Global ETD Search

271	Genetic Mapping of Susceptibility Genes for Systemic Lupus Erythematosus Johanneson, Bo January 2002 (has links) Systemic lupus erythematosus (SLE) is a complex autoimmune disease with unknown etiology. The aim of this thesis was to identify susceptibility regions through genetic mapping, using model-based linkage analysis on nuclear and extended SLE multicase families. In the first paper we performed a genome scan on 19 genetically homogenous Icelandic and Swedish families. One region at 2q37 was identified with a significant linkage with contribution from both populations (Z=4.24). Five other regions 2q11, 4p13, 9p22, 9p13 and 9q13 showed suggestive linkage (Z>2.0). In the second paper, 87 families from 10 different countries were analysed only for chromosome 1. One region at 1q31 showed significant linkage (Z=3.79) with contribution from families from all populations, including Mexicans and Europeans. Four other regions 1p36, 1p21, 1q23, and 1q25, showed levels of suggestive linkage. Linkage for most regions was highly dependent on what population was used, which indicated strong genetic heterogeneity in the genetic susceptibility for SLE. In the two last papers, we used the positional candidate gene strategy, in order to investigate candidate genes in two regions linked to SLE. For the Bcl-2 gene (at 18q21) we could not detect any association with SLE using three different markers. However, when we investigated the tightly linked low-affinity family of FcγR genes (at 1q23), we could find association for two risk alleles in the FcγRIIA and FcγRIIIA genes. The risk alleles were transmitted to SLE patients on one specific haplotype and therefore are not independent risk alleles. The results show that model-based linkage analysis is a strong approach in the search for susceptibility genes behind complex diseases like SLE. Molecular genetics Association analysis Candidate gene Complex disease Genome scan Linkage analysis Mapping Susceptibility genes Systemic lupus erythematosus Genetik Genetics Genetik
272	Endogenous Type I Interferon Inducers in Systemic Autoimmune Diseases Lövgren, Tanja January 2006 (has links) Patients with systemic lupus erythematosus (SLE) have elevated levels of interferon (IFN)-α in blood and IFN-α-producing cells in tissues. In the present thesis, we investigate the mechanisms behind the upregulated IFN-α-production in SLE and also show that the IFN-α system is activated in primary Sjögren’s syndrome (pSS), with IFN-α-producing cells in the major affected organ, the salivary glands. The IFN-α is a type I IFN, a family of cytokines counteracting especially viral infections, by acting directly on infected cells, and via many immunomodulatory effects. The latter may also contribute to autoimmune processes. The type I IFNs are usually produced upon recognition of microbial structures. In SLE, however, DNA-containing immune complexes (ICs) that induce IFN-α production are found. Many autoantibodies in SLE and pSS are directed to nucleic acids or to DNA/RNA-binding proteins. We show that also RNA in complex with autoantibodies from SLE or pSS patients (RNA-IC) induces IFN-α-production. The RNA could be either in the form of RNA-containing material released from apoptotic or necrotic cells or as a pure RNA-containing autoantigen, the U1 small nuclear ribonucleoprotein particle. The IFN-α-production induced by RNA-IC occurred in plasmacytoid dendritic cells (PDCs), also termed natural IFN-producing cells (NIPCs), via binding to Fcγ-receptor IIa, endocytosis and triggering of Toll-like receptors (TLRs), probably TLR7 and TLR9. The RNA-IC may also have other effects, and we found that they induce prostaglandin E2 (PGE2) production in monocytes and tumor necrosis factor (TNF)-α in both monocytes and NIPC/PDC. The PGE2 downregulated the IFN-α induction in NIPC/PDC, and the IFN-α induction was increased in monocyte-depleted cell cultures. The findings presented in this thesis aids in the understanding of the mechanisms behind the activated IFN-α system in SLE and other autoimmune diseases, and shows that also pSS is one of these diseases. Medicine Systemic lupus erythematosus Sjögren's syndrome type I interferon plasmacytoid dendritic cell natural interferon-producing cell immune complex RNP Ro/SSA La/SSB Medicin
273	The Genetics of Systemic Lupus Erythematosus : The Specificity of IRF5 to SLE. Linga Reddy, MV Prasad January 2007 (has links) The breakdown of self-tolerance is the main driving force behind susceptibility to SLE. When this occurs, T and B cells are activated in an uncontrolled manner and produce autoantibodies against self fragmented DNA, RNA and sometimes other parts of the cell such as cardiolipin, phosphatidylserine, etc. The mechanism behind the breakdown of self-tolerance may be genetic factors that are triggered by environmental factors. SLE is not caused by a single gene, but by many genes, and is thus a polygenic disease. So far only a few genes have been found to be associated with SLE including PDCD1, FcγRs, and PTPN22. The main aim of my thesis is to find susceptibility genes responsible for SLE. Recently, a gene called IRF5 was found to be associated with SLE. In paper one, we performed a thorough study and confirmed its association to SLE. In addition, we found a few other SNPs in the gene that were associated to the disease. Among them, SNP rs2004640 is very strongly associated and was found to affect the splicing of the gene. Another SNP, rs2280714, correlated with overexpression of the gene, although SNP rs10954213 was much more highly correlated with expression adding to this, in paper two we found a few other SNPs that were associated to SLE and played crucial roles in gene function. An indel in exon 6, though not associated by itself, regulated which isoforms were expressed. Individuals with 2 repeats expressed isoforms V1 and V4, while individuals with 4 repeats expressed isoforms V5 and V6. SNP rs2070197 was also very strongly associated, but did not have a functional role. In paper three, the same polymorphisms were studied in a Mexican population, which showed an even stronger association when compared to a European population. It is known that autoimmune diseases share susceptibility genes, therefore we wanted to see if the IRF5 gene is associated with any other autoimmune diseases. In papers four and five, we tested its association to RA (using three sets of patients and controls from Sweden, Argentina and Spain) and psoriasis (using a set of patients and controls from Sweden). Association was not found in either of the diseases. Therefore, we believe that this association may be SLE-specific. Molecular genetics Systemic lupus erythematosus Interferon regulatory factor 5 Transmission-Disequilibrium Test Family-based association test Linkage Disequilibrium Hardy-Weinberg equilibrium Genetik
274	Genetic Analyses of Multiple Sclerosis and Systemic Lupus Erythematosus : From Single Markers to Genome-Wide Data Sandling, Johanna K January 2010 (has links) In autoimmune diseases an individual’s immune system becomes targeted at the body’s own healthy cells. The aim of this thesis was to identify genetic risk factors for the two autoimmune diseases multiple sclerosis (MS) and systemic lupus erythematosus (SLE). In Study I, we found that genetic variation in the interferon regulatory factor 5 gene (IRF5), previously shown to be associated with SLE, rheumatoid arthritis and inflammatory bowel diseases, was associated also with MS. An insertion/deletion polymorphism in the first intron of IRF5 is as a good functional candidate for this association. IRF5, together with the signal transducer and activator of transcription 4 gene (STAT4), are the most important genetic risk factors for SLE, outside the HLA region. In Study II we showed using a family-based study design that genetic variation in STAT4 is associated with SLE also in the Finnish population. In Study III, we investigated a STAT4 risk allele for SLE for its association with cardiovascular disease in SLE patients. The risk allele of STAT4 proved to be strongly associated with ischemic cerebrovascular disease and anti-phospholipid antibodies in SLE patients. A possible mechanism for this association is that the risk allele leads to increased production of pro-thrombotic anti-phospholipid antibodies, which in turn increases the risk for stroke. Both IRF5 and STAT4 are involved in signalling of the type I interferon system. In Study IV, we investigated 78 additional genes in this system for their association with SLE in a Swedish cohort. The most promising results were followed up in additional patients and controls from Sweden and the US. Two novel SLE genes were identified. In Study V a large follow-up of a genome-wide association study was performed. Five new SLE loci were identified: TNIP1, PRDM1, JAZF1, UHRF1BP1 and IL10. A number of genes previously shown to be associated with other autoimmune diseases were also tested for association with SLE. This analysis identified the type I interferon system gene IFIH1 as a novel SLE risk locus. These studies confirms the central role of the type I interferon system in SLE and further suggests common genetic risk factors in autoimmunity. Systemic lupus erythematosus Multiple Sclerosis Association study Type I interferon system Single nucleotide polymorphism
275	The role of DcR3 in systemic lupus erythematosus and islet β-Cell viability and function Han, Bing 07 1900 (has links) Le récepteur DcR3 (Decoy receptor 3) est un membre de la famille des récepteurs aux facteurs de nécrose tumorale (TNF). Il est fortement exprimé dans les tissus humains normaux ainsi que les tumeurs malignes. DcR3 est un récepteur pour trois ligands de la famille du TNF tels que FasL, LIGHT et TL1A. Étant une protéine soluble donc dépourvue de la portion transmembranaire et intracytoplasmique, le récepteur DcR3 est incapable d’effectuer une transduction de signal intracellulaire à la suite de son interaction avec ses ligands. De ce fait, DcR3 joue un rôle de compétiteur pour ces derniers, afin d’inhiber la signalisation via leurs récepteurs fonctionnels tels que Fas, HVEM/LTbetaR et DR3. Lors de nos précédentes études, nous avons pu démontrer, que DcR3 pouvaist moduler la fonction des cellules immunitaires, et aussi protéger la viabilité des îlots de Langerhans. À la suite de ces résultats, nous avons généré des souris DcR3 transgéniques (Tg) en utilisant le promoteur du gène β-actine humaine afin d’étudier plus amplement la fonction de ce récepteur. Les souris Tg DcR3 ont finalement développé le syndrome lupus-like (SLE) seulement après l’âge de 6 mois. Ces souris présentent une variété d'auto-anticorps comprenant des anticorps anti-noyaux et anti-ADN. Elles ont également manifesté des lésions rénales, cutanées, hépatiques et hématopoïétiques. Contrairement aux modèles de lupus murin lpr et gld, les souris DcR3 sont plus proche du SLE humain en terme de réponse immunitaire de type Th2 et de production d'anticorps d'anti-Sm. En péus, nous avons constaté que les cellules hématopoïétiques produisant DcR3 sont suffisantes pour causer ces pathologies. DcR3 peut agir en perturbant l’homéostasie des cellules T pour interférer avec la tolérance périphérique, et ainsi induire l'autoimmunité. Chez l'humain, nous avons détecté dans le sérum de patients SLE des niveaux élevés de la protéine DcR3. Chez certains patients, comme chez la souris, ces niveaux sont liés directement aux titres élevés d’IgE. Par conséquent, DcR3 peut représenter un facteur pathogénique important du SLE humain. L’étude des souris Tg DcR3, nous a permis aussi d’élucider le mécanisme de protection des îlots de Langerhans. Le blocage de la signalisation des ligands LIGHT et TL1A par DcR3 est impliqué dans une telle protection. D'ailleurs, nous avons identifié par ARN microarray quelques molécules en aval de cette interaction, qui peuvent jouer un rôle dans le mécanisme d’action. Nous avons par la suite confirmé que Adcyap1 et Bank1 joue un rôle critique dans la protection des îlots de Langerhans médiée par DcR3. Notre étude a ainsi élucidé le lien qui existe entre la signalisation apoptotique médiée par Fas/FasL et la pathogénèse du SLE humain. Donc, malgré l’absence de mutations génétiques sur Fas et FasL dans le cas de cette pathologie, DcR3 est capable de beoquer cette signalisation et provoquer le SLE chez l’humain. Ainsi, DcR3 peut simultanément interférer avec la signalisation des ligands LIGHT et TL1A et causer un phénotype plus complexe que les phénotypes résultant de la mutation de Fas ou de FasL chez certains patients. DcR3 peut également être utilisé comme paramètre diagnostique potentiel pour le SLE. Les découvertes du mécanisme de protection des îlots de Langerhans par DcR3 ouvrent la porte vers de nouveaux horizons afin d'explorer de nouvelles cibles thérapeutiques pour protéger la greffe d'îlots. / Decoy receptor 3 (DcR3) is a member of the tumor necrosis factor (TNF) receptor family, and is widely expressed in human normal tissues and malignant tumors. It is a decoy receptor of three TNF family members, i.e., FasL, LIGHT and TL1A. The interaction of DcR3 and its ligands will not transmit signal into cells via DcR3 because DcR3 is a soluble protein without a transmembrane and intracellular segment. Thereby, DcR3 competitively inhibits signaling through three functional receptors, i.e., Fas, HVEM/LTbetaR and DR3. In previous studies, we found that DcR3 could modulate immune cell function, and protect islet viability. Herein, we generated DcR3 transgenic (Tg) mice driven by the human β-actin promoter to further investigate the function of DcR3. Interestingly, the DcR3 Tg mice developed a lupus-like syndrome at 6 months of age. They presented a variety of autoantibodies including anti-nucleus and anti-dsDNA antibodies. They also manifested renal, dermal, hepatic and hematopoietic lesions. Compared to lpr and gld mouse lupus models, DcR3 Tg mice more closely resembled human SLE in terms of Th2-biased immune response and anti-Sm antibody production. Furthermore, we found that DcR3-producing hematopoietic cell were sufficient to cause these pathological changes. Mechanistically, DcR3 may break T-cell homeostasis to interfere with peripheral tolerance, and then induce autoimmunity. In humans, we detected high DcR3 levels in SLE patient sera. The high DcR3 levels were related to elevated IgE titer in some SLE patients, as was the case in the mouse model. Therefore, DcR3 may represent an important pathogenetic factor of human SLE. Utilizing the DcR3 Tg mouse, we further elucidated the mechanism by which DcR3 protected islets from primary nonfunction (PNF). Blocking of LIGHT and TL1A signaling by DcR3 are involved in such protection. Moreover, by mRNA microarray we identified possible downstream molecules, which may mediate such protection. We confirmed that Adcyap1 and Bank1 played critical roles in mediating DcR3’s effect in islet protection. Our studies resolved a puzzle about the relationship between the Fas/FasL apoptosis signaling pathway and the pathogenesis of human SLE. DcR3 can block Fas/FasL pathway even if there is no genetic mutation in Fas and FasL. DcR3 can simultaneously interfere with LIGHT and TL1A signaling to cause a more complex phenotype than the simple Fas or FasL mutation in patients. DcR3 can also be employed as a potential diagnostic parameter for SLE. The discovery of the mechanism of DcR3 in protecting islets allows us to explore novel therapeutic targets to protect islet graft. DcR3 transgenic systemic lupus erythematosus islet transplantation primary nonfunction ( PNF) transgénique transplantation d'îlots
276	The Role of Plasmacytoid Dendritic Cells and Natural Killer Cells in Systemic Lupus Erythematosus Hagberg, Niklas January 2014 (has links) Systemic lupus erythematosus (SLE) is an autoimmune disease characterized by autoantibody production, which can eventually lead to immune complex (IC)-mediated organ damage. Due to the stimulation of plasmacytoid dendritic cells (pDC) by nucleic acid-containing ICs (DNA- or RNA-IC), patients with SLE have an ongoing interferon (IFN)-α production. IFN-α induces a general activation of the immune system that may initiate or propagate an autoimmune process if not properly regulated. Previous studies have shown that natural killer (NK) cells potently enhance the IFN-α production by pDCs. In study I, the mechanisms behind the NK cell-mediated increased IFN-α production by RNA-IC-stimulated pDCs were investigated. ICs triggered CD56dim NK cells via FcγRIIIA to the secretion of cytokines (e.g. MIP-1β) that promoted IFN-α production. Additionally, an LFA-1-dependent cell-cell interaction between pDCs and NK cells strongly contributed to the increased production of IFN-α. In study II, the RNA-IC-induced regulation of surface molecules on pDCs and NK cells was investigated. The expression of CD319 and CD229, which are two SLAM family receptors genetically associated with SLE, was induced on pDCs and NK cells by RNA-IC. IFN-α-producing pDCs displayed an increased expression of CD319 and CD229, whereas pDCs from patients with SLE had a decreased expression of CD319. In study III, we serendipitously identified an SLE patient harboring autoantibodies to the NK cell receptor CD94/NKG2A. In study IV, sera from 203 patients with SLE were analyzed for autoantibodies to the CD94/NKG2A, CD94/NKG2C and NKG2D receptors. Seven patients harbored anti-CD94/NKG2A autoantibodies, and two of these patient’s autoantibodies also reacted with CD94/NKG2C. Anti-CD94/NKG2A and anti-CD94/NKG2C autoantibodies both interfered with the HLA-E-mediated regulation of NK cell cytotoxicity, and facilitated the elimination of target cells expressing these receptors. Furthermore, these autoantibodies were found in a group of severely diseased SLE patients and their titers closely followed disease activity. In conclusion, this thesis provides insights to molecular mechanisms whereby NK cells regulate the IFN-α production, it further links the SLAM receptors to SLE, and it describes novel autoantibodies to receptors regulating NK cell cytotoxicity. Together these findings strengthen the assumption that NK cells are involved in the pathogenesis of SLE. Systemic lupus erythematosus plasmacytoid dendritic cells natural killer cells type I interferon immune complex SLAM receptors autoantibodies CD94/NKG2A CD94/NKG2C
277	Long-term outcome of patients with rheumatoid arthritis and systemic lupus erythematosus with special reference to cardiovascular disease / Björnådal, Lena, January 2004 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.
278	Immune monitoring in humans after manipulation by B cell depletion and immunization / Vallerskog, Therese, January 2007 (has links) Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.
279	Avaliação de fatores angiogênicos e antiangiogênicos em pacientes com lúpus eritematoso sistêmico / Evaluation of angiogenic and antiangiogenic factors in patients with systemic lupus erythematosus Guilherme Ribeiro Ramires de Jesús 26 June 2014 (has links) O lúpus eritematoso sistêmico (LES) é uma doença autoimune cuja fisiopatologia envolve mecanismos imunológicos, incluindo distúrbios nos processos de morte celular e nos mecanismos de eliminação de autoantígenos e de tolerância, acompanhados da formação de autoanticorpos patogênicos. Ele acomete principalmente mulheres jovens e a gestação nestas pacientes apresenta significativa morbimortalidade. Os achados clínicos e laboratoriais na nefrite lúpica são semelhantes àqueles encontrados em pacientes com pré-eclâmpsia (PE), especificamente hipertensão arterial, proteinúria e edema. Foi proposto o uso de fatores angiogênicos, como o fator de crescimento vascular endotelial (VEGF) e o fator de crescimento placentário (PlGF), e antiangiogênicos, como o receptor Fms-like tirosina quinase 1 solúvel (sFlt-1), para o diagnóstico diferencial entre estas duas condições, no entanto os dados disponíveis na literatura sobre estas citocinas em pacientes não gestantes com LES são inconsistentes. Este estudo foi desenhado para avaliar se existe diferença entre os níveis séricos de VEGF, PlGF e sFlt-1 em pacientes com LES com e sem atividade sistêmica da doença e se existe diferença nesses fatores quando comparamos pacientes com LES e mulheres saudáveis. Foram incluídas 54 mulheres com diagnóstico de LES em acompanhamento no ambulatório de Reumatologia do HUPE-UERJ, sem outra doença autoimune diagnosticada, e divididas de acordo com a atividade da doença. 30 pacientes tinham doença inativa (SLEDAI médio: 0,7) e 24 tinham doença ativa (SLEDAI médio: 11,6). 23 mulheres deste último grupo possuíam nefrite ativa, enquanto 20 das pacientes com doença em remissão já haviam apresentado nefrite ao longo da evolução do LES. O grupo controle foi formado por 34 mulheres hígidas atendidas no ambulatório de ginecologia da Policlínica Piquet Carneiro-UERJ. Considerando as três citocinas estudadas, as pacientes com LES apresentaram valores séricos médios superiores às mulheres do grupo controle (VEGF: 319,0 + 226,0 x 206,2 + 119,4, p=0,02; PlGF: 42,2 + 54,1 x 13,6 + 21,6, p=0,02; sFlt-1: 107,9 + 49,2 x 70,2 + 95,0, p=0,01). O grupo de pacientes com doença ativa também apresentou média superior ao controle nos três fatores (VEGF: 331,0 + 216,8 x 206,2 + 119,4, p=0,02; PlGF: 41,2 + 47,3 x 13,6 + 21,6, p=0,02; sFlt-1: 120,5 + 42,4 x 70,2 + 95,0, p=0,02), enquanto não foi encontrada diferença estatística entre o grupo de LES inativo e o controle. A média do sFlt-1 sérico foi maior nas pacientes com LES ativo do que a média das pacientes com a doença em remissão (120,5 + 54,9 x 97,8 + 42,4, p=0,02), mas não houve diferença significativa da média do VEGF e PlGF séricos entre os dois grupos. O melhor entendimento dos fatores angiogênicos e antiangiogênicos em pacientes com LES proporcionado por este estudo nos permite a análise dessas citocinas em gestantes com LES e, possivelmente, sua posterior aplicação como método diferencial entre nefrite lúpica e PE. / Systemic lupus erythematosus (SLE) is an autoimmune disease which pathophysiology involves immunological mechanisms including disturbances in the processes of cell death and mechanisms of elimination of autoantigens and tolerance, accompanied by formation of pathogenic autoantibodies. It mainly affects young women and pregnancy in these patients have significant morbidity and mortality. Clinical and laboratory findings in lupus nephritis are similar to those found in patients with preeclampsia (PE), specifically hypertension, proteinuria and edema. It has been proposed the use of angiogenic factors, such as vascular endothelial growth factor (VEGF) and placental growth factor (PlGF), and antiangiogenic factors, as soluble Fms-like tyrosine kinase-1 (sFlt-1), for the differential diagnosis between these two conditions, however available data in the literature about these cytokines in non-pregnant SLE patients are inconsistent. This study was designed to evaluate whether there are differences between serum levels of VEGF, PlGF and sFlt-1 in SLE patients with and without systemic disease activity and whether there are differences in these factors when comparing SLE patients with healthy women. 54 women with SLE followed at outpatient clinic of Rheumatology HUPE - UERJ were included. They had no other autoimmune disease diagnosed and were divided according to disease activity. 30 patients had inactive disease (mean SLEDAI: 0.7), and 24 had active disease (mean SLEDAI: 11.6). 23 women in this latter group had active nephritis, while 20 patients with inactive disease had history of lupus nephritis. The control group consisted of 34 healthy women who attended the Gynecology outpatient clinic at Policlínica Piquet Carneiro - UERJ. Considering the three studied cytokines, the SLE patients had higher mean serum levels than the control group (VEGF: 319.0 + 226.0 x 206.2 + 119.4, p=0.02; PlGF: 42.2 + 54.1 x 13.6 + 21.6, p=0.02; sFlt-1: 107.9 + 49.2 x 70.2 + 95.0, p=0.01). The group of patients with active disease also had higher mean levels of all three factors than controls (VEGF: 331.0 + 216.8 x 206.2 + 119.4, p=0.02; PlGF: 41.2 + 47.3 x 13.6 + 21.6, p=0.02; sFlt-1: 120.5 + 42.4 x 70.2 + 95.0, p=0.02), whereas no statistical difference was found between the group with inactive SLE and the control group. The mean sFlt-1 levels were higher in patients with active SLE than the mean levels of patients with inactive disease (120.5 + 54.9 x 97.8 + 42.4, p=0.02), but there was no significant difference in mean serum of VEGF and PlGF levels between these two groups. A better understanding of angiogenic and antiangiogenic factors in patients with SLE provided by this study allows the analysis of these cytokines in pregnant woman with SLE and possibly their subsequent application as differential method between PE and lupus nephritis. Lúpus eritematoso sistêmico Nefrite lúpica VEGF PlGF sFlt-1 Systemic lupus erythematosus Lupus nephritis Vascular endothelial growth factor VEGF PlGF sFlt-1 REUMATOLOGIA
280	Perfil da atividade de ectonucleotidases em plaquetas e agregação plaquetária em pacientes com lúpus eritematosos sistêmico / Profilet of the ectonucleotidase activity and platelets agreggation in systemic erythematosus lupus patients Rosa, Cíntia Saydelles da 28 May 2010 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Systemic Lupus Erythematosus (SLE) is a chronic inflammatory disease that affects mostly women in reproductive age and sometimes cause permanent damage. The development of cardiovascular disease, especially atherosclerosis, is the leading cause of death in SLE. However, its etiology and relationship with the development of atherosclerosis remain unknown. Several studies have shown that platelets have relevant properties to thrombogenesis, such as the release of ADP, a molecule capable of inducing platelet aggregation. Adenosine, derived from the hydrolysis of ATP and ADP, in turn has antiagreggant properties. The control of extracellular levels theses molecules and subsequent purinergic signaling induced by them is carried out by enzymes NTPDase, E-NPP, 5'-nucleotidase and ADA. Therefore, the objective of this study was to evaluate the activity of these ectonucleotidases in platelets and platelet aggregation profile in patients with LES. An increase in the activity of the enzymes NTPDase, E-NPP, 5'-nucleotidase and ADA was observed in platelets of patients with lupus compared with control subjects. No difference on platelet aggregation of patients with lupus was observed when compared to control. The increase in activity of E-NTPDase, E-NPP and 5'-nucleotidase seems to be a compensatory organic response against the pathological condition, to generate higher concentration of adenosine. But the ADA activity also is increased in platelets of patients with SLE and may decrease the concentration of adenosine, which favors prothrombotics process. Thus, the results suggest that the ectoenzymes may be involved in the modulation of atherosclerotic processes that occur in SLE. / O lúpus Eritematoso Sistêmico é uma doença crônica, inflamatória e sistêmica, que afeta principalmente mulheres em idade reprodutiva e desencadeia danos permanentes na maioria dos casos. O desenvolvimento de doenças cardiovasculares, especialmente aterosclerose, é a principal causa de morte em pacientes lúpicos. Entretanto sua etiologia e relação com o desenvolvimento de aterosclerose permanecem desconhecidos. Vários estudos demonstraram que as plaquetas apresentam propriedades relevantes na trombogênese, como a liberação de ADP, uma molécula capaz de induzir a agregação plaquetária. A adenosina, proveniente da hidrólise do ATP e ADP, por sua vez apresenta propriedades antiagregantes. O controle dos níveis extracelulares destas moléculas e a consequente sinalização purinérgica por elas induzidas é realizado pelas enzimas NTPDase, E-NPP, 5'-nucleotidase e ADA. Sendo assim, o objetivo deste trabalho foi avaliar a atividade destas ectonucleotidases em plaquetas bem como o perfil da agregação plaquetária em pacientes lúpicos. Um aumento na atividade das enzimas NTPDase, E-NPP, 5'-nucleotidase e ADA foi observado em plaquetas de pacientes com LES, quando comparado com sujeitos controles. Nenhuma diferença no perfil de agregação plaquetária de pacientes lúpicas foi observada, quando comparado ao controle. O aumento na atividade da NTPDase, da E-NPP e da 5'-nucleotidase parece ser uma resposta compensatória orgânica frente ao estado patológico para gerar maior concentração de adenosina. Porém a atividade da ADA também encontra-se aumentada em plaquetas de pacientes com diagnóstico de LES, podendo diminuir a concentração de adenosina, o que favorece estágios prótrombóticos. Desse modo, os resultados encontrados sugerem que as ectoenzimas podem estar envolvidas na modulação dos processos ateroscleróticos que ocorrem no LES. LES Aterosclerose Plaquetas NTPDase E-NPP ADA Agregação plaquetária Systemic Lupus Erythematosus Atherosclerosis Platelets NTPDase ENPP ADA Platelets aggregation CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

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