Long-term effects of the cholesterol level and its drug treatment

Hyttinen, L. (Laura)

06 December 2011

Abstract Increased plasma cholesterol is a well-known risk factor for cardiovascular diseases in middle and early old age. At older ages, this association seems to disappear. Very few studies have assessed the impact of the lifelong cholesterol burden on old age, the purpose of this thesis. Study populations consisted of 1) old persons with familial hypercholesterolemia (FH), a genetic disorder associated with an increased risk of coronary heart disease (CHD) if untreated, and 2) initially healthy men (The Helsinki Businessmen Study, HBS) followed-up from midlife to old age. A population-based FH cohort, aged ≥ 65 years (n=37, aged 65 to 84 years) agreed to participate in this study. All but one of them had been using statin therapy for approx. 15 years. Variables studied were: health-related quality of life (HRQoL) with questionnaires (RAND-36, 15D), a brain magnetic resonance imaging (MRI) scan and cognitive tests (CERAD). These older FH patients enjoyed a similar HRQoL as controls in the general population. Only two (6%) of the older FH patients had clinically silent brain infarcts detected by MRI and those aged 65 to 74 years did not have more white matter hyperintensities (WMHIs) when compared to middle-aged controls. In the cognitive assessments, FH patients, especially those with duration of statin therapy longer than median, even expressed better episodic memory than population controls. HBS consists of a cohort of men (3277 men) who at baseline (1964–1973) were healthy and in their 40s. They were subdivided into seven groups according to baseline total cholesterol value at 1 mmol/L intervals starting from ≤  4 mmol/L. In 2000, at a mean age of 73 years, they filled a postal questionnaire including RAND-36. Cumulative mortality data were collected up to January 2010. A strong and graded relation was found between the cholesterol level and total mortality, those men with a cholesterol level ≤  4 mmol/L exhibiting the lowest mortality. A low cholesterol value at midlife also predicted a better score in the Physical functioning scale of RAND-36 in old age. In conclusion, in initially healthy men, a low cholesterol value at midlife was associated with better survival and better physical function in old age. Despite their genetic risk, FH patients on long-term statin medication seemed to enjoy a health and cognitive status similar to the general population. / Tiivistelmä Suurentunut plasman kolesterolipitoisuus on tunnettu valtimotautien riskitekijä keski-iässä, mutta vanhuusiässä kolesterolin merkitys näyttää vähentyvän. Hyvin harvassa tutkimuksessa on tutkittu elämänaikaisen kolesterolitason vaikutuksia vanhuusiän terveydentilaan, kuten tässä väitöskirjatyössä. Tutkimuskohteina olivat 1) iäkkäät, joilla on familiaalinen hyperkolesterolemia (FH) eli perinnöllinen sairaus, johon hoitamattomana liittyy lisääntynyt sepelvaltimotaudin riski, sekä 2) alun perin terveet miehet (Helsingin Johtajatutkimus), joita seurattiin keski-iästä vanhuuteen. Väestöpohjainen, 65 vuotta täyttänyt (65–84 vuotta, 37 henkilöä) FH-potilaiden ryhmä oli yhtä lukuun ottamatta käyttänyt keskimäärin 15 vuoden ajan statiinilääkitystä. Heille tehtiin seuraavat tutkimukset: terveyteen liittyvän elämänlaadun kyselyt (RAND-36- ja15D-mittarit), aivojen magneettitutkimus (MRI) ja kognitiota tutkivat testit (CERAD). FH-potilaiden elämänlaatu ei eronnut väestöverrokeista. Aivojen MRI tutkimuksessa vain kahdella (6 %) FH-potilaalla oli todettavissa kliinisesti hiljainen aivoinfarkti ja 65–74-vuotiailla FH-potilailla ei ollut enempää valkean aineen muutoksia kuin keski-ikäisillä verrokeilla. Kognitiotutkimuksissa FH-potilailla oli parempi episodinen muisti kuin väestöverrokeilla, etenkin niillä FH-potilailla, joiden statiinihoidon kesto oli mediaania pidempi. Helsingin Johtajatutkimukseen kuului alun perin 3 277 lähtötilanteessa (1964–1973) tervettä keski-ikäistä miestä. Heidät jaettiin lähtövaiheen kolesterolitason perusteella seitsemään ryhmään yhden millimoolin välein siten, että alin ryhmä oli alle 4 mmol/l. Vuonna 2000 (keski-ikä 73 vuotta) lähetettiin postikysely, johon kuului myös RAND-36. Kokonaiskuolleisuutta seurattiin tammikuuhun 2010 asti. Kokonaiskuolleisuuden ja keski-iän kokonaiskolesterolin välillä oli vahva ja asteittainen suhde siten, että niillä miehillä oli pienin kuolleisuus, joilla oli alin kolesteroli (alle 4 mmol/l). Pienin kolesterolipitoisuus keski-iässä oli myös yhteydessä RAND-36-mittarin Fyysinen toimintakyky -osion parempaan pistemäärään. Yhteenveto: Alun perin terveillä miehillä pieni kolesterolipitoisuus keski-iässä ennusti pitempää elämää ja myös parempaa fyysisistä toimintakykyä vanhalla iällä. Huolimatta perinnöllisestä riskistä oli pitkäaikaista statiinilääkitystä käyttäneiden FH-potilaiden terveydentila muuta väestöä vastaava.

brain infarction

cholesterol

cholesterol LDL

hypercholesterolemia

hyperlipoproteinemia type II

magnetic resonance imaging

quality of life

LDL-kolesteroli

aivoinfarkti

elämänlaatu

hyperkolesterolemia

kolesteroli

magneettikuvaus

tyypin II hyperlipoproteinemia

Programa de seguimento de coorte de pacientes com hipercolesterolemia familiar na região metropolitana de São Paulo / Program of follow-up of cohort of patients with familial hypercholesterolemia in the metropolitan region of São Paulo

Pãmela Rodrigues de Souza Silva

08 February 2018

Introdução: A Hipercolesterolemia Familiar (HF) é uma doença genética caracterizada clinicamente por elevados níveis de lipoproteína de baixa densidade (LDL-C) na corrente sanguínea desde a infância. Indivíduos que apresentam HF podem desenvolver doença aterosclerótica ainda em idade jovem. Os principais preditores de risco no desenvolvimento da doença cardiovascular (DCV) nesses indivíduos após entrarem em um programa de rastreamento genético não são conhecidos na nossa população. Além disso, a HF é subdiagnosticada e subtratada mundialmente e o rastreamento genético em cascata dos familiares tem sido mundialmente avaliado como o método diagnóstico mais custo. Contudo, a efetividade do rastreamento genético em cascata é dependente dos critérios clínicos de entrada do primeiro indivíduo da família e não há um consenso de qual critério apresenta a melhor acurácia para detecção de uma mutação. Objetivos: Identificar os fatores determinantes para ocorrência de eventos cardiovasculares (CV) em todos os indivíduos da coorte e avaliar o critério clínico para detecção de uma variante genética patogênica para HF, no primeiro indivíduo da família, após serem inseridos em um programa de rastreamento genético em cascata.Métodos: Estudo de coorte prospectiva aberta dos pacientes que foram inseridos no programa de rastreamento genético em cascata para HF. A população do estudo é definida como caso índice (CI), o primeiro da família a ser identificado clinicamente e encaminhado para o teste genético, e os familiares, que são os parentes de 1º grau do CI em que foi encontrada uma alteração genética. Todos os indivíduos são inseridos na coorte no momento em que recebem o laudo genético (tempo zero, T0). Um ano depois do T0 é realizado o primeiro contato telefônico, ou seja, primeiro ano de seguimento (T1) Resultados: No T1, o total de 818 indivíduos foi incluído, sendo verificados 47 eventos CV, sendo 14 (29,7%) fatais. Para o CI, o único fator independente associado ao aumento do risco de eventos CV no T1 foi a presença de arco corneano (OR: 9,39; IC 95%: 2,46-35,82). Para os familiares com uma mutação positiva os fatores associados ao aumento do risco de eventos CV foram diabetes mellitus (OR: 7,97; IC 95%: 2,07-30,66) e consumo de tabaco (OR: 3,70; IC 95%: 1,09-12,50). Na análise do melhor critério clínico para detecção de uma mutação patogênica no CI os valores de LDL-C >= 230 mg/dL tiveram a melhor relação entre sensibilidade e especificidade. Na análise da curva ROC o escore Dutch Lipid Clinic Network (DLCN) apresentou melhor desempenho do que o LDL-C para identificar uma mutação, a área sob a curva ROC foi 0,744 (IC 95%: 0,704-0,784) e 0,730 (IC 95%: 0,687-0,774), respectivamente, p = 0, 014. Conclusão: Em um ano de seguimento essa coorte identificou uma alta incidência de eventos CV após a entrada em um programa de rastreamento genético em cascata e os preditores dos eventos CV diferem entre CI e familiares. Esses resultados podem contribuir para o desenvolvimento de ações preventivas nesse grupo altamente susceptível de indivíduos. Além disso, devido a importância da detecção da mutação para um diagnóstico definitivo de HF e a importância da cascata ser custo efetiva o estudo identificou que o critério único do LDL-C >= 230 mg/dl é viável para indicar o CI para o teste genético / Introduction: Familial Hypercholesterolemia (FH) is a genetic disease characterized clinically by high levels of low density lipoprotein (LDL-C) in the bloodstream since childhood. Individuals with FH can develop atherosclerotic disease at a young age. The main predictors of cardiovascular disease (CVD) risk in these individuals after entering a genetic screening program are not known in our population. In addition, FH is underdiagnosed and undertreated worldwide and cascaded genetic screening of family members has been evaluated globally as the most cost effective for the diagnosis of FH. However, the effectiveness of cascading genetic screening is dependent on the clinical entry criteria of the first individual in the family and there is no consensus as to which criterion shows the best accuracy for detecting a mutation. Objectives: To identify the determinant factors for cardiovascular (CV) events in all individuals in the cohort and to evaluate the clinical criteria for detecting a genetic variant pathogenic to FH in the first individual of the family after being inserted into a genetic screening program in cascade. Methods: Open prospective cohort study of patients who were enrolled in the cascade genetic screening program for FH. The study population is defined as index case (IC), the first of the family to be clinically identified and referred to the genetic test, and relatives, who are the first-degree relatives of the IC in which a genetic alteration was found. All individuals are inserted into the cohort at the moment they receive the genetic report (time zero, T0). The first follow-up telephone contact is made one year after T0 (first year of follow-up, T1). Results: In T1, a total of 818 subjects were included, and 47 CV events were verified, of which 14 (29.7%) were fatal. For IC, the only factor independently associated with the increased risk of CV events in T1 was the presence of a corneal arch (OR: 9.39; 95% CI: 2.46-35.82). For relatives with positive mutation, factors associated with increased risk of CV events were diabetes mellitus (OR: 7.97; 95% CI: 2.07-30.66) and tobacco consumption (OR: 3.70; 95% CI: 1.09-12.50). In the analysis of the best clinical criteria for the detection of a pathogenic mutation in the IC, the LDL-C values >= 230 mg/dL had the best relationship between sensitivity and specificity. In the ROC curve analysis, the Dutch Lipid Clinic Network (DLCN) score performed better than LDL-C to identify a mutation, the area under the ROC curve was 0.744 (95% CI: 0.704-0.784) and 0.730 (CI 95 %: 0.687-0.774), respectively, p = 0.014. Conclusion: At one year follow-up this cohort identified a high incidence of CV events following entry into a cascade genetic screening program and the predictors of CV events differ between IC and family members. These results may contribute to the development of preventive actions in this group highly susceptible to individuals. In addition, because of the importance of detecting the mutation for a definitive diagnosis of HF and the importance of the cascade being cost effective, the study identified that the single LDL-C criterion >= 230 mg / dl is feasible to indicate IC for the genetic test

Caso índice

Doença genética

Doenças cardiovasculares

Hipercolesterolemia familiar

Lipoproteína de baixa densidade

Programa de rastreamento

Cardiovascular diseases

Familial hypercholesterolemia

Genetic disease

Index case

Low density lipoprotein

Mass screening

Četnost vybraných genetických polymorfismů cytochromu P450 v české populaci a vliv genotypu CYP2C9 na hypolipidemické působení fluvastatinu / Frequency of selected genetic polymorphisms of cytochrome P450 in the Czech population and the influence of CYP2C9 genotype on the hypolipidemic effect of fluvastatin

Buzková, Helena

January 2012

55 Abstract Frequency of selected genetic polymorphisms of cytochrome P450 in the Czech population and the influence of CYP2C9 genotype on the hypolipidemic effect of fluvastatin Introduction: One of the main factors of genetically determined variability in response of humans to administered drugs are differences in catalytic activity of metabolizing enzymes, which are caused mainly by genetic polymorphisms in cytochrom P450 family enzymes. This thesis consists of two parts and it is presented as a commentary to the original papers. The first aim was to investigate the frequency of functionally important variant alleles of three main isoenzymes of cytochrome P450 gene: CYP2D6, CYP2C9, CYP2C19, throughout the Czech population, predict the prevalence of poor metabolizer phenotypes, and then to compare the results to the data from other populations. Secondly, we analysed the correlation between the CYP2C9 genotype and cholesterol-lowering effect of fluvastatin in human hypercholesterolemic patients. Methods: Genotypes were determined by PCR-RFLP. The presence of alleles CYP2D6*1, *6, *5, *4, *3, and gene duplication was analysed in 233 healthy volunteers, CYP2C9*1, *2 and*3 in 254 subjects and CYP2C19*1, *2 and *2 in 218 subjects. Eighty seven patients on fluvastatin therapy, and 48 patients on monotherapy...

Development of Inhibitors of Human PCSK9 as Potential Regulators of LDL-Receptor and Cholesterol

Alghamdi, Rasha Hassen

January 2014

Proprotein Convertase Subtilisin/Kexin 9 (PCSK9) is the ninth member of the Ca+2-dependent mammalian proprotein convertase super family of serine endoproteases that is structurally related to the bacterial subtilisin and yeast kexin enzymes. It plays a critical role in the regulation of lipid metabolism and cholesterol homeostasis by binding to and degrading low-density lipoprotein-receptor (LDL-R) which is responsible for the clearance of circulatory LDL-cholesterol from the blood. Owing to this functional property, there is plenty of research interest in the development of functional inhibitors of PCSK9 which may find important biochemical applications as therapeutic agents for lowering plasma LDL-cholesterol. The catalytic domain of PCSK9 binds to the EGF-A domain of LDL-R on the cell surface to form a stable complex and re-routes the receptor from its normal endosomal recycling pathway to the lysosomal compartments leading to its degradation. Owing to these findings, we propose that selected peptides from PCSK9 catalytic domain, particularly its disulphide (S-S) bridged loop1 323-358 and loop2 365-385, are likely to exhibit strong affinity towards the EGF-A domain of LDL-R. Several regular peptides along with corresponding all- dextro and retro-inverse peptides as well as the gain-of-function mutant variants were designed and tested for their regulatory effects towards LDL-R expression and PCSK9-binding in human hepatic HepG2 and mouse hepatic Hepa1c1c7 cells. Our data indicated that disulfide bridged loop1-hPCSK9323-358 and its H357 mutant as well as two short loop2-hPCSK9372-380 and its Y374 mutant peptides modestly promote the LDL-R protein levels. Our study concludes that specific peptides from the PCSK9 catalytic domain can regulate LDL-R and may be useful for development of novel class of therapeutic agents for cholesterol regulation.

Proprotein Convertase Subtilisin/Kexin 9

PCSK9

Low Density Lipoprotein Receptor

LDL-R

Low Density Lipoprotein Cholesterol

LDL-C

Cardiovascular Disease

CVD

Autosomal Dominant Hypercholesterolemia

ADH

Catalytic Domain

Inhibitors

Peptides Design

LDL-R Degradation

Epidermal Growth Factor like repeat A

EGF-A

Familial Hypercholesterolemia

FH

Gain-of-Function Mutations

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

Étude du trafic cellulaire de la convertase de proprotéine PCSK9 responsable de la dégradation du récepteur des lipoprotéines de faible densité (LDLR)

Ait Hamouda, Hocine

06 1900

Les maladies cardiovasculaires (MCV) sont la principale cause de mortalité dans les pays industrialisés. L'hypercholestérolémie constitue un facteur de risque majeur pour les MCV. Elle est caractérisée par des niveaux élevés de lipoprotéines de faible densité (LDL, aussi appelé “mauvais cholestérol”). La présence prolongée de haut niveaux de LDL dans la circulation augmente le risque de formation de plaques athérosclérotiques, ce qui peut conduire à l'obstruction des artères et l'infarctus du myocarde. Le LDL est normalement extrait du sang par sa liaison au récepteur du LDL (LDLR) qui est responsable de son endocytose dans les hépatocytes. Des études génétiques humaines ont identifié PCSK9 (proprotein convertase subtilisin/kexin type 9) comme le troisième locus responsable de l'hypercholestérolémie autosomique dominante après le LDLR et son ligand l’apolipoprotéine B-100. PCSK9 interagit avec le LDLR et induit sa dégradation, augmentant ainsi les niveaux plasmatiques de LDL. Les mutations gain de fonction (GF) de PCSK9 sont associées à des niveaux plasmatiques élevés de LDL et à l'apparition précoce des MCV, alors que les mutations perte de fonction (PF) de PCSK9 diminuent le risque de MCV jusqu’à ~ 88% grâce à une réduction du LDL circulant. De ce fait, PCSK9 constitue une cible pharmacologique importante pour réduire le risque de MCV. PCSK9 lie le LDLR à la surface cellulaire et/ou dans l'appareil de Golgi des hépatocytes et provoque sa dégradation dans les lysosomes par un mécanisme encore mal compris. Le but de cette étude est de déterminer pourquoi certaines mutations humaines de PCSK9 sont incapables de dégrader le LDLR tandis que d'autres augmentent sa dégradation dans les lysosomes. Plusieurs mutations GF et PF de PCSK9 ont été fusionnées à la protéine fluorecente mCherry dans le but d'étudier leur mobilité moléculaire dans les cellules hépatiques vivantes. Nos analyses quantitatives de recouvrement de fluorescence après photoblanchiment (FRAP) ont montré que les mutations GF (S127R et D129G) avaient une mobilité protéique plus élevée (> 35% par rapport au WT) dans le réseau trans- Golgien. En outre, nos analyses quantitatives de recouvrement de fluorescence inverse après photoblanchiment (iFRAP) ont montré que les mutations PF de PCSK9 (R46L) avaient une mobilité protéique plus lente (<22% par rapport au WT) et une fraction mobile beaucoup plus petite (<40% par rapport au WT). Par ailleurs, nos analyses de microscopie confocale et électronique démontrent pour la toute première fois que PCSK9 est localisée et concentrée dans le TGN des hépatocytes humains via son domaine Cterminal (CHRD) qui est essentiel à la dégradation du LDLR. De plus, nos analyses sur des cellules vivantes démontrent pour la première fois que le CHRD n'est pas nécessaire à l'internalisation de PCSK9. Ces résultats apportent de nouveaux éléments importants sur le mécanisme d'action de PCSK9 et pourront contribuer ultimement au développement d'inhibiteurs de la dégradation du LDLR induite par PCSK9. / Coronary heart diseases (CHD) are a leading cause of death in Western societies. Hypercholesterolemia is a major risk factor for CHD. It is characterized by high levels of circulating low-density lipoprotein cholesterol (LDL, also called "bad cholesterol"). The prolonged presence of elevated levels of LDL in the circulation increases the risk of formation of atherosclerotic plaques, which can lead to obstruction of arteries and myocardial infarction. LDL is normally cleared from the blood through the binding of its sole protein constituent apolipoprotein B100 to hepatic LDL receptor (LDLR), which mediates its endocytosis in the liver. Human genetic studies have identified PCSK9 as the third gene responsible of autosomal dominant hypercholesterolemia after LDLR and its ligand apolipoprotein B100. PCSK9 interacts with the LDLR and induces its degradation thereby causing plasma LDL levels to rise. PCSK9 gain-of-function (GOF) mutations are associated with elevated plasma LDL levels and premature CHD while PCSK9 loss-offunction (LOF) mutations reduce the risk of CHD up to ~88% owing to reduction of circulating LDL. Accordingly, PCSK9 is recognized as a major pharmacological target to lower the risk of CHD. PCSK9 binds the LDLR at the cell surface and/or in the Golgi apparatus of hepatocytes and causes its degradation in lysosomes by a mechanism not yet clearly understood. The goal of this study was to determine why some human PCSK9 mutations fail to induce LDLR degradation while others increase it in lysosomes. Several PCSK9 LOF and GOF mutations were fused to the fluorescent protein mCherry to study their molecular mobility in living human liver cells. Our quantitative analysis of fluorescence recovery after photobleaching (FRAP) showed that PCSK9 GOF mutations S127R and D129G have a higher protein mobility (>35% compared to WT) at the trans- Golgi network (TGN). Our quantitative analysis of inverse fluorescence recovery after photobleaching (iFRAP) showed that PCSK9 LOF mutation R46L presented a much slower protein mobility (<22% compared to WT) and a much slower mobile fraction (<40% compared to WT). In addition, our confocal and electron microscopy analyses demonstrate for the first time that PCSK9 is localized and concentrated at the TGN of human hepatocytes. Furthermore, our results demonstrate that PCSK9 localization in the TGN is mediated through its C-terminal cysteine and histidine-rich domain (CHRD), which is essential for LDLR degradation. Also, our live-cell analyses demonstrate for the first time that the CHRD is not required for internalization of PCSK9. These results provide important new information on the mechanism of action of PCSK9 and may ultimately help in the development of inhibitors of the PCSK9-induced LDLR degradation.

PCSK9

Dégradation du LDLR

CHRD

Endocytose

Trafic cellulaire

Réseau trans-Golgien (TGN)

Hypercholestérolémie

FRAP

iFRAP

LDLR degradation

Endocytosis

Cellular trafficking

Trans Golgi Network (TGN)

Hypercholesterolemia

Live-cell confocal microscopy

Proprotein convertase subtilisin/kexin type 9 in human disease

Awan, Zuhier

02 1900

Les maladies cardiovasculaires (MCV) demeurent au tournant de ce siècle la principale cause de mortalité dans le monde. Parmi les facteurs de risque, l’hypercholestérolémie et l’obésité abdominale sont directement liées au développement précoce de l’athérosclérose. L’hypercholestérolémie familiale, communément associée à une déficience des récepteurs des lipoprotéines de basse densité (LDLR), est connue comme cause de maladie précoce d’athérosclérose et de calcification aortique chez l’humain. La subtilisine convertase proprotéine/kexine du type 9 (PCSK9), membre de la famille des proprotéines convertases, est trouvée indirectement associée aux MCV par son implication dans la dégradation du LDLR. Chez l'humain, des mutations du gène PCSK9 conduisent soit à une hypercholestérolémie familiale, soit à une hypocholestérolémie, selon que la mutation entraîne un gain ou une perte de fonction, respectivement. Il demeure incertain si les individus porteurs de mutations causant un gain de fonction de la PCSK9 développeront une calcification aortique ou si des mutations entraînant une perte de fonction provoqueront une obésité abdominale. Dans cette étude, nous avons examiné : 1) l’effet d’une surexpression de PCSK9 dans le foie de souris sur la calcification aortique ; 2) les conséquences d’une déficience en PCSK9 (Pcsk9 KO), mimant une inhibition pharmacologique, sur le tissu graisseux. Nous avons utilisé un modèle de souris transgénique (Tg) surexprimant le cDNA de PCSK9 de souris dans les hépatocytes de souris et démontrons par tomographie calculée qu’une calcification survient de façon moins étendue chez les souris PCSK9 Tg que chez les souris déficientes en LDLR. Alors que le PCSK9 Tg et la déficience en LDLR causaient tous deux une hypercholestérolémie familiale, les niveaux seuls de cholestérol circulant ne parvenaient pas à prédire le degré de calcification aortique. Dans une seconde étude, nous utilisions des souris génétiquement manipulées dépourvues de PSCK9 et démontrons que l’accumulation de graisses viscérales (adipogenèse) apparaît régulée par la PCSK9 circulante. Ainsi, en l’absence de PCSK9, l’adipogenèse viscérale augmente vraisemblablement par régulation post-traductionnelle des récepteurs à lipoprotéines de très basse densité (VLDLR) dans le tissu adipeux. Ces deux modèles mettent en évidence un équilibre dynamique de la PCSK9 dans des voies métaboliques différentes, réalisant un élément clé dans la santé cardiovasculaire. Par conséquent, les essais d’investigations et d’altérations biologiques de la PCSK9 devraient être pris en compte dans un modèle animal valide utilisant une méthode sensible et en portant une attention prudente aux effets secondaires de toute intervention. / Cardiovascular disease (CVD) is the leading cause of death in the 21st century. Among risk factors, hypercholesterolemia and abdominal obesity are directly linked to premature development of atherosclerosis. Familial hypercholesterolemia, commonly due to low-density lipoprotein receptor (LDLR) deficiency, is known to cause premature atherosclerosis and aortic calcification in humans. Proprotein convertase subtilisin/kexin 9 (PCSK9), a member of the proprotein convertase family, is indirectly associated with CVD through enhanced LDLR degradation. Mutations in the human PCSK9 gene lead to either familial hypercholesterolemia or hypocholesterolemia, depending on whether the mutation causes a gain or a loss of function, respectively. It is uncertain if individuals carrying mutations causing a gain-of-function of PCSK9 will develop aortic calcification or whether loss-of-function mutations will lead to abdominal obesity. In this thesis, we investigated: 1) the effect of PCSK9 overexpression on aortic calcification; 2) the consequences of PSCK9 deficiency, mimicking pharmacological inhibition of PCSK9 on fat tissue. We employed a transgenic (Tg) mouse model overexpressing mouse PCSK9 and illustrated by micro-computerized tomography that calcification occurs to a lesser extent in PCSK9 Tg mice than in LDLR-deficient mice. While both PCSK9 Tg and LDLR deficiency caused familial hypercholesterolemia, circulating cholesterol levels alone could not dictate the degree of aortic calcification. In another study, we used genetically modified mice lacking PCSK9 and demonstrated that visceral fat accumulation (adipogenesis) is regulated by circulating PCSK9. Thus in the absence of PCSK9, visceral adipogenesis increases likely via post-translational regulation of very-low-density lipoproteins receptors (VLDLR) in the adipose tissue. In conclusion, these two studies highlight the dynamic balance of PCSK9 in different metabolic pathways, making it a key element in cardiovascular health. Consequently, attempts to survey and/or alter PCSK9 biology should be performed in a valid animal model using sensitive methods and with careful attention to side effects of any given intervention.

Proprotein convertase subtilisin/kexin 9

Low-density lipoprotein receptor

Familial hypercholesterolemia

Aortic calcification

Fat metabolism

Hypercholestérolémie familiale

Calcification aortique

Métabolisme des graisses

Carence en œstrogènes et bases moléculaires du métabolisme des triglycérides et du cholestérol dans le foie et l'intestin : effet de l'exercice physique

Ngo Sock, Emilienne Tudor

12 1900

La stéatose hépatique et la détérioration du profil lipidique plasmatique sont des pathologies métaboliques favorisées par la carence œstrogénique post-ménopausique. Cependant les mécanismes à la base de ces pathologies n’ont été que très peu étudiés. Le but de cette thèse a été d’investiguer les mécanismes moléculaires possibles à l’origine de l’hypercholestérolémie et de l’accumulation des lipides (triglycérides : TG et cholestérol) dans le foie en utilisant un modèle animal de la ménopause, la rate Sprague Dawley ovariectomisée (Ovx). Nous avons également examiné si le changement des habitudes de vie comme la pratique de l’exercice physique pouvait prévenir ou corriger les modifications induites par l’Ovx. Enfin, rosuvastatine (statine) a été utilisée comme thérapie pharmacologique de l’hypercholestérolémie dans le but de comprendre son effet au niveau moléculaire chez la rate Ovx. L’objectif de la première étude était de déterminer comment l’Ovx peut affecter les niveaux de TG et de cholestérol dans le foie des rates nourries avec une diète riche en lipides (HF : 42% gras). Les rates ont été soumises à la diète HF ou normale pendant 6 semaines avant d’être Ovx ou Sham (ovariectomie simulée), puis maintenues aux mêmes conditions diététiques pour 6 autres semaines. L’Ovx a provoqué une accumulation de TG dans le foie, mais pas la diète HF seule. Cependant, lorsque l’Ovx était combinée à la diète HF, l’accumulation des TG était beaucoup plus importante comparé à ce qui était observé chez les rates Ovx soumises à la diète normale. L’expression génique (ARNm) de CPT1 (Carnitine palmitoyltransferase 1), PGC1α (Peroxisome proliferator-activated receptor gamma, coactivator 1) et PPARα (Peroxysome proliferetor activated receptor alpha) intervenant dans l’oxydation des acides gras dans le foie était augmentée par la diète HF (p ˂ 0.001; p ˂ 0.01; p ˂ 0.05 respectivement) ; mais atténuée (p ˂ 0.05; p ˂ 0.05; p ˂ 0.07 respectivement) lorsque les rates ont été Ovx, favorisant ainsi l’accumulation des TG dans le foie. La combinaison de la diète HF à l’Ovx a également provoqué une hypercholestérolémie et une accumulation de cholestérol dans le foie malgré la diminution de l’expression de la HMGCoA-r (3-hydroxy-3-methylglutaryl-CoA reductase), enzyme clé de la synthèse du cholestérol. Ceci était associé à l’inhibition de l’expression génique de CYP7a1 (Cytochrome P450, family 7, subfamily a, polypeptide 1), suggérant une diminution de la synthèse des acides biliaires. Ayant constaté dans la première étude que l’Ovx élevait les niveaux de cholestérol hépatique et plasmatique, nous nous sommes fixés comme objectif dans la deuxième étude d’évaluer les effets de l’Ovx sur l’expression génique des transporteurs et enzymes responsables du métabolisme du cholestérol et des acides biliaires dans le foie et l’intestin, et de vérifier si l’exercice sur tapis roulant pouvait prévenir ou corriger les changements causés par l’Ovx. L’hypercholestérolémie constatée chez les rates Ovx comparativement aux Sham était accompagnée de la diminution de l’expression génique des récepteurs des LDL (R-LDL), des résidus de lipoprotéines (LRP1), de SREBP-2 (Sterol regulatory element binding protein 2) et de PCSK9 (Proprotein convertase subtilisin/kexin type 9) dans le foie, suggérant une défaillance dans la clairance des lipoprotéines plasmatiques. L’Ovx a aussi inhibé l’expression génique de la MTP (Microsomal triglyceride transfer protein) et stimulé celle de SR-B1 (Scavenger receptor class B, member 1); mais aucun changement n’a été observé avec CYP7a1. Ces changements moléculaires pourraient par conséquent favoriser l’accumulation de cholestérol dans le foie. L’exercice physique n’a pas corrigé les modifications causées par l’Ovx sur l’expression génique de ces molécules au niveau hépatique à l’exception de SREBP-2. Par contre, au niveau intestinal (iléum), l’exercice sur tapis roulant a inhibé l’expression génique des marqueurs moléculaires intervenant dans l’absorption des acides biliaires (OSTα/β, FXR, RXRα, Fgf15) et du cholestérol (LXRα, NCP1L1) au niveau de l’iléum chez les rates Sham entraînées. Ces adaptations pourraient prévenir le développement de l’hypercholestérolémie protégeant en partie contre la survenue de l’athérosclérose. Au vue des effets délétères (hypercholestérolémie et diminution de l’expression du R-LDL, PCSK9, LRP1, SREBP-2 et HMGCOA-r dans le foie) causés par l’Ovx sur le métabolisme du cholestérol constatés dans l’étude 2, la 3ième étude a été conçue pour évaluer l’efficacité de rosuvastatine (Ros) sur l’expression génique de ces marqueurs moléculaires chez les rates Ovx sédentaires ou soumises à l’entraînement volontaire. Ros a été administrée aux rates Ovx pendant 21 jours par voie sous-cutanée à la dose de 5mg/kg/j à partir de la 9ième semaine après l’Ovx. Ros n’a pas diminué la concentration plasmatique de LDL-C et de TC chez les rates Ovx. Par contre, Ros a stimulé (P ˂ 0.05) l’expression génique de PCSK9, SREBP-2, LRP1, HMGCoA-r et ACAT2 (Acyl-CoA cholesterol acyltransferase) mais pas significativement (P = 0.3) celle du R-LDL dans le foie des rates Ovx sédentaires et entraînées. Ros n’a pas réduit la concentration plasmatique de LDL-C probablement à cause de l’induction plus importante de PCSK9 par rapport au R-LDL. Cependant, la stimulation de LRP1 par Ros protège partiellement contre la survenue des maladies cardiovasculaires. En conclusion, les études de cette thèse indiquent que la baisse du niveau des œstrogènes entraîne des changements radicaux du métabolisme hépatique des TG et du cholestérol provoqués par des altérations de l’expression des gènes clés des voies métaboliques associées. / Hepatic steatosis and plasma lipid profile deterioration are metabolic diseases favored by post-menopausal estrogen deficiency. However, mechanisms underlying these diseases have not been systematically adressed. The aim of this thesis was to investigate molecular mechanisms causing hypercholesterolemia and lipids (triglycerides: TG and cholesterol) accumulation in the liver using animal model of menopause, the ovariectomized (Ovx) Sprague Dawley rat. We also examined whether lifestyle modifications such as physical activity can prevent or correct changes induced by Ovx. Finally, rosuvastatin (statine) was used as a pharmacological therapy of hypercholesterolemia in order to understand its effect at the molecular level in Ovx rats. The first study was designed to determine how the Ovx may affect levels of TG and cholesterol in the liver of rats fed a high-fat diet (HF: 42% fat). Rats were submitted to a HF or a normal diet for 6 weeks prior to Ovx or being sham operated, and then kept on the same diets for another 6 weeks. The Ovx increased liver TG content, but not the HF diet alone. However, the combination of Ovx and HF diet resulted in a greater liver TG accumulation than that observed in Ovx submitted to normal diet. The mRNA levels of CPT-1, PGC1 and PPARα involved in liver lipid oxidation significantly increased in rats fed the HF diet (p ˂ 0.001; p ˂ 0.01; p ˂ 0.05 respectively); but this increase was substantially less if HF fed rats were Ovx (p ˂ 0.05; p ˂ 0.05; p ˂ 0.07 respectively), thus favouring TG accumulation in the liver. The combination of HF diet and Ovx also induced hypercholesterolemia and an increase in liver total cholesterol content, in spite of the reduction of liver HMGCoA-r gene expression, the key enzyme for cholesterol synthesis. This was also associated with a decrease of liver CYP7a1 gene expression, suggesting a reduction in bile acids synthesis. Having found in the first study that the Ovx increases liver and plasma cholesterol levels, we aimed in the second study at determining the effects of Ovx on gene expression of hepatic and intestinal transporters and enzymes involved in cholesterol and bile acids metabolism; and to verify whether treadmill exercise could prevent or correct changes induced by Ovx. The Ovx resulted in hypercholesterolemia associated with a reduction in gene expression of hepatic low-density lipoprotein receptor (LDL-R), lipoprotein remnants receptor (LRP1), SREBP-2 and PCSK9, suggesting a failure in the clearance of plasma lipoproteins particles. The Ovx also inhibited the expression of MTP and stimulated that of SR-B1 in the liver, but no change was observed with CYP7a1. These molecular changes might, therefore, favor cholesterol accumulation in the liver. Exercise training did not correct the deleterious effects caused by Ovx on gene expression of these molecular markers in the liver with the exception of SREBP-2. However, in the intestine (ileum) treadmill exercise reduced gene expression of molecular markers involved in the absorption of bile acids (OSTα/β, FXR, RXRα, Fgf15) and cholesterol (LXRα, NCP1L1) in Sham trained rats compared to sedentary rats. This could prevent the development of cholestasis and hypercholesterolemia protecting partially against the onset of atherosclerosis. In view of the deleterious effects (hypercholesterolemia and decreased in gene expression of LDL-R, PCSK9, LRP1, SREBP-2 and HMGCoA-r in the liver) caused by Ovx on cholesterol metabolism observed in the second study, the 3rd study was designed to test the effect of rosuvastatin (Ros) on gene expression of these molecular markers in Ovx sedentary rats or in Ovx rats submitted to voluntary training. Ros was injected to Ovx rats subcutaneously at dose of 5mg/kg/day during 21 days from the ninth week after ovariectomy. Ros failed to decrease plasma LDL-C and TC in Ovx rats. In contrast, Ros increased (P ˂ 0.05) PCSK9, SREBP-2, LRP1, HMGCoA-r and ACAT2 but not significantly (P ˂ 0.3) LDL-R mRNA in the Ovx sedentary and trained rat liver. Ros failed to decrease plasma LDL-C in Ovx rats probably because of a stronger induction of PCSK9 than LDL-R gene expression. However by increasing LRP1 expression, Ros could decrease circulating lipoprotein remnants and, therefore, protects partially against the onset of cardiovascular diseases. In conclusion, the studies of this thesis indicate that the decrease of ovarian estrogen levels causes radical changes in hepatic TG and cholesterol metabolism caused by alterations in the expression of key genes associated with metabolic pathways.

Foie

Liver

Intestin

Intestine

Ovariectomie

Ovariectomy

Exercice physique

Physical exercise

Stéatose hépatique

Hepatic steatosis

Hypercholestérolémie

Hypercholesterolemia

Triglycérides

Triglycerides

Cholestérol

Cholesterol

Acides biliaires

Bile acids

Rosuvastatine

Rosuvastatin

O papel da melatonina na regulação do tecido adiposo marrom / The role of melatonin in the regulation of brown adipose tissue

Halpern, Bruno

27 August 2018

O tecido adiposo marrom (TAM), caracterizado pela presença da proteína termogênica UCP-1, é conhecido há muitas décadas como um tecido termogênico em mamíferos, porém sua significância clínica em humanos era considerada pequena, com exceção de neonatos, até que o desenvolvimento e uso de métodos de PET-FDG terem demonstrado que humanos adultos também possuem TAM ativo, especialmente após exposição ao frio. Essa descoberta levou a um enorme aumento nas pesquisas sobre o assunto, já que sua ativação, levando a um aumento do gasto energético, poderia, pelo menos na teoria, ser uma possível arma no tratamento da obesidade e diabetes tipo 2 e sua redução ou ausência ser uma causa de ganho de peso. Muitos compostos vêm sendo estudados como possíveis recrutadores e ativdadores desse tecido. A melatonina é um deles, embora nenhum estudo tenha sido feito em humanos. A melatonina, um hormônio pineal sintetizado à noite com um papel crítico na sincronização do ritmo circadiano, é estudado há várias décadas como um regulador chave do metabolismo energético em diversas espécies animais. Ratos pinealectomizados ganham peso e tem distúrbios metabólicos durante sua vida, e a suplementação noturna de melatonina, reverte estas alterações, sem redução da ingesta alimentar. Devido a isso, uma hipótese é que o papel central da melatonina no metabolismo energético inclui sua função no gasto energético, possivelmente relacionado à ativação do TAM. Muitos modelos experimentais, a maioria em animais hibernantes, demonstraram o papel da melatonina no recrutamento do TAM. Nesse estudo, o objetivo é determinar se a suplementação de melatonina para indivíduos e animais de experimentação (ratos Wistar) deficientes de melatonina aumenta sua ativação. Foi encontrado que, em ratos Wistar, animais pinelaectomizados possuem uma capacidade termogênica do TAM reduzida após exposição ao frio comparado com a temperatura ambiente, e a suplementação de melatonina normaliza essa capacidade termogênica. Esse dado sugere um papel da melatonina na resposta máxima de ativação do TAM após um desafio ao frio agudo. Também foi observado um aumento de expressão de UCP-1 (RNA) em animais repostos com melatonina, tanto em controles como em pinealectomizados, e animais pinealectomizados não repostos apresentam uma expressão de UCP-1 menor que um grupo controle. Em humanos, a suplementação de melatonina aumenta o volume e atividade do TAM em quatro indivíduos pinealectomizados (por tumores pineais) com baixo nível de melatonina no basal, analisado por tomografia de emissão de prótons acoplada a ressonância magnética (PET-RM). Embora a análise do TAM em ambos os protocolos tenha sido distinta, seus resultados apontam para a mesma regulação positiva do TAM pela melatonina. A termografia infravermelha (TIV) foi também realizada em humanos, com aumento de atividade de TAM após exposição ao frio, poréma correlação entre as respostas com a TIV e o PET-RM foi moderada e não significativa. Diferenças entre o protocolo frio e limitação da TIV em indivíduos mais obesos podem ter contribuído para esses resultados. Uma relação positiva da suplementação de melatonina nos lípides (principalmente colesterol e triglicérides) também foi encontrada, porém sem impacto na gordura hepática / Brown adipose tissue (BAT), characterized by the presence of the thermogenic protein UCP-1 have long been known as a thermogenic tissue in mammals, however its significance in humans was considered minor, with the exception of newborns, until FDG-PET exams demonstrated that human adults still have active BAT, especially after cold exposure. This prompted to an incredible increase in research on the field, since its activation, leading to increased energy expenditure could, at least theoretically, be a possible tool for the treatment of obesity and type 2 diabetes and its reduction or absence be a cause of weight gain. Many compounds aiming to recruit and activate BAT have been studied. Melatonin has been one of them, although no study has been performed in humans. Melatonin, a pineal hormone synthetized at night with a critical role in the synchronization of circadian rhythms, has long been studied as a key regulator of energy metabolism in many animal species. Pinealectomized rats gain weight and have metabolic disturbances during life, and the circadian supplementation of melatonin, at night, reverts these alterations, without decrease in energy intake. Due to that, it is hypothesized that a main role of melatonin in energy metabolism includes its action on energy expenditure, possibly related to activation of BAT. Many experimental models, mainly in hibernating animals, have shown a role of melatonin on BAT recruitment. In the present study, we ought to determine if the supplementation of melatonin for melatonin deficient subjects and experimental animals (Wistar rats) increases BAT activation. We found, in Wistar rats, that pinealectomized animals have a reduced BAT thermogenic capacity after acute cold exposure compared with ambient temperature, and melatonin supplementation in this animals leads to normalization of BAT thermogenic capacity. This data suggests a role of melatonin in improving the maximal response of BAT after an acute challenge. We also found that melatonin supplementation increases UCP-1 RNA expression both in control and pinealectomized rats, and pinealectomized rats without supplementation have a reduced UCP-1 expression compared with controls. In humans, we found that melatonin supplementation increased BAT volume and activity in four pinealectomized (due to pineal tumors) individuals with low melatonin at baseline, analyzed by Positron Emission Tomography associated with magnetic resonance (PET-MR). Although the analysis of BAT in both studies was different, their results point to the same positive regulation of BAT by melatonin. We also performed infrared termography (IRT) in humans, but the results were not conclusive since although we also found an increase in BAT activity measured in Watts, the correlation between the methods was moderate. The difference may be due to different protocols of cold exposure between methods, probably inadequate in IRT, as well as maybe to a limitation of IRT in more obese individuals. We also found that melatonin supplementation in melatonin deficient humans may have a positive impact on blood lipid concentrations, (mainly total cholesterol and triglycerides) but, at least for the time studied, does not appear to have an impact on liver fat

Adipose tissue brown

Circadian rhytm

Diabetes mellitus tipo 2

Glândula pineal

Hipercolesterolemia

Hipertrigliceridemia

Hypercholesterolemia

Hypertriglyceridemia

Melatonin

Melatonina

Neuroendocrinologia

Neuroendocrinology

Obesidade

Obesity

Pineal gland

Ritmo circadiano

Tecido adiposo marrom

Type 2 diabetes

Avaliação da associação da gordura pericárdica medida pela tomografia computadorizada com a presença de aterosclerose coronária subclínica em pacientes com hipercolesterolemia familiar / Study of the association of pericardial fat determined by computed tomography with the presence of subclinical coronary atherosclerosis in patients with familial hypercholesterolemia

Mangili, Leonardo Celeste

27 September 2016

A hipercolesterolemia familiar (HF) é uma doença causada por um grupo de alterações genéticas que resultam em altas concentrações de colesterol no sangue e aumento na prevalência de aterosclerose subclínica e risco de eventos coronarianos precoces. Apesar da importância do colesterol como fator causal da aterosclerose na HF, o curso desta última é variável e influenciado por outros fatores de risco. A gordura pericárdica é um compartimento da gordura visceral e está associada à presença de aterosclerose coronária subclínica em populações sem HF. Este estudo avaliou a associação da gordura pericárdica com a presença e extensão da aterosclerose coronária subclínica em pacientes com HF. Noventa e sete pacientes com HF diagnosticada por critérios clínicos, confirmada geneticamente em 67% dos casos, foram submetidos a angiotomografia de coronárias e determinação do escore de cálcio (CAC). Foram analisadas a presença de placas, de estenose luminal > 50%, de CAC > 0 e do percentil de CAC > 75. Para se quantificar a extensão e gravidade da aterosclerose coronária subclínica foram avaliados de forma contínua a CAC, o Segment-Involvement Score (SIS) e o Segment-Stenosis Score (SSS). O volume de gordura pericárdica foi aferido por método semiautomático e dividido em dois compartimentos: gordura epicárdica (localizada dentre do saco pericárdico) e mediastinal (localizada fora do pericárdio). Para avaliar a associação dos volumes de gordura pericárdica com a aterosclerose subclínica foram ajustados modelos de regressão logística e linear. Os pacientes tinham idade média de 45 (±13) anos, com predomínio do sexo feminino. Foi encontrada presença de placas coronarianas e de CAC em 47,4% e 45,4% dos pacientes, respectivamente. Idade, colesterol total, LDL-C, HDL-C, apolipoproteína A-I, apolipoproteína B, presença de xantomas de tendão de Aquiles e clearance de creatinina foram associados a aterosclerose coronária subclínica na análise univariada. Os volumes de gordura pericárdica se associaram à presença de síndrome metabólica, hipertensão arterial, idade, IMC, a circunferência abdominal, o colesterol não-HDL, triglicerídeos e glicemia de jejum. Na análise multivariada em modelos ajustados para idade, sexo, tabagismo, HDL-C, LDL-C, circunferência abdominal, síndrome metabólica e uso prévio de estatinas, a gordura epicárdica foi associada independentemente com o percentil de CAC > 75 e foi diretamente proporcional a intensidade da CAC, SSS e SIS. Em conclusão, a gordura epicárdica associou-se independentemente à maior extensão e gravidade de aterosclerose coronária subclínica em pacientes com HF / Familial hypercholesterolemia (FH) is a disease caused by a group of genetic mutations resulting in high blood cholesterol and elevated prevalence of subclinical atherosclerosis and early coronary events. Although high cholesterol is the driving cause of atherosclerosis in FH, the course of the latter is variable and is affected by other risk factors. Pericardial fat (PF) is a visceral fat compartment that is associated to the presence of subclinical atherosclerosis in non-FH populations. The present study sought to determine the association of PF with the presence and extent of subclinical coronary atherosclerosis in FH subjects. Ninety-seven patients with clinical diagnosis of FH, genetically confirmed in 67%, were submitted to coronary tomography angiography and coronary artery calcium (CAC) quantification. The presence of plaques, luminal stenosis > 50%, CAC > 0, CAC percentile above 75 were evaluated. In order to evaluate the extent and severity of subclinical atherosclerosis, the CAC scores, Segment-Involvement Score (SIS) and Segment-Stenosis Score (SSS) were also measured. Pericardial fat volumes were measured by semi automated method and divided in two compartments: epicardial fat (located inside the pericardial sac) and mediastinal fat (located outside pericardial sac). Logistic regression and linear models tested the association of PF volumes with subclinical coronary atherosclerosis. Patients were predominantly female, with mean age of 45 (± 13) years. Coronary plaques and CAC were found respectively in 47.4% and 45.4% of patients. Age, total cholesterol, LDL-C, HDL-C, apolipoproteins A-I and B, the presence of Achilles xanthomas and creatinine clearance were associated with subclinical coronary atherosclerosis in univariate analysis. PF volumes were associated with the presence of metabolic syndrome, hypertension age, BMI, abdominal circumference non-HDL-cholesterol triglycerides and fasting glucose. On multivariate analysis in models adjusted for age, sex, smoking, HDL-C, LDL-C, abdominal circumference, metabolic syndrome and previous statin use epicardial fat was independently associated with CAC > 75th percentile, and was directly proportional to the intensity of CAC, SSS and SIS. In conclusion, epicardial fat was independently associated with a greater extension and severity of subclinical atherosclerosis in FH patients

Adipose tissue

Aterosclerose

Atherosclerosis

Cálcio

Calcium

Cholesterol

Colesterol

Coronary artery Disease

Coronary stenosis

Doença da artéria coronariana

Estenose coronária

Familial hypercholesterolemia

Fatores de risco

Hipercolesterolemia familiar

Multidetector computed tomography

Pericárdio

Pericardium

Risk factors

Tecido adiposo