERT on glucose tolerance was found to be neutral. Blood pressure decreased among non-hypertensive subjects on both estrogens, which could be related, at least in part, to the alterations in vasoactive peptides. The data of the present study suggest an overall favorable effect of both peroral and transdermal estrogen on common cardiovascular risk factors. However, the clinical significance of these findings in the prevention of cardiovascular diseases needs to be proven in long-term, randomized trials.

LDL cholesterol

atrial natriuretic factor

blood pressure

estrogen replacement therapy

glucose metabolism

hysterectomy

menopause

Characterization of PCSK9-mediated LDLR Degradation in Hepatic and Fibroblast Cells

Nguyen, My-Anh

January 2013

The discovery that proprotein convertase subtilisin/kexin type 9 (PCSK9) mediates degradation of low-density lipoprotein receptors (LDLR) indicates a critical role in LDL metabolism. PCSK9 is a secreted protein that binds to the epidermal growth factor-like (EGF)-A domain of LDLR and directs the receptor for degradation in lysosomes by an unknown mechanism. A gain-of-function mutation, D374Y, increases binding to LDLR EGF-A >10-fold and is associated with a severe form of hypercholesterolemia in humans. Similar to previous studies, data obtained in my project has established that PCSK9 was capable of promoting robust LDLR degradation in liver-derived cell lines; however, minimal effects on LDLR levels were detected in several lines of fibroblast cells despite normal LDLR-dependent cellular uptake of PCSK9. Importantly, a PCSK9 degradation assay showed that 125I-labeled wild-type PCSK9 was internalized and degraded equally in both hepatic and fibroblast cells, indicating dissociation of wild-type PCSK9 from recycling LDLRs in fibroblasts. Moreover, PCSK9 recycling assays confirmed that no recycling of wild-type PCSK9 to the cell surface could be detected in fibroblast cells. In contrast, more than 60% of internalized PCSK9-D374Y recycled to the cell surface in these cells, and thus had reduced ability to direct the LDLR for lysosomal degradation despite persistent binding. Co-localization studies indicated that PCSK9-D374Y trafficked to both lysosomes and recycling compartments in fibroblast cells, whereas wild-type PCSK9 exclusively trafficked to lysosomes. We conclude that two factors diminish PCSK9 activity in fibroblast cells: i) an increased dissociation from the LDLR in early endosomal compartments, and ii) a decreased ability of bound PCSK9 to direct the LDLR to lysosomes for degradation. Finally, an LDLR variant that binds to PCSK9 in a Ca2+-independent manner could partially restore wild-type PCSK9 activity, but not PCSK9-D374Y activity, in fibroblast cells.

Wild-type PCSK9

PCSK9-D374Y

LDL receptor degradation

hepatic cells

fibroblast cells

Varannandagsfasta: en effektiv strategi för bättre hälsa? : En litteraturstudie om varannandagsfastans effekt på kroppsvikt samt kardiovaskulära riskfaktorer

Sara, Saglamoglu

January 2020

Bakgrund: Fetma och övervikt är ett av de största hälsoproblemen runt om i världen. Vid fetma och övervikt ökar risken för olika sjukdomar, bland annat kranskärlssjukdomar. Kardiovaskulära sjukdomar var den främsta dödsorsaken världen över år 2016. En viktnedgång på 5 – 10 % av kroppsvikten, genom dietära restriktioner, kan minska risken för kranskärlssjukdomar. Varannandagsfasta är en metod som begränsar en individs energiintag med 70–100% varannan dag och varannan dag konsumerar individen vad den behagar.  Syfte: Syftet med den här litteraturstudien är att sammanställa vilken effekt varannandagsfasta har på kroppsvikt samt olika kardiovaskulära riskfaktorer.  Metod: En systematisk litteraturstudie utfördes där artiklar söktes efter i databasen PubMed med sökordet ”alternate day fasting”.  Resultat: Totalt tio studier inkluderades i litteraturstudien. Samtliga studier gav en signifikant viktnedgång. Triglycerid- och LDL-halten sjönk signifikant i sex utav tio studier. HDL-halterna ökade inte i samband med varannandagsfasta. Totalkolesterolet sjönk signifikant i fem studier. Det systoliska blodtrycket sjönk signifikant i fem utav nio grupper och det diastoliska blodtrycket sjönk i tre grupper.  Slutsats: Varannandagsfasta kan vara en effektiv strategi för bättre hälsa, då varannandagsfasta kan ge viktnedgång och minska riskfaktorer som LDL, triglycerider och totalkolesterol samt att varannandagsfasta möjligen även kan sänka blodtrycket. Mer forskning behövs med längre studietid och större studiepopulationer för att fastställa sambandet mellan varannandagsfasta och kardiovaskulära riskfaktorer. / Background: Obesity and overweight is one of the world’s largest health problems. Obesity and overweight increase the risk of developing different diseases, such as coronary heart diseases. Cardiovascular diseases were the leading cause of death globally in 2016. A moderate weight loss of 5–10% by means of dietary restrictions, has been shown to lower the risk of coronary heart disease. Alternate day fasting is a dietary strategy that restricts the energy intake by 70–100% every other day and every other day the individual is permitted to consume food ad libitum. Aim: The aim of this study is to compile the effects of alternate day fasting on weight loss and cardiovascular risk factors. Method: A systematic literature study was conducted. The literature search was performed in the database PubMed using the term ”alternate day fasting”. Result: In total there were ten studies included in this literature study. A significant weight loss was achieved in all studies. The concentration of triglycerides and LDL-cholesterol decreased significantly in six out of ten studies. Alternate day fasting did not increase HDL-cholesterol. The total cholesterol significantly decreased in five studies. The systolic blood pressure decreased significantly in five out of nine groups and the diastolic blood pressure decreased in three groups.  Conclusion: The findings indicate that alternate day fasting may be an effective strategy to improve health by reducing body weight, LDL-cholesterol, total cholesterol and triglycerides and might possibly lower the blood pressure. Future research with longer study duration and larger sample size is needed to determine the relationship between alternate day fasting and cardiovascular risk factors.

Varannandagsfasta

viktnedgång

kranskärlssjukdom

LDL

HDL

triglycerider

blodtryck

Medical and Health Sciences

Medicin och hälsovetenskap

Genetic Contribution of Variants near SORT1 and APOE on LDL Cholesterol Independent of Obesity in Children

Breitling, Clara

28 February 2020

Objective To assess potential effects of variants in six lipid modulating genes (SORT1, HMGCR, MLXIPL, FADS2, APOE and MAFB) on early development of dyslipidemia independent of the degree of obesity in children, we investigated their association with total (TC), low density lipoprotein (LDL-C), high density lipoprotein (HDL-C) cholesterol and triglyceride (TG) levels in 594 children. Furthermore, we evaluated the expression profile of the candidate genes during human adipocyte differentiation. Results Expression of selected genes increased 101 to >104 fold during human adipocyte differentiation, suggesting a potential link with adipogenesis. In genetic association studies adjusted for age, BMI SDS and sex, we identified significant associations for rs599839 near SORT1 with TC and LDL-C and for rs4420638 near APOE with TC and LDL-C. We performed Bayesian modelling of the combined lipid phenotype of HDL-C, LDL-C and TG to identify potentially causal polygenic effects on this multi-dimensional phenotype and considering obesity, age and sex as a-priori modulating factors. This analysis confirmed that rs599839 and rs4420638 affect LDL-C. Conclusion We show that lipid modulating genes are dynamically regulated during adipogenesis and that variants near SORT1 and APOE influence lipid levels independent of obesity in children. Bayesian modelling suggests causal effects of these variants.

SORT1, APOE, LDL-cholesterol, obesity

info:eu-repo/classification/ddc/610

ddc:610

The impact of Niacin on PCSK9 levels in vervet monkeys (Chlorocebus aethiops)

Ngqaneka, Thobile

January 2020

Magister Pharmaceuticae - MPharm / Cardiovascular diseases (CVDs) such as ischaemic heart diseases, heart failure and stroke remain a major cause of death globally. Various deep-rooted factors influence CVD development; these include but are not limited to elevated blood lipids, high blood pressure, obesity and diabetes. A considerable number of proteins are involved directly and indirectly in the transport, maintenance and elimination of plasma lipids, including high and low-density lipoprotein cholesterol (HDL-C and LDL-C). There are several mechanisms involved in the removal of LDL particles from systemic circulation. One such mechanism is associated with the gene that encodes proprotein convertase subtilisin/kexin type 9 (PCSK9), which has become an exciting therapeutic target for the reduction of residual risk of CVDs. Currently, statins are the mainstay treatment to reduce LDL-C, and a need exists to further develop more effective LDL-C-lowering drugs that might supplement statins.

Atherosclerosis

Cardiovascular disease (CVD)

High-density lipoprotein (HDL)

Lipids

Low-density lipoprotein (LDL)

Partial hepatectomy and liver regeneration in PCSK9 knockout mice

Roubtsova, Anna.

January 2008

No description available.

Mice, Knockout.

Liver Regeneration -- physiology.

Hepatectomy -- methods.

Liver -- metabolism.

Receptors, LDL -- metabolism.

Hepatocytes -- metabolism.

Mice.

Role of Macrophage Apoptosis in Atherosclerosis.

Liu, June

18 December 2004

The presence of apoptotic cells in atherosclerotic lesions has been broadly reported in the past ten years. The majority of these apoptotic cells are macrophages. However, the pathogenic role of macrophage apoptosis in the development of atherosclerosis remains to be elucidated. Elevated expression of Bax, one of the pivotal pro-apoptotic proteins of the Bcl-2 family, has been found in human atherosclerotic plaques. Activation of Bax also occurs in free cholesterol-loaded and oxysterol treated mouse macrophages. In this study, we evaluated the influence of Bax deficiency on apoptosis in macrophage-like P388D1 cells by using small interfering RNA (siRNA) to suppress Bax expression, as well as in peritoneal macrophages isolated from Bax null mice (Bax-/-). Apoptotic activities in both cell types deficient for Bax were significantly reduced compared to that in control cells. To examine the effect of macrophage Bax deficiency on the development of atherosclerosis, fourteen 8-week-old male LDL-receptor null (LDLR-/-) mice were lethally irradiated and reconstituted with either wild type (WT) C57BL6 or Bax-/- bone marrow. Three weeks later, the mice were challenged with a Western diet for 10 weeks. No differences were found in the plasma cholesterol level between the WT and Bax-/- group. However, quantitation of cross sections from proximal aortas revealed a 49.2% increase (P=0.0259) in the mean lesion area of the Bax-/- group compared to the WT group. A 53% decrease in apoptotic macrophages in the Bax-/- group was found by TUNEL staining (P<0.05). In conclusion, Bax deficiency produces a reduction of apoptotic activity in macrophages and is associated with the accelerated atherosclerosis in LDLR null mice fed a Western diet. These results strongly support our hypothesis that macrophage apoptosis suppresses the development of atherosclerosis.

LDL Receptor

oxysterols

Bax

macrophage

atherosclerosis

apoptosis

Medical Sciences

Medicine and Health Sciences

ROLE OF ATP-CITRATE LYASE AND AMP-ACTIVATED PROTEIN KINASE IN REGULATING LIVER LIPID SYNTHESIS

Pinkosky, Stephen

12 1900

Cholesterol and fatty acid homeostasis is maintained by a complex network of regulatory mechanisms that control the biosynthesis and deposition of lipids over diverse physiological conditions. However, these processes can become dysregulated and uncoupled from energy metabolism by metabolic stress such as a hyper-caloric diet and physical inactivity; eventually manifesting as risk factors associated with atherosclerotic cardiovascular disease (ASCVD), Type 2 diabetes (T2D), and/or non-alcoholic fatty liver disease (NAFLD). AMP-activated protein kinase (AMPK) is a sensor of cellular energy status that promotes metabolic homeostasis by mediating effects on multiple cellular processes including cholesterol and fatty acid synthesis biosynthesis. However, the mechanisms linking AMPK to lipid metabolism under normal and pathological conditions, remain undefined. In these studies, we identify a novel nutrient sensing mechanism whereby the coenzyme A (CoA) activated esters of long-chain fatty acids (LCFA-CoA) directly activate AMPK via specific interactions within the β1-regulatory subunit involving a Ser108 residue previously shown only with synthetic activators. We demonstrate the physiological relevance for this mechanism in an acute setting by showing that fatty acid oxidation was attenuated in mice harboring an AMPKβ1-S108A knock-in mutation compared to WT mice. We then demonstrated that β1-selctive AMPK activation is mimicked by the CoA conjugated form of bempedoic acid, a synthetic small molecule lipid synthesis inhibitor in clinical development for lowering elevated levels of low-density lipoprotein cholesterol (LDL-C). The importance of this mechanism was determined by assessing multiple disease outcomes in Ampkβ1-/-/Apoe-/- double knockout (DKO) mice fed a high fat-high cholesterol (HFHC) diet ± bempedoic acid. In these studies, bempedoic acid treatment reduced plasma LDL-C and atherosclerosis in both Apoe-/- and DKO mice, while no differences in disease outcomes was detected between the two genotypes in response to HFHC feeding. Further mechanistic investigations in rodent and primary human hepatocytes, revealed that the CoA conjugate of bempedoic acid suppressed lipid synthesis via competitive inhibition of ATP-citrate lyase (ACL), which promoted LDL receptor upregulation and associated reductions in LDL-C. We then integrate these findings with published literature in a written synthesis aimed to evaluate the role of ACL in metabolism, and its potential utility as a therapeutic target to treat ASCVD and metabolic disorders in humans. Although several questions remain regarding the metabolic role of AMPK activation by LCFA-CoAs, these studies have expanded our understanding of how cells acutely integrate lipid and energy signals to maintain lipid homeostasis, and identified ACL as a promising strategy to treat hypercholesterolemia, ASCVD, and associated metabolic disorders. / Thesis / Doctor of Philosophy (PhD) / The dysregulation of cholesterol and triglyceride metabolism can manifest as risk factors for life-threating diseases such as atherosclerotic cardiovascular diseases (ASCVD), Type-2 diabetes (T2D), and nonalcoholic fatty liver disease (NAFLD). However, the underlying mechanisms controlling lipid homeoastasis in health and disease are not completely understood. ATP-citrate lyase (ACL) and AMP-activated protein kinase (AMPK) are emerging as key nodes in metabolism that integrate lipid metabolism with signals of nutrient availability and cellular energy status, respectively. These strategic positions in metabolism suggest that both these enzymes could play an important role in the underlying pathophysiology of lipid-related diseases, and are therefore, prime candidates for therapeutic intervention. In these studies, we expand our understanding of the role of AMPK in metabolism beyond energy sensing by identifying specific lipid metabolites as direct allosteric activators of kinase activity. We also evaluate the therapeutic utility of targeting both AMPK and ACL in novel models of hypercholesterolemia and metabolic disease, and demonstrate that ACL inhibition offers a promising strategy to address multiple unmet medical needs.

Adsorption av Low Density Lipoprotein (LDL) till modifierade agaros matriser

Khandan, Negin

January 2016

Individer med homozygot familjär hyperkolesterolemi(FH), har höga halter av Low Density Lipoprotein (LDL) vilket leder till ökad risk för kardiovaskulära sjukdomar. Behandling av dessa individer kan göras med extrakorporal elimination av LDL med hjälp av specifika reningskolonner. Syftet med studien var att utvärdera några agarosmodifierade adsorbenter för denna applikation. Adsorbenterna, modifierad polyakrylat (DALI), agaros (Zetaros), direkt sulfateradZetarose och taurin immobiliserad Zetarose, inkuberades med humant plasma spädd med PBS, och en volyms förhållande mellan matris och plasman på 1:5. Inkubering utfördes i rumstemperatur under 60 min med kontinuerlig blandning i rotator. Efter inkubation centrifugerades proverna och LDL bestämdes i såväl supernatant som pellet. Totalmängd adsorberade proteiner analyserades också i eluat från erhållen pellet. LDL bestämdes indirekt med hjälp av Friedewaldsformel (LDL = totalkolesterol (TC) –highdensitylipoprotein (HDL) - (0,45 x Triglycerider(TG)). TC och TG bestämdes enzymatiskt medan HDL kvantifierades som TC efter utfällning av LDL med dextransulfat. Resultaten visar tydligt att DALI har god adsorptionsförmåga.Dock uppvisar de modifierade Zetaroserna begränsad adsorptionskapacitet för LDL. Vid desorption av adsorbenterna visar SDS en bättre elueringsförmåga än NaCl relaterad till protein, vilket tyder hydrofoba proteiner. Metodiken som används i studien är lämplig för vidare studier av andra adsorbenter som förväntas användas i kliniska applikationer för elimination av LDL hos FH patienter. / Individuals that suffer from homozygote Familiar Hyperkolesterolemia (FH), has increased amounts of Low Density Lipoproteins (LDL) which leads to a higher risk of cardiovascular diseases. Treatment of these individuals can be achieved by extracorporeal elimination of LDL using specific columns. The aim of this study was to evaluate different agarose-modified adsorbents ability to adsorb LDL from human plasma. The adsorbents (DALI, Zetarose, sulphonated Zetarose and taurine immobilized onto Zetarose) were incubated for 60 minutes with human plasma diluted with PBS, in a ratio of 1:5 between the matrix and the plasma during rotation with a rotator. After incubation the samples were centrifuged and the LDL content was determined in both the supernatant and the pellet. The amount proteins adsorbed were assayed by eluting the pellets. LDL was determined indirectly using Friedwalds equation; LDL= Total cholesterol (TC) - High density lipoprotein (HDL)-(0,45x Triglycerides (TG). The values of TC and TG in the sample were determined enzymatically, whilst HDL was quantified as TC after LDL-precipitation by dextran sulfate. The results clearly show that DALI has good adsorption capacity, but none of the modified Zetaroses shows any capacity to absorb LDL from human plasma. Desorption of the adsorbents using SDS gave higher amounts of eluated protein compared to NaCl elution, indicating hydrofobic proteins. However, the methods used in this study could be used to evaluate new adsorbents for LDL-elimination applications in patients with chronic hyperlipemia.

Low-density lipoprotein

Apolipoprotein B-100

Familial hypercholesterolemia

LDL apheresis

Cardiovascular diseases

Modified agarose matrices

Low Density Lipoprotein

Apolipoprotein B-100

familjär hyperkolesterolemi

LDL-apheresis

kardiovaskulära sjukdomar

modifierade agaros matriser

Efeitos do LDL oxidado em macrófagos M2. Implicações na aterosclerose. / Effects of oxidized LDL in M2 macrophages. Implications in atherosclerosis

Gonçalves, Fernanda Magalhães

12 September 2017

A aterosclerose é uma doença crônica onde duas características marcantes são observadas: retenção de lipídios e inflamação. Compreender as interações entre as células do sistema imunológico e as lipoproteínas envolvidas na aterogênese são desafios urgentes, uma vez que as doenças cardiovasculares são a principal causa de morte no mundo. Os macrófagos são cruciais para o desenvolvimento de placas ateroscleróticas e para a perpetuação da inflamação em tais lesões; estas células também estão diretamente envolvidas na ruptura de placa instável. Recentemente diferentes populações de macrófagos estão sendo identificadas nas lesões ateroscleróticas. Embora macrófagos M2 tenham sido identificados, a função destas células na aterosclerose ainda não está definida. Neste projeto, avaliamos se a adição de LDLox altera a função de macrófagos M2. Resultados: 1- Foi possível observar que os M2 se mantem viáveis após o estímulo com as lipoproteínas. 2- Quando avaliamos a expressão de moléculas co-estimulatórias, receptores Scavenger, lectinas e integrinas na superfície das células, observamos que a adição de LDLn ou LDLox em 2 concentrações diferentes (5 e 50ug/ml), por diferentes períodos de tempo não alterou a expressão de nenhum dos marcadores avaliados. A presença de LDL também não alterou outra função primordial dos M2, a capacidade de fagocitose. 3- Quando investigamos a presença de citocinas no sobrenadante das culturas estimuladas ou não com as lipoproteínas, identificamos um aumento na secreção de IL-8, uma citocina pró-inflamatória, na presença de LDLox, semelhante ao observado com a população de macrófagos M1. 4- Avaliamos se os macrófagos M2 estimulados ou não com LDL mantem sua capacidade de favorecer a angiogênese. Observamos que nas culturas estimuladas com o sobrenadante das culturas dos M2 mantidos na presença de LDLox houve uma inibição significativa da formação de túbulos pelas HUVECs. 5- Observamos que na presença do meio condicionado dos M2 estimulados com LDLox ocorreu uma intensa degradação dos filamentos de matriz extracelular produzida por MEFs. 6- Avaliamos a expressão gênica de componentes de matriz, membrana basal, moléculas de adesão, proteases e também inibidores de protease nestas células. Dos 96 genes avaliados, observamos que a adição de LDLox reduziu a expressão de 10 genes de maneira significativa, entre eles: beta-Actina (ACTB), Colágeno 6A2 (Col6A2), Integrina alfa 6 (ITGA6), Metaloproteinase 15 (MMP15), molécula de adesão celular endotelial plaquetária (PECAM) e Inibidor de metalopeptidase 2 (TIMP2). A adição de LDLox aumentou significativamente somente a expressão de trombospondina (TSP1). A adição de LDLn não alterou a expressão de nenhum gene de forma significativa. 7- A adição de LDLox induziu aumento da expressão da TSP1 e redução da expressão de colágeno 6, quando comparadas aos macrófagos M2 sem estímulo. Nossos resultados indicam que a adição de LDLox altera diversas funções dos macrófagos M2 in vitro. Em especial detectamos uma inibição significativa na angiogênese e também a secreção de mediadores que induzem a degradação da matriz extracelular. A adição de LDLox também inibiu a expressão de genes envolvidos com a estabilização da matriz extracelular. Nossos resultados sugerem que esta população de células pode contribuir para a perpetuação do processo inflamatório e degradação tecidual observados na lesão dos pacientes. Assim, acreditamos que este projeto contribuiu para o esclarecimento da participação dos M2 na patologia da aterosclerose / Atherosclerosis is a chronic disease where two key characteristics are observed: lipid retention and inflammation. Understanding the interactions between the cells of the immune system and the lipoproteins involved in atherogenesis are urgent challenges, since cardiovascular diseases are the leading cause of death in the world. Macrophages are crucial for the development of atherosclerotic plaques and for the inflammation in such lesions; These cells are also directly involved in unstable plaque rupture. Recently different populations of macrophages are being identified in atherosclerotic lesions. Although M2 macrophages has been identified, the function of these cells in atherosclerosis has not yet been defined. This project, we evaluated whether the addition of OxLDL alters the function of M2 macrophages. Results: 1- M2 macrophages remain viable after stimulation with the lipoproteins. 2- When evaluated the expression of co-stimulatory molecules, Scavenger receptors, lectins and integrins on the surface of the cells. We observed that the addition of LDLn or OxLDL at 2 different concentrations (5 and 50 ?g / ml) for different time periods did not alter the expression of any of the evaluated markers. 3- The presence of LDL also did not alter other primordial function of M2 cells, phagocytosis. 4- Was observed that cultures stimulated with conditioned medium of OxLDL-stimulated M2 there was a significant inhibition of tubule formation by HUVECs. 5- We observed that in the presence of OxLDL-stimulated M2 cells conditioned médium an intense degradation of the matrix filaments occurred. 6- We evaluated the gene expression of matrix components, basement membrane, adhesion molecules, proteases and also protease inhibitors in these cells. Of the 96 evaluated genes, we observed that the addition of OxLDL significantly reduced the expression of 10 genes, among them: Actin-beta (ACTB), Collagen 6A2 (Col6A2), Integrin alfa 6 (ITGA6), Metaloproteinase 15 (MMP15), Platelet endothelial cell adhesion molecule (PECAM) and metallopeptidase 2 inhibitor (TIMP2). The addition of OxLDL significantly increased only the expression, thrombospondin-1 (TSP1). Addition of LDLn did not significantly alter the expression of any gene. 7- That OxLDL addition induced increased TSP1 expression and reduced collagen 6 expression, when compared to M2 macrophages without stimulation. Our results indicate that the addition of OxLDL alters several M2 macrophages functions in vitro. In particular we detected a significant inhibition in angiogenesis and also the secretion of mediators that induce the degradation of the extracellular matrix. The addition of OxLDL also inhibited the expression of genes involved in extracellular matrix stabilization. Our results suggest that this cell population may contribute to the perpetuation of the inflammatory process and tissue degradation observed in the lesion of the patients. Thus, we believe that this project contributed to better understand the participation of M2 in the pathology of atherosclerosis

Aterosclerose

Atherosclerosis

Colágeno tipo VI

Collagen type VI

Extracellular matrix

Lipoproteína de baixa densidade oxidada

Lipoproteínas LDL

Lipoproteins LDL

M2

M2

Macrófagos

Macrophages

Matriz extracelular

Oxidized low density lipoprotein

Thrombospondin 1

Trombospondina 1