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1	As bases moleculares das hipercolesterolemias familiares no Brasil: o Rio Grande do Sul / The molecular bases of the familial hypercholesterolemia in Brazil: Rio Grande do Sul. Werutsky, Carlos Alberto 27 October 2006 (has links) A hipercolesterolemia familiar (HF) é uma doença autossômica dominante causada por mutações no gene do receptor de LDL (LDLR) (cromossomo 19p13.1 - p13.3), que alteram parcialmente ou totalmente a função do LDLR. A HF é também uma das doenças genéticas mais comuns com freqüências estimadas de heterozigotos e homozigotos de 1/500 e 1/1.000.000, respectivamente. Manifesta-se com altos níveis de LDL colesterol, arco corneal, xantomas tendíneos e sintomas prematuros de doença coronariana.. A grande heterogeneidade observada na manifestação clínica desta doença pode ser explicada, ao menos parcialmente, pelo amplo espectro de mutações no gene do LDLR. O presente estudo teve por objetivo a caracterização molecular do gene LDLR em pacientes com HF do Rio Grande do Sul (RS), Brasil. Para isso, foram obtidas amostras de DNA de 40 indivíduos provenientes de cinco macrorregiões do Estado, representando seis diferentes populações de ascendência européia, para a realização do seqüenciamento direto do gene do LDLR, com posterior análise por meio das ferramentas de bioinformática. Quinze mutações pontuais foram identificadas no gene do LDLR, a saber: c.408C>T (D115D), c.1616C>T (P518L), c.1773C>T (N570N) e c.2243A>G (D727G) na região codificadora, IVS6+36G>A, IVS6+171G>A, IVS11+56C>T, IVS11- 69G>T, IVS11-55A>C, IVS15-136A>G, IVS16+46C>T e IVS17-42A>G na região intrônica, e 52G>A, 105T>G e 141G>A na região 3\'-UTR. Destas, oito ainda não foram descritas na literatura (três situadas nos exons, quatro nos introns e uma na região 3\'-UTR). A mutação52G>A foi previamente identificada em pacientes com HF da região Sudeste do Brasil, sugerindo que possa exercer um importante efeito na patogênese da HF em pacientes brasileiros. Em relação às macrorregiões do RS, os portugueses, italianos e espanhóis apresentaram o maior número de mutações dentre os grupos étnicos analisados. Assim, os resultados obtidos confirmam que existe um amplo de espectro de mutações no gene do LDLR. As mutações nas regiões intrônicas precisam ser investigadas sobre seu efeito potencial no desenvolvimento de HF. Considerando que este é o primeiro estudo que teve por objetivo a caracterização molecular de pacientes com HF no RS, novos estudos que visem a elucidação das bases moleculares da HF devem ser realizados, a fim de obter uma melhor caracterização genética desta doença no Brasil. / Familial hypercholesterolemia (FH) is an autosomal dominant disorder caused by mutations in the low-density lipoprotein receptor (LDLR) gene (chromosome 19p13.1 - p13.3), which alter partially or totally the LDLR function. FH is also one of the most common inherited disorders with frequencies of heterozygotes and homozygotes estimated to be 1/500 and 1/1.000.000, respectively. Affected individuals display high levels of LDL cholesterol, arcus corneae, tendon xanthomas and premature symptomatic coronary heart disease. The extensive heterogeneity observed in the clinical manifestation of this disorder may be explained, at least partially, by the broad spectrum of mutations identified in the LDLR gene. The present study had as the main goal the molecular characterization of the LDLR gene in patients with FH from Rio Grande do Sul (RS) State, Brazil. For this, DNA samples were obtained from 40 individuals living in five macroregions of RS, representing six different isolated populations of European ascendancy. The LDLR gene was subjected to the direct sequencing with further analysis through bioinformatics tools. Fifteen punctual mutations were identified in the LDLR gene, namely: c.408C>T (D115D), c.1616C>T (P518L), c.1773C>T (N570N) and c.2243A>G (D727G) in the coding region, IVS6+36G>A, IVS6+171G>A, IVS11+56C>T, IVS11-69G>T, IVS11-55A>C, IVS15-136A>G, IVS16+46C>T and IVS17-42A>G in the intronic region, and 52G>A, 105T>G and 141G>A in the 3\'-UTR region. Of these, eight were not yet described in the literature (three situated in exons, four in introns and one in 3\'- UTR region). The 52G>A mutation was previously identified in FH patients from Southeast Brazil, suggesting that it can exert an important effect in the pathogenesis of FH in Brazilian patients. In relation to the macroregions of Rio Grande do Sul, Portuguese, Italian and Spanish subjects carried the highest number of mutations among the ethnic groups analyzed. Thus, the results obtained confirm the existence of a broad spectrum of mutations in the LDLR gene. The mutations in intronic regions need to be investigated in relation to its potential effect in the development of FH. Taking into account that this is the first study that had as the goal the molecular characterization of FH patients in RS, further studies aimed at elucidating the molecular bases of FH should be performed, in order to obtain the better characterization of this disease in Brazil. bases moleculares familial hypercholesterolemia hipercolesterolemia familiar LDL receptor (LDLR) molecular bases mutações mutations receptor do LDL (LDLR)
2	Characterization of PCSK9-mediated LDLR Degradation in Hepatic and Fibroblast Cells Nguyen, My-Anh 13 September 2013 (has links) The discovery that proprotein convertase subtilisin/kexin type 9 (PCSK9) mediates degradation of low-density lipoprotein receptors (LDLR) indicates a critical role in LDL metabolism. PCSK9 is a secreted protein that binds to the epidermal growth factor-like (EGF)-A domain of LDLR and directs the receptor for degradation in lysosomes by an unknown mechanism. A gain-of-function mutation, D374Y, increases binding to LDLR EGF-A >10-fold and is associated with a severe form of hypercholesterolemia in humans. Similar to previous studies, data obtained in my project has established that PCSK9 was capable of promoting robust LDLR degradation in liver-derived cell lines; however, minimal effects on LDLR levels were detected in several lines of fibroblast cells despite normal LDLR-dependent cellular uptake of PCSK9. Importantly, a PCSK9 degradation assay showed that 125I-labeled wild-type PCSK9 was internalized and degraded equally in both hepatic and fibroblast cells, indicating dissociation of wild-type PCSK9 from recycling LDLRs in fibroblasts. Moreover, PCSK9 recycling assays confirmed that no recycling of wild-type PCSK9 to the cell surface could be detected in fibroblast cells. In contrast, more than 60% of internalized PCSK9-D374Y recycled to the cell surface in these cells, and thus had reduced ability to direct the LDLR for lysosomal degradation despite persistent binding. Co-localization studies indicated that PCSK9-D374Y trafficked to both lysosomes and recycling compartments in fibroblast cells, whereas wild-type PCSK9 exclusively trafficked to lysosomes. We conclude that two factors diminish PCSK9 activity in fibroblast cells: i) an increased dissociation from the LDLR in early endosomal compartments, and ii) a decreased ability of bound PCSK9 to direct the LDLR to lysosomes for degradation. Finally, an LDLR variant that binds to PCSK9 in a Ca2+-independent manner could partially restore wild-type PCSK9 activity, but not PCSK9-D374Y activity, in fibroblast cells. Wild-type PCSK9 PCSK9-D374Y LDL receptor degradation hepatic cells fibroblast cells
3	Genetic susceptibility in Alzheimer's Disease and the role of lipid metabolism Miller, Katherine. January 2007 (has links) Thesis (Ph. D.)--Case Western Reserve University, 2006. / [School of Medicine] Department of Epidemiology and Biostatistics. Includes bibliographical references. Available online via OhioLINK's ETD Center.
4	As bases moleculares das hipercolesterolemias familiares no Brasil: o Rio Grande do Sul / The molecular bases of the familial hypercholesterolemia in Brazil: Rio Grande do Sul. Carlos Alberto Werutsky 27 October 2006 (has links) A hipercolesterolemia familiar (HF) é uma doença autossômica dominante causada por mutações no gene do receptor de LDL (LDLR) (cromossomo 19p13.1 - p13.3), que alteram parcialmente ou totalmente a função do LDLR. A HF é também uma das doenças genéticas mais comuns com freqüências estimadas de heterozigotos e homozigotos de 1/500 e 1/1.000.000, respectivamente. Manifesta-se com altos níveis de LDL colesterol, arco corneal, xantomas tendíneos e sintomas prematuros de doença coronariana.. A grande heterogeneidade observada na manifestação clínica desta doença pode ser explicada, ao menos parcialmente, pelo amplo espectro de mutações no gene do LDLR. O presente estudo teve por objetivo a caracterização molecular do gene LDLR em pacientes com HF do Rio Grande do Sul (RS), Brasil. Para isso, foram obtidas amostras de DNA de 40 indivíduos provenientes de cinco macrorregiões do Estado, representando seis diferentes populações de ascendência européia, para a realização do seqüenciamento direto do gene do LDLR, com posterior análise por meio das ferramentas de bioinformática. Quinze mutações pontuais foram identificadas no gene do LDLR, a saber: c.408C>T (D115D), c.1616C>T (P518L), c.1773C>T (N570N) e c.2243A>G (D727G) na região codificadora, IVS6+36G>A, IVS6+171G>A, IVS11+56C>T, IVS11- 69G>T, IVS11-55A>C, IVS15-136A>G, IVS16+46C>T e IVS17-42A>G na região intrônica, e 52G>A, 105T>G e 141G>A na região 3\'-UTR. Destas, oito ainda não foram descritas na literatura (três situadas nos exons, quatro nos introns e uma na região 3\'-UTR). A mutação52G>A foi previamente identificada em pacientes com HF da região Sudeste do Brasil, sugerindo que possa exercer um importante efeito na patogênese da HF em pacientes brasileiros. Em relação às macrorregiões do RS, os portugueses, italianos e espanhóis apresentaram o maior número de mutações dentre os grupos étnicos analisados. Assim, os resultados obtidos confirmam que existe um amplo de espectro de mutações no gene do LDLR. As mutações nas regiões intrônicas precisam ser investigadas sobre seu efeito potencial no desenvolvimento de HF. Considerando que este é o primeiro estudo que teve por objetivo a caracterização molecular de pacientes com HF no RS, novos estudos que visem a elucidação das bases moleculares da HF devem ser realizados, a fim de obter uma melhor caracterização genética desta doença no Brasil. / Familial hypercholesterolemia (FH) is an autosomal dominant disorder caused by mutations in the low-density lipoprotein receptor (LDLR) gene (chromosome 19p13.1 - p13.3), which alter partially or totally the LDLR function. FH is also one of the most common inherited disorders with frequencies of heterozygotes and homozygotes estimated to be 1/500 and 1/1.000.000, respectively. Affected individuals display high levels of LDL cholesterol, arcus corneae, tendon xanthomas and premature symptomatic coronary heart disease. The extensive heterogeneity observed in the clinical manifestation of this disorder may be explained, at least partially, by the broad spectrum of mutations identified in the LDLR gene. The present study had as the main goal the molecular characterization of the LDLR gene in patients with FH from Rio Grande do Sul (RS) State, Brazil. For this, DNA samples were obtained from 40 individuals living in five macroregions of RS, representing six different isolated populations of European ascendancy. The LDLR gene was subjected to the direct sequencing with further analysis through bioinformatics tools. Fifteen punctual mutations were identified in the LDLR gene, namely: c.408C>T (D115D), c.1616C>T (P518L), c.1773C>T (N570N) and c.2243A>G (D727G) in the coding region, IVS6+36G>A, IVS6+171G>A, IVS11+56C>T, IVS11-69G>T, IVS11-55A>C, IVS15-136A>G, IVS16+46C>T and IVS17-42A>G in the intronic region, and 52G>A, 105T>G and 141G>A in the 3\'-UTR region. Of these, eight were not yet described in the literature (three situated in exons, four in introns and one in 3\'- UTR region). The 52G>A mutation was previously identified in FH patients from Southeast Brazil, suggesting that it can exert an important effect in the pathogenesis of FH in Brazilian patients. In relation to the macroregions of Rio Grande do Sul, Portuguese, Italian and Spanish subjects carried the highest number of mutations among the ethnic groups analyzed. Thus, the results obtained confirm the existence of a broad spectrum of mutations in the LDLR gene. The mutations in intronic regions need to be investigated in relation to its potential effect in the development of FH. Taking into account that this is the first study that had as the goal the molecular characterization of FH patients in RS, further studies aimed at elucidating the molecular bases of FH should be performed, in order to obtain the better characterization of this disease in Brazil. bases moleculares hipercolesterolemia familiar mutações receptor do LDL (LDLR) familial hypercholesterolemia LDL receptor (LDLR) molecular bases mutations
5	Characterization of PCSK9-mediated LDLR Degradation in Hepatic and Fibroblast Cells Nguyen, My-Anh January 2013 (has links) The discovery that proprotein convertase subtilisin/kexin type 9 (PCSK9) mediates degradation of low-density lipoprotein receptors (LDLR) indicates a critical role in LDL metabolism. PCSK9 is a secreted protein that binds to the epidermal growth factor-like (EGF)-A domain of LDLR and directs the receptor for degradation in lysosomes by an unknown mechanism. A gain-of-function mutation, D374Y, increases binding to LDLR EGF-A >10-fold and is associated with a severe form of hypercholesterolemia in humans. Similar to previous studies, data obtained in my project has established that PCSK9 was capable of promoting robust LDLR degradation in liver-derived cell lines; however, minimal effects on LDLR levels were detected in several lines of fibroblast cells despite normal LDLR-dependent cellular uptake of PCSK9. Importantly, a PCSK9 degradation assay showed that 125I-labeled wild-type PCSK9 was internalized and degraded equally in both hepatic and fibroblast cells, indicating dissociation of wild-type PCSK9 from recycling LDLRs in fibroblasts. Moreover, PCSK9 recycling assays confirmed that no recycling of wild-type PCSK9 to the cell surface could be detected in fibroblast cells. In contrast, more than 60% of internalized PCSK9-D374Y recycled to the cell surface in these cells, and thus had reduced ability to direct the LDLR for lysosomal degradation despite persistent binding. Co-localization studies indicated that PCSK9-D374Y trafficked to both lysosomes and recycling compartments in fibroblast cells, whereas wild-type PCSK9 exclusively trafficked to lysosomes. We conclude that two factors diminish PCSK9 activity in fibroblast cells: i) an increased dissociation from the LDLR in early endosomal compartments, and ii) a decreased ability of bound PCSK9 to direct the LDLR to lysosomes for degradation. Finally, an LDLR variant that binds to PCSK9 in a Ca2+-independent manner could partially restore wild-type PCSK9 activity, but not PCSK9-D374Y activity, in fibroblast cells. Wild-type PCSK9 PCSK9-D374Y LDL receptor degradation hepatic cells fibroblast cells
6	Role of Macrophage Apoptosis in Atherosclerosis. Liu, June 18 December 2004 (has links) (PDF) The presence of apoptotic cells in atherosclerotic lesions has been broadly reported in the past ten years. The majority of these apoptotic cells are macrophages. However, the pathogenic role of macrophage apoptosis in the development of atherosclerosis remains to be elucidated. Elevated expression of Bax, one of the pivotal pro-apoptotic proteins of the Bcl-2 family, has been found in human atherosclerotic plaques. Activation of Bax also occurs in free cholesterol-loaded and oxysterol treated mouse macrophages. In this study, we evaluated the influence of Bax deficiency on apoptosis in macrophage-like P388D1 cells by using small interfering RNA (siRNA) to suppress Bax expression, as well as in peritoneal macrophages isolated from Bax null mice (Bax-/-). Apoptotic activities in both cell types deficient for Bax were significantly reduced compared to that in control cells. To examine the effect of macrophage Bax deficiency on the development of atherosclerosis, fourteen 8-week-old male LDL-receptor null (LDLR-/-) mice were lethally irradiated and reconstituted with either wild type (WT) C57BL6 or Bax-/- bone marrow. Three weeks later, the mice were challenged with a Western diet for 10 weeks. No differences were found in the plasma cholesterol level between the WT and Bax-/- group. However, quantitation of cross sections from proximal aortas revealed a 49.2% increase (P=0.0259) in the mean lesion area of the Bax-/- group compared to the WT group. A 53% decrease in apoptotic macrophages in the Bax-/- group was found by TUNEL staining (P<0.05). In conclusion, Bax deficiency produces a reduction of apoptotic activity in macrophages and is associated with the accelerated atherosclerosis in LDLR null mice fed a Western diet. These results strongly support our hypothesis that macrophage apoptosis suppresses the development of atherosclerosis. LDL Receptor oxysterols Bax macrophage atherosclerosis apoptosis Medical Sciences Medicine and Health Sciences
7	Nanoemulsão contendo 7-cetocolesterol (LDE/7KC) promove inibição do crescimento de melanoma em camundongos e aumento de sobrevida / A 7-ketocholesterol containing-nanoemulsion (LDE/7KC) inhibits growth of melanoma tumor in mice and increases survival rate Favero, Giovani Marino 09 April 2007 (has links) 7-cetocoleterol (7KC) é um oxisterol conhecido por inibir a proliferação celular e por ser citotóxico. Desenvolvemos uma nanoemulsão contendo 7KC (LDE/7KC) que demonstrou efeito anti-proliferativo sobre as linhagens RPMI 8226 (mieloma) e melanoma (B16F10), in vitro, sendo preferencialmente captada via receptores de LDL. No presente trabalho avaliamos, in vivo, a cinética plasmática, biodistribuição, ação anti-tumoral e parâmetros tóxico-hematológicos em camundongos portadores de melanoma. A cinética plasmática apresentou um decaimento estatisticamente igual entre os animais portadores de melanoma e não portadores. Em relação à biodistribuição da nanoemulsão, houve um acúmulo de seus componentes radioativamente marcados, principalmente no fígado e no tumor, sugerindo sua captação via receptores de LDL. LDE/7KC promoveu uma redução superior a cinqüenta por cento do tamanho do tumor, que apresentou maior área de necrose e menor quantidade de vasos. Nos camundongos tratados com LDE/7KC houve um aumento da sobrevida. As análises toxico-hematológicas demonstraram que a nanoemulsão apresentou pouca ou nenhuma toxicidade. Os resultados demonstram a possibilidade da utilização da nanoemulsão LDE/7KC como um agente no tratamento do câncer, com poucos efeitos colaterais, devido a sua seletividade aos receptores da LDL. / 7-ketocholesterol (7KC) is an oxysterol known to inhibit cell proliferation and to be cytotoxic. A nanoemulsion containing-7KC (LDE/7KC) was shown to have antiproliferative effects on RPMI 8226 myeloma cell line and melanoma (B16F10), in vitro. This particle is taken up mainly by LDL receptors. Here we have evaluated the plasma kinetic, biodistribution, anti-tumoral action and hematologic toxicity of LDE/7KC in melanoma bearing mice. The nanoemulsion accumulated in the liver and tumor, tissues with a high expression of LDL receptors. LDE/7KC promoted a tumor size reduction over fifty percent. An increased necrosis area and a decreased amount of blood vessels were found. An increased survival rate was observed. The hematolgic analyses demonstrated a lack of toxicicity. The results shows the possibility to use the LDE/7KC nanoemulsion as an agent for cancer treatment, with few collateral effects probably due to its internalization by LDL receptors. Cetocolesteróis Emulsions Emulsões Farmacocinética Ketocholesterol LDL lipoprotein LDL receptor Lipoproteínas do colesterol LDL Melanoma Melanoma experimental Pharmacokinetics. Receptores LDL
8	Kopplungsuntersuchungen zur Identifizierung Atherosklerose assoziierter Genorte und Atherosklerose- modifizierender Faktoren in LDL-Rezeptor defizienten BALB/c und C57BL/6 Mäusen Sündermann, Simon 08 August 2012 (has links) (PDF) Atherosklerotisch bedingte Herz-Kreislauferkrankungen zählen weltweit zu den häufigsten Todesursachen. Die vorliegende Arbeit befasst sich in einem Mausmodell mit der Identifikation neuer Genorte, welche die Ausprägung der Atherosklerose und deren Kofaktoren beeinflussen. Zu diesem Zweck wurde eine Kopplungsuntersuchung in einer Kreuzung Atherosklerose-empfindlicher C57BL/6 und BALB/c Mäuse auf dem LDL-Rezeptor defizienten Hintergrund durchgeführt. Außer der Größe der atherosklerotischen Läsionen wurden 61 weitere Phänotypen bestimmt. Als Hauptergebnis konnte ein neuer Genlocus auf dem proximalen Chromosom 2 identifiziert werden, welcher einen Einfluss auf die Größe der atherosklerotischen Läsionen an der Aortenwurzel hat. Des Weiteren zeigte sich eine Co-Segregation von Lipoproteinen (Very-Low-Density Lipoprotein (VLDL) Cholesterin und High-Density Lipoprotein (HDL) Cholesterin mit diesem Locus sowie eine Korrelation dieser Lipide mit der Läsionsgrösse. Diese Ergebnisse deuten darauf hin, dass der Effekt des Chromosom 2 Lokus auf die Atherosklerose durch genetische Faktoren des Fettstoffwechsels bedingt ist. Weitere Experimente sind notwendig um den QTL weiter einzuengen und die verantwortlichen Gene zu identifizieren. Atherosklerose Kopplungsanalyse Maus Intercross LDL-Rezeptor knock-out Atherosclerosis linkage analysis mouse intercross LDL-receptor knock-out ddc:610
9	Intracellular trafficking of influenza hemagglutinin and members of the low density lipoprotein receptor family Tall, Renee Danielle. January 2004 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 150-177.
10	Nanoemulsão contendo 7-cetocolesterol (LDE/7KC) promove inibição do crescimento de melanoma em camundongos e aumento de sobrevida / A 7-ketocholesterol containing-nanoemulsion (LDE/7KC) inhibits growth of melanoma tumor in mice and increases survival rate Giovani Marino Favero 09 April 2007 (has links) 7-cetocoleterol (7KC) é um oxisterol conhecido por inibir a proliferação celular e por ser citotóxico. Desenvolvemos uma nanoemulsão contendo 7KC (LDE/7KC) que demonstrou efeito anti-proliferativo sobre as linhagens RPMI 8226 (mieloma) e melanoma (B16F10), in vitro, sendo preferencialmente captada via receptores de LDL. No presente trabalho avaliamos, in vivo, a cinética plasmática, biodistribuição, ação anti-tumoral e parâmetros tóxico-hematológicos em camundongos portadores de melanoma. A cinética plasmática apresentou um decaimento estatisticamente igual entre os animais portadores de melanoma e não portadores. Em relação à biodistribuição da nanoemulsão, houve um acúmulo de seus componentes radioativamente marcados, principalmente no fígado e no tumor, sugerindo sua captação via receptores de LDL. LDE/7KC promoveu uma redução superior a cinqüenta por cento do tamanho do tumor, que apresentou maior área de necrose e menor quantidade de vasos. Nos camundongos tratados com LDE/7KC houve um aumento da sobrevida. As análises toxico-hematológicas demonstraram que a nanoemulsão apresentou pouca ou nenhuma toxicidade. Os resultados demonstram a possibilidade da utilização da nanoemulsão LDE/7KC como um agente no tratamento do câncer, com poucos efeitos colaterais, devido a sua seletividade aos receptores da LDL. / 7-ketocholesterol (7KC) is an oxysterol known to inhibit cell proliferation and to be cytotoxic. A nanoemulsion containing-7KC (LDE/7KC) was shown to have antiproliferative effects on RPMI 8226 myeloma cell line and melanoma (B16F10), in vitro. This particle is taken up mainly by LDL receptors. Here we have evaluated the plasma kinetic, biodistribution, anti-tumoral action and hematologic toxicity of LDE/7KC in melanoma bearing mice. The nanoemulsion accumulated in the liver and tumor, tissues with a high expression of LDL receptors. LDE/7KC promoted a tumor size reduction over fifty percent. An increased necrosis area and a decreased amount of blood vessels were found. An increased survival rate was observed. The hematolgic analyses demonstrated a lack of toxicicity. The results shows the possibility to use the LDE/7KC nanoemulsion as an agent for cancer treatment, with few collateral effects probably due to its internalization by LDL receptors. Cetocolesteróis Emulsões Farmacocinética Lipoproteínas do colesterol LDL Melanoma experimental Receptores LDL Emulsions Ketocholesterol LDL lipoprotein LDL receptor Melanoma Pharmacokinetics.

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