Investigating the Mechanisms involved in Traffic-Generated Air Pollution: Mediated Disruption of the Blood-Brain Barrier in a Wild Type Mouse Model using a Pharmaceutical Intervention Approach

Suwannasual, Usa

08 1900

This study investigated whether oxLDL and/or angiotensin (Ang) II signaling pathways mediate traffic-generated air pollution- exposure induced alterations in blood-brain barrier (BBB) integrity and permeability in a healthy wild type (C57Bl/6) mouse model; additionally, whether these outcomes are exacerbated by a high fat-diet investigated. An environmentally relevant concentration of a mixture of vehicle engine exhaust (MVE) was used. To investigate the hypotheses, 12 wk old male C57Bl/6 mice on either a high fat (HF) or low fat (LF) diet were randomly assigned to inhalational exposure of either filtered-air (FA) or 30 µg PM/m3 diesel exhaust + 70 µg PM/m3 gasoline exhaust (MVE) for 6 hr/day for 30 days. Additionally, we examined mechanisms involved in MVE-mediated alterations BBB integrity using a novel BBB co-culture in vitro model, consisting of mouse primary cerebral vascular endothelial cells on an apical transwell and astrocytes in the basal compartment, which was treated with plasma from the mice on our exposure study. Our in vivo exposure study results showed that MVE inhalation resulted in increased circulating plasma oxLDL and Ang II, compared to FA controls. Additionally, we observed increased cerebral microvascular expression of oxLDL receptors, LOX-1 and CD-36, and Ang II receptor subtype 1 (AT1) in MVE-exposed C57Bl/6 mice, which was further exacerbated with consumption of an HF diet. Increased signaling of both Ang II and oxLDL was associated with decreased BBB integrity, as evidenced by the concurrent reduction in expression of tight junction (TJ) protein claudin-5 and increased permeability of sodium fluorescein (Na-F) from the blood into the cerebral parenchyma. Our results suggest that possible mechanisms involved in oxLDL and/or Ang II-mediated alterations in BBB integrity include oxidative stress and upregulated expression and activity of matrix metalloproteinase (MMP)-9, which is associated with degradation of TJ proteins in the BBB. Our in vitro BBB co-culture results confirm our in vivo findings, as we observe increased BBB permeability (TEER) and decreased integrity (decreased expression of TJ proteins) in the endothelial (apical) layer when treated with plasma from MVE-exposed mice, which was further exacerbated when treated with plasma from MVE-exposed mice on an HF diet. Pre-treatment of the endothelial cells with the AT1 receptor antagonist, Losartan, prior to applying plasma, resulted in attenuation of the alterations observed in endothelial integrity in the BBB co-culture treated with plasma from either MVE+LF or MVE+HF animals. These results suggest Ang II – AT1 signaling mediate, at least in part, the alterations in the BBB integrity observed after exposure to MVE. Moreover, we observed that treatment of the endothelial (apical) layer with plasma from MVE-exposed animals resulted in increased production of inflammatory mediators interleukin-6 (IL-6) and transforming growth factor-β in the astrocyte media (basal compartment). Additionally, these same astrocytes also displayed increased production of angiotensin-converting enzyme (ACE) and also AT1 receptor mRNA expression, while showing decreased expression of the aryl hydrocarbon receptor (AhR) and glutathione peroxidase (GPx). Collectively, these results suggest that exposure to the ubiquitous environmental air pollutant, vehicle engine emissions, results in increased oxLDL and Ang II signaling in the cerebral microvasculature, which is associated with decreased vessel integrity and increased oxidative stress and inflammatory signaling in the CNS. The observed detrimental outcomes are even further exacerbated when coupled with the consumption of an HF diet.

Traffic pollution,

Oxidized low density lipoprotein,

Lectin-like oxidized LDL receptor,

Angiotensin II type 1 receptor,

Cerebral microvessel

Binding of the Monomeric Form of C-Reactive Protein to Enzymatically-Modified Low-Density Lipoprotein: Effects of Phosphoethanolamine

Singh, Sanjay K., Suresh, Madathilparambil V., Hammond, David J., Rusiñol, Antonio E., Potempa, Lawrence A., Agrawal, Alok

11 August 2009

Background: The 5 subunits of native pentameric C-reactive protein (CRP) are dissociated to generate the monomeric form of CRP (mCRP) in some in vitro conditions, both physiological and non-physiological, and also in vivo. Many bioactivities of mCRP generated by urea-treatment of CRP and of mCRP generated by mutating the primary structure of CRP have been reported. The bioactivities of mCRP generated by spontaneous dissociation of CRP are largely unexplored. Methods: We purified mCRP generated by spontaneous dissociation of CRP and investigated the binding of mCRP to enzymatically-modified low-density lipoprotein (E-LDL). Results: mCRP was approximately 60 times more potent than CRP in binding to E-LDL. In the presence of the small-molecule compound phosphoethanolamine (PEt), at 37 °C, the binding of mCRP to E-LDL was enhanced <2-fold, while the binding of CRP to E-LDL was enhanced >10-fold. In contrast, PEt inhibited the binding of both CRP and mCRP to pneumococcal C-polysaccharide, another phosphocholine-containing ligand to which CRP and mCRP were found to bind. We have not investigated yet whether PEt alters the structure of CRP at 37 °C. Conclusions: Combined data suggest that the targeting of CRP with the aim to monomerize CRP in vivo may be an effective approach to capture modified forms of LDL.

C-reactive protein

monomeric C-reactive protein

phosphoethanolamine

pneumococcal C-polysaccharide

Biomedical Sciences

The Connection Between C-Reactive Protein and Atherosclerosis

Singh, Sanjay, Suresh, Madathilparambil V., Voleti, Bhavya, Agrawal, Alok

14 May 2008

The connection between C-reactive protein (CRP) and atherosclerosis lies on three grounds. First, the concentration of CRP in the serum, which is measured by using highly sensitive (a.k.a. 'hs') techniques, correlates with the occurrence of cardiovascular disease. Second, although CRP binds only to Fcγ receptor-bearing cells and, in general, to apoptotic and damaged cells, almost every type of cultured mammalian cells has been shown to respond to CRP treatment. Many of these responses indicate proatherogenic functions of CRP but are being reinvestigated using CRP preparations that are free of endotoxins, sodium azide, and biologically active peptides derived from the protein itself. Third, CRP binds to modified forms of low-density lipoprotein (LDL), and, when aggregated, CRP can bind to native LDL as well. Accordingly, CRP is seen with LDL and damaged cells at the atherosclerotic lesions and myocardial infarcts. In experimental rats, human CRP was found to increase the infarct size, an effect that could be abrogated by blocking CRP-mediated complement activation. In the Apob 100/100 Ldlr -/- murine model of atherosclerosis, human CRP was shown to be atheroprotective, and the importance of CRP-LDL interactions in this protection was noted. Despite all this, at the end, the question whether CRP can protect humans from developing atherosclerosis remains unanswered.

atherosclerosis

c-reactive protein

cholesterol

foam cell

low-density lipoprotein

myocardial infarction

phosphoethanolamine

Biomedical Sciences

Physics and Astronomy

Patterns of Low Density Lipoprotein are Determinants in the Induction of Nitroxidative Stress in Cardiovascular System

Hua, Jiangzhou

January 2015

No description available.

Biochemistry

Biomedical Research

Cellular Biology

Molecular Biology

Low density lipoprotein

Nitroxidative stress

Cardiovascular disease

Peroxynitrite

Nanosensor

Endothelial dysfunction

PCSK9 REGULATES LDLR-MEDIATED UPTAKE OF LIPOPOLYSACCHARIDE AND LIPOTEICHOIC ACID

Grin, Peter

January 2017

The liver regulates inflammation during sepsis, and most liver functions are carried out by hepatocytes. Bacterial lipids, including lipopolysaccharide (LPS) and lipoteichoic acid (LTA), can be cleared by hepatocytes, but the underlying mechanisms are uncertain. Proprotein convertase subtilisin/kexin type 9 (PCSK9) regulates uptake of LPS by hepatocytes, but it is unknown whether LTA uptake is similarly regulated. Therefore, our objectives were to characterize the PCSK9-regulated pathway of bacterial lipid uptake by hepatocytes by identifying whether low-density lipoprotein (LDL) receptor (LDLR) and LDLR-related protein 1 (LRP1) are the target receptors, and by determining which lipoproteins are involved. To study this pathway, we assessed the uptake of fluorescently-labeled LPS or LTA by human HepG2 hepatocytes using flow cytometry. We pre-treated HepG2 cells with PCSK9, alone or in combination with anti-LDLR or anti-LRP1 antibodies, in order to identify the PCSK9-regulated receptors that are involved, and utilized media containing normal serum or lipoprotein-deficient serum to investigate the lipoprotein- dependence of this pathway. We also determined the roles of LDL and HDL in bacterial lipid uptake through a series of add-back experiments to lipoprotein-deficient serum, and blocked LDLR to confirm that LDLR mediates LDL-dependent uptake. The HepG2 cell response to variable degrees of bacterial lipid uptake was also assessed in a subset of experiments by measuring several cytokines and extracellular alanine aminotransferase (ALT) activity in the cell culture supernatant. We found that PCSK9 regulates LDLR-mediated uptake of both LPS and LTA through an LDL-dependent mechanism, while LRP1 is not involved. Increased bacterial lipid uptake did not result in any hepatocellular injury or cytokine production, as measured by ALT activity and interleukin (IL)-6, IL-8, IL-10, and IL-17 concentrations. In conclusion, we completed our objective of characterizing the PCSK9-regulated pathway of bacterial lipid uptake, and provide supporting evidence for targeting PCSK9 as a novel therapeutic avenue in sepsis. / Thesis / Master of Science (MSc) / Bacterial compounds stimulate inflammation that can be overwhelming during sepsis. Understanding the processes behind uptake and clearance of these compounds may lead to better sepsis treatments. Therefore, our goal was to understand how uptake of two bacterial compounds, lipopolysaccharide and lipoteichoic acid, occurs by liver cells called hepatocytes. Hepatocytes are naturally equipped to clear foreign compounds, so understanding their role in clearing bacterial compounds is important. Another goal was to identify the role of the protein PCSK9 in this uptake process, as treatments targeting PCSK9 could be applied to sepsis once we understand its role in this disease. Our research demonstrates the negative role of PCSK9 in regulating uptake of lipopolysaccharide and lipoteichoic acid through a lipoprotein receptor called LDLR, and identifies the role of lipoproteins in this process. These findings further our understanding of the hepatocyte response to bacterial compounds in relation to sepsis, and identify PCSK9 as a potential target for new sepsis therapies.

lipoteichoic acid

lipopolysaccharide

lipoproteins

low-density lipoprotein

LDL receptor

hepatocyte

cytokines

sepsis

bacteria

Acidification assessment on blood plasma during purification of extracellular vesicles for downstream application of biomarker analysis

Lidell, Viktoria

January 2024

Extracellular vesicles (EV) originate from various cell types and reflect the contents of the originating cells. EVs are ubiquitous in nearly all body fluids, including blood plasma, and exhibit significant potential as biomarkers in disease diagnostics. However, isolating EVs from blood plasma remains challenging due to the lack of a standardised method. This study aimed to compare and optimize a density gradient ultracentrifugation workflow (DUC) against size exclusion chromatography-cation exchange chromatography (SEC-CEC) and evaluate SEC versus SEC-CEC. Common contaminants during isolation include lipoproteins (LP); previous studies have shown that lowering the pH of blood plasma can precipitate LP, enhancing isolation efficiency. Acidified blood plasma was compared with neutral plasma for EV isolation using all above mentioned methods. To assess the ability of the isolation methods to purify contaminants while retaining maximal EV yield, samples were analysed using multiple techniques, including particle quantity, free proteins, LP-associated apolipoprotein B, purity index (μg protein/particle), and EV-associated surface markers. The results indicate potential for DUC, but further optimization is necessary to improve the method and its isolation of EV. SEC-CEC emerged as an effective method, reducing contaminants by 71% (SEC) to 99% (SEC-CEC), increasing purity by 80%, and yielding positive signals from EV markers (SEC-CEC). The effect of acidification was ambiguous, it reduced apolipoprotein-B levels in plasma pre-isolation. However, post- isolation, neutral plasma exhibited significantly lower contaminations, albeit at the expense of total particle content and risking EV loss. The study underscored several advantages of SEC-CEC but indicated that acidification did not optimise isolation efficiency.

Isolation

density gradient ultracentrifugation

size exclusion chromatography

cation exchange chromatography

Low-density lipoprotein

Biomedical Laboratory Science/Technology

Cellules souches pluripotentes humaines et modélisation de maladies hépatiques : l'hypercholestérolémie familiale et les cholangiopathies / Human pluripotent stem cells and liver diseases modeling : Familial hypercholesterolemia and cholangiopathies

Dianat, Noushin

12 June 2014

La thérapie cellulaire pourrait représenter une alternative à la transplantation hépatique dans certaines pathologies comme les maladies métaboliques sévères. Toutefois, la pénurie de donneurs d’organes implique la nécessité de trouver de nouvelles sources de cellules hépatiques comme les cellules souches pluripotentes qui peuvent être amplifiées extensivement et différenciées en tout type cellulaire. Les cellules souches embryonnaires humaines (hESC) et les cellules souches pluripotentes induites humaines (hiPSC) générées à partir des cellules somatiques de patients puis différenciées en hépatocytes représentent une source potentielle d’hépatocytes. Ces cellules permettent en outre d’envisager la transplantation d’hépatocytes autologues génétiquement modifiés comme alternative à la transplantation hépatique pour le traitement de certaines maladies génétiques du foie. L’hypercholestérolémie familiale (HF) est une maladie autosomale dominante due à des mutations dans le gène codant le Récepteur aux Low Density Lipoproteins (RLDL) qui est à l’origine d’un taux élevé de cholestérol sanguin de patients HF. Les patients homozygotes doivent épurer leur sérum par LDL-aphérèse en moyenne deux fois par mois dès le plus jeune âge pour éviter les infarctus mortels survenant dès l’enfance. Les hépatocytes différenciées à partir des iPSC de patients et leur correction in vitro, permettent d'évaluer la faisabilité de la transplantation d'hépatocytes autologues génétiquement modifiés pour le traitement de l’hypercholestérolémie familiale.Au cours du développement du foie, des hépatocytes et des cholangiocytes, les deux types de cellules épithéliales hépatiques, dérivent de progéniteurs hépatiques bipotents (les hépatoblastes). Bien que les cholangiocytes formant les canaux biliaires intrahépatiques ne représentent qu'une petite fraction de la population cellulaire totale du foie (3%), ces cellules régulent activement la composition de la bile par réabsorption des acides biliaires, un processus qui est important dans des maladies choléstatiques du foie. Dans la première partie de cette étude nous avons mis au point une approche de différenciation des cellules souches pluripotentes (hESC et hiPSC) en cholangiocytes fonctionnels. Ces cellules serviront à la modélisation des maladies génétiques touchant les cholangiocytes formant des canaux biliaires. Dans la deuxième partie, nous avons généré des iPSC spécifiques de patients HF (HF-iPSC), différenciées en hépatocytes et corrigé le défaut phénotypique par transfert lentiviral de l’ADNc codant le LDLR dans les HF-iPSC. / Cell therapy can be an alternative to liver transplantation in some cases such as severe metabolic diseases. However, the shortage of organ donors implies the need to find new sources of liver cells such as hepatocytes derived from pluripotent stem cells that can be amplified and differentiated extensively into any cell type. Human embryonic stem cells (hESC) and human induced pluripotent stem cells (hiPSC) generated from somatic cells of patients and then differentiated into hepatocytes represent a potential source of transplantable hepatocytes. These cells now make it possible to consider the transplantation of genetically modified autologous hepatocytes as an alternative to liver transplantation for the treatment of genetic diseases of the liver.Familial hypercholesterolemia (FH) is an autosomal dominant disorder caused by mutations in the gene encoding the receptor for Low Density Lipoproteins (LDLR), which is the cause of high blood cholesterol in these patients. Homozygous patients should purify their serum LDL-apheresis on average twice a month starting at a young age to avoid fatal myocardial infarction occurring in childhood.Human hepatocytes differentiated from patient’s induced pluripotent stem cells (iPSCs) allow assessing the feasibility to transplant genetically modified autologous hepatocytes as treatment of familial hypercholesterolemia.During the liver development, hepatocytes and cholangiocytes, the two types of hepatic epithelial cells, derive from bipotent hepatic progenitors (hepatoblasts). Although cholangiocytes, forming intrahepatic bile ducts, represent a small fraction of the total liver cell population (3%), they actively regulate bile composition by secretion and reabsorption of bile acids, a process that is important in cholestatic liver diseases. In the first part of this study we developed an approach to differentiate pluripotent stem cells (hESC and hiPSC) into functional cholangiocytes. These cells could be used for the modeling of genetic biliary diseases. In the second part, we generated FH patient specific iPSCs (HF-iPSC), differentiated them into hepatocytes and tried to correct the disease phenotype by lentiviral introduction of LDLR cDNA cassette in HF-iPSC.

Cellules souches embryonnaires

Cellules souches pluripotentes induites

Humain

Différenciation

Foie

Développement

Thérapie génique

Thérapie cellulaire

Hépatocyte

Cholangiocyte

Hépatobalstes

Hypercholestérolémie familiale

Récepteur aux LDL

LDLR

Low density lipoprotein

Embryonic stem cells

Induced pluripotent stem cells

Differentiation

Human

Liver development

Gene therapy

Cell therapy

Hepatocyte

Cholangiocyte

Hepatoblast

Familial hypercholesterolemia

LDL receptor

LDLR

Low density lipoprotein

Low density lipoprotein receptor

Epigenetic approaches to the study of macrophages in atherosclerosis

Reschen, Michael

January 2015

Coronary artery disease (CAD) is caused by atherosclerosis, a chronic inflammatory response to modified lipoproteins. A key pathophysiological event is the lipid-induced transformation of macrophages into lipid-laden foam cells and their accumulation in atherosclerotic plaques. Heritable CAD risk is associated with common genetic variants at over 40 genomic loci; the underlying causal mechanisms remain largely unknown and could affect transcriptional regulation in foam cells. Epigenetic and gene expression changes were measured in primary human macrophages before and after exposure to atherogenic, oxidized low-density lipoprotein—with resultant foam cell formation. This unbiased approach involved open chromatin mapping with formaldehyde-assisted isolation of regulatory elements with enhancer and transcription factor mapping using chromatin immuno-precipitation. Foam cell formation was associated with changes in a subset of open chromatin and enhancer sites that were strongly correlated with expression of nearby genes. OxLDL-regulated enhancers were enriched for several transcription factors—including C/EBP-beta— that have no previously documented role in foam cell formation. OxLDL exposure up-regulated C/EBP-beta expression and increased C/EBP-beta binding across the genome, most prominently around genes involved in inflammatory response pathways. Variants at CAD-associated loci were enriched in the subset of oxLDLregulated open chromatin sites. These included rs72664324 in an oxLDL-induced super-enhancer at the PPAP2B locus. OxLDL increased C/EBP-beta binding at rs72664324. C/EBP-beta binding, enhancer activity and oxLDL-induced upregulation of PPAP2B were stronger with the protective A allele of rs72664324. The PPAP2B protein product LPP3 was expressed in foam cells in human atherosclerotic plaques and was upregulated by oxLDL exposure in macrophages, so increasing the degradation of pro-inflammatory mediators. I also found several other CAD risk candidate genes were regulated by oxLDL: Phosphatase and actin regulator 1 (PHACTR1) and macrophage inducible Ca²⁺ dependent C-type lectin (Mincle). This led us to find a novel expression-quantitative-trait locus for PHACTR1 in macrophages and define new glycolipid ligands for Mincle. Our results demonstrate a genetic mechanism contributing to CAD risk at the PPAP2B locus and highlight the value of integrating gene expression and epigenetic changes to study disease processes involving pathogenic environmental stimuli.

Efeitos do fragmento variável de cadeia única anti-LDL eletronegativa vetorizado em nanocápsulas na aterosclerose experimental / Effects of an anti-LDL(-) single chain fragment variable vectorized in nanocapsules in experimental atherosclerosis.

Cavalcante, Marcela Frota

08 December 2016

As doenças cardiovasculares são a principal causa de mortalidade no mundo. A aterosclerose é a base fisiopatológica dessas doenças, sendo definida como um processo crônico-inflamatório multifatorial, resultando da interação de diferentes células como linfócitos, macrófagos, células endoteliais e células musculares lisas na parede arterial. A lipoproteína de baixa densidade eletronegativa [LDL(-)], uma subfração modificada da LDL nativa, desempenha um papel-chave na aterosclerose, uma vez que as modificações sofridas por esta partícula são capazes de induzir o acúmulo de ésteres de colesterol em macrófagos e a subsequente formação de células espumosas. O sistema imunológico é crucial no processo aterogênico e estratégias terapêuticas direcionadas à imunoregulação deste processo têm sido utilizadas como novas alternativas tanto na prevenção do desenvolvimento quanto da progressão desta doença. Dentre essas estratégias, destaca-se o uso de fragmentos de anticorpos como o scFv (do inglês, single chain fragment variable), que podem ainda estar conjugados a nanopartículas com o intuito de aumentar sua eficiência de ação no organismo. Diante do papel da LDL(-) na aterosclerose, este projeto objetivou avaliar os efeitos in vitro e in vivo de um sistema nanoestruturado contendo fragmentos scFv anti-LDL(-) derivatizados na superfície de nanocápsulas sobre macrófagos murinos e humanos primários e em camundongos knockout para o gene do receptor da LDL (Ldlr-/-) no desenvolvimento e na progressão dessa doença. Demonstrou-se que o tratamento de macrófagos com a formulação scFv anti-LDL(-)-MCMN-Zn diminuiu de forma significativa a captação de LDL(-), assim como a expressão de IL-1&#946; (mRNA e proteína) e MCP-1 (mRNA). Foi demonstrada a internalização da nanoformulação pelos macrófagos via diferentes mecanismos de endocitose, demonstrando seu potencial uso como carreador de fármacos. In vivo, a nanoformulação diminuiu de forma significativa a área da lesão aterosclerótica em camundongos Ldlr-/- submetidos à avaliação pela técnica de tomografia por emissão de pósitrons (do inglês, PET), utilizando o radiotraçador 18F-FDG (18F-desoxiglicose), associada à tomografia computadorizada (CT) com agente de contraste iodado, além da análise morfométrica das lesões no arco aórtico. O conjunto dos resultados obtidos evidenciou a ação ateroprotetora da formulação scFv anti-LDL(-)-MCMN-Zn, reforçando seu potencial como estratégia terapêutica na aterosclerose. / Cardiovascular diseases are the leading cause of mortality worldwide. Atherosclerosis is the pathophysiological basis of these diseases, defined as a chronic inflammatory multifactorial process, resulting from the interaction of several cells such as lymphocytes macrophages, endothelial cells and smooth muscle cells within the arterial wall. The electronegative low-density lipoprotein [LDL(-)], a modified subfraction of native LDL, plays a key role in atherosclerosis, since its modifications are capable of inducing the accumulation of cholesteryl esters in macrophages and the subsequent foam cells formation. The immune system is crucial in atherogenic process and therapeutic strategies directed to the immunoregulation of this process have been used as a new alternative in the prevention of the development as well as the progression of this disease. Among these strategies, it is the use of antibody fragments such as scFv (single chain fragment variable), which may be also conjugated to nanoparticles in order to increase their efficiency in the body. Given the role of LDL(-) in atherosclerosis, the aim of this project was to evaluate the in vitro and in vivo effects of a nanostructured system containing scFv anti-LDL(-) fragments derivatized on the surface of nanocapsules on murine and human primary macrophages and in the development and progression of the disease in LDL receptor knockout mice (Ldlr-/-). It was demonstrated that the treatment of macrophages with scFv anti-LDL(-)-MCMN-Zn formulation significantly decreases the uptake of LDL(-) and the expression IL-1&#946; (mRNA and protein) and MCP-1 (mRNA). Moreover, the internalization of the nanoformulation by macrophages through different endocytosis mechanisms was shown, demonstrating its potential use as a nanocarrier. In vivo, the nanoformulation decreased the area of atherosclerotic lesions in Ldlr-/- mice evaluated by positron emission tomography with 18F-FDG associated with computed tomography with iodinated contrast agent (PET/CT), besides the lesion morphometric analysis at the aortic arch Thus, these data provide evidence of the atheroprotection action of the ateroprotection action of the scFv anti-LDL(-)-MCMN-Zn formulation, suggesting its promising use as a therapeutic strategy for atherosclerosis.

18F-FDG

18F-FDG

Aterosclerose

atherosclerosis

Endocitose

Endocytosis

LDL(-)

LDL(-)

Lipoproteína de baixa densidade

Low-density lipoprotein

Macrófago

Macrophage, Nanoformulation

Nanoformulação

PET/CT

PET/CT

scFv

scFv

Investigação de mutações no gene PCSK9 em famílias com diagnóstico clínico de Hipercolesterolemia Familiar / Investigation on the PCSK9 gene mutations in families with clinic diagnosis of Familial Hypercholesterolemia

Honorato, Aldrina Laura da Silva Costa

08 October 2018

A hipercolesterolemia familiar (HF) é uma alteração de origem genética comum que pode se manifestar clinicamente desde o nascimento e provoca um aumento nos níveis plasmáticos de LDL-colesterol (LDL-c), xantomas e doença coronária prematura. Sua detecção e tratamento precoce reduzem a morbidade e mortalidade coronária. A identificação e rastreamento em cascata familiar usando níveis de LDL-c e detecção genética é a estratégia mais aconselhável e rentável para descoberta de novos casos. O tratamento crônico com estatinas reduz o risco cardiovascular da população em geral, contudo, estudos clínicos com estatinas revelam risco cardiovascular residual mesmo após correção das concentrações de LDL-c. Com o surgimento de novas drogas e mais recentemente um inibidor da enzima pró-proteína convertase subtilisina/kexina tipo 9 (PCSK9), este estudo enfatizou na investigação específica para aqueles acometidos com defeitos genéticos nessa enzima, por ser de frequência ainda mais rara e pouco estudada, necessitando de melhor investigação na população em estudo a fim de rastrear a ocorrência de mutações patológicas na PCSK9. O objetivo desse estudo foi identificar e caracterizar mutações e/ou deleções patológicas no gene PCSK9 em pacientes com Hipercolesterolemia Familiar provenientes do Hospital das Clínicas de Ribeirão Preto da FMRP/USP selecionados para o teste genético. Foi feito o rastreamento de mutações pelo método Hight Resolution Melting (HRM), de forma prática, rápida e eficiente, onde mutações detectadas foram seqüenciadas. Foram identificadas 7 mutações não patogênicas, caracterizando que a população estudada não apresenta Hipercolesterolemia Familiar associada a mutações no gene PCSK9, fato que não exclui o diagnóstico por outros defeitos genéticas associados a doença. / Familial hypercholesterolemia (FH) is an alteration of common genetic origin that can manifest clinically from birth and which causes an increase in the LDL-cholesterol plasma levels (LDL-c), xanthomas and premature coronary disease. Its early detection and treatment reduce morbidity and coronary mortality. The identification and tracking in familial cascade using levels of LDL-c and genetic detection is the most advisable and profitable strategy to find new cases. The chronic treatment with statins reduces the cardiovascular risk in the population in general. However, clinic studies on statins show a residual cardiovascular risk even after the correction of LDL-c concentrations. With the appearance of new drugs and, more recently, of a proprotein convertase subtilisin/kexin type 9 enzyme inhibitor (PCSK9), this study highlighted the specific investigation for those stricken by genetic defects in this enzyme, once it is even rarer and understudied and needs further investigation in the study\'s population aiming at tracking the occurrence of a pathological mutation in the PCSK9. This study aimed at identifying and characterizing mutations and/or pathological deletions in the PCSK9 gene in patients with Familial Hypercholesterolemia from the RPMS/USP Ribeirão Preto Clinical Hospital which were selected for the genetic test. We performed the mutation tracking by using the High Resolution Melting (HRM) method in a practical, fast and efficient way, where the mutations detected were sequenced. We identified 7 non-pathogenic mutations, showing that the population studied does not present Familial Hypercholesterolemia associated to mutations in the PCSK9 gene, which doesn\'t exclude the diagnosis by other genetic defects associated to the disease.

Cardiovascular Diseases

Doenças Cardiovasculares

Familial Hypercholesterolemia

Hipercolesterolemia Familiar

lipoproteína de baixa densidade

low density lipoprotein,