Rôle du cholestérol et des récepteurs nucléaires LXRs dans le cancer de la prostate

Pommier, Aurélien

30 November 2010

Au cours de ces dernières décennies, l'augmentation de la consommation de glucides, d'acides gras et de cholestérol liée aux changements des habitudes alimentaires dans la plupart des pays industrialisés est à l'origine de nombreuses pathologies telles que l'obésité, les troubles cardiovasculaires, le développement du diabète de type II et la survenue de cancers. Plusieurs arguments bibliographiques suggèrent notamment que le cholestérol puisse être un élément à risque dans la survenue du cancer de la prostate. D'une part, l'hypercholestérolémie est associée à une augmentation des cas de cancer de la prostate et, d'autre part, les cellules cancéreuses présentent des dérèglements du métabolisme des lipides associés à l'accumulation de cholestérol dans les tumeurs solides. Les objectifs de ces travaux ont été d'analyser le rôle du cholestérol dans le développement du cancer de la prostate et d'étudier le rôle des récepteurs nucléaires LXRs (liver X receptors), régulateurs fondamentaux de l'homéostasie du cholestérol, dans les mécanismes associés à l'initiation et à la progression tumorale. Nos résultats montrent qu'une accumulation de cholestérol, induite par un régime chez les souris déficientes en LXRs, peut initier les premières étapes du développement tumoral par des mécanismes épigénétiques mettant en jeu l'action répressive de l'histone méthyltransférase EZH2 sur des gènes suppresseurs de tumeur. En parallèle, l'activation pharmacologique des LXRs dans des cellules cancéreuses humaines réduit la croissance tumorale en augmentant la mort des cellules par des mécanismes faisant intervenir les rafts lipidiques. Au total, nos travaux révèlent l'existence d'une relation entre la consommation excessive de cholestérol et la modification d'empreintes épigénétiques, mécanisme de plus en plus associé aux processus carcinogéniques. Nos données indiquent également que les LXRs, en s'opposant à l'accumulation de cholestérol intracellulaire, ralentissent l'initiation et la progression du cancer de la prostate. Ainsi, toute stratégie thérapeutique visant à diminuer le cholestérol intra-tumoral, telle que l'activation pharmacologique des LXRs, peut être considérée comme une piste thérapeutique dans le cadre du cancer de la prostate.

Cancer

Prostate

Cholestérol

LXR

Rafts

EZH2

Quantitative analysis of lentivirus incorporation of heterologous viral and non-viral proteins for lung gene therapy

Jung, Cindy

12 November 2007

Gene therapy is the delivery of genetic material to cells for a therapeutic effect. Retroviruses are one of the most common viral vectors used for gene therapy, especially lung gene therapy. However the lung has many physical and immunological barriers to gene transfer vectors, and currently, too few cells are genetically modified for the effective treatment of lung diseases such as cystic fibrosis. One of the main reasons for low cell transduction is the lack of commonly-used receptors for gene therapy vectors on the apical surface of polarized epithelial cells. The objective of this project was to determine how to incorporate proteins into the lentiviral lipid bilayer in order to develop a recombinant retrovirus that can efficiently deliver genes to polarized epithelial cells via their apical membranes. We analyzed the process of incorporating heterologous viral and non-viral proteins into lentiviruses and determined key factors that allowed for successful protein incorporation into the lentiviral lipid bilayer. We found that lipid rafts segregated raft proteins, and for a protein to be incorporated into virus particles, it must be colocalized with lentivirus-associated rafts. When cells were treated with the cholesterol-extracting compound, methyl-beta-cyclodextrin, previously sequestered viral and non-viral raft proteins were then colocalized and non-viral proteins were incorporated into lentiviruses. We also created a lentivirus pseudotyped with envelope proteins from human parainfluenza type 3 (HPIV3), which naturally targets polarized epithelial cells of the lung. Lentiviruses were able to incorporate HPIV3 glycoproteins, hemagglutinin-neuraminidase (HN) and fusion (F), and were able to transduce polarized cells in a manner consistent with lentiviral-mediated transduction via sialated receptors for HPIV3, however titers were too low for clinical use. We increased protein expression of HN and found that while expression, envelope incorporation, and titer increased, lentiviruses still incorporated too few envelope proteins for efficient transduction. We determined low envelope incorporation rates were due to lack of interactions with Gag, and increasing active and passive interactions with Gag enhanced HN and F incorporation into lentiviruses. Overall, this research is significant because it provides insight into viral assembly and protein incorporation for the generation of pseudotyped lentiviruses for human gene transfer.

Retrovirus

Lung gene therapy

Pseudotyping

Lipid rafts

Polarized

Gene therapy

Lungs Diseases

Lentiviruses

Plasma membrane order; the role of cholesterol and links to actin filaments :

Dinic, Jelena

January 2011

The connection between T cell activation, plasma membrane order and actin filament dynamics was the main focus of this study. Laurdan and di-4-ANEPPDHQ, membrane order sensing probes, were shown to report only on lipid packing rather than being influenced by the presence of membrane-inserted peptides justifying their use in membrane order studies. These dyes were used to follow plasma membrane order in live cells at 37°C. Disrupting actin filaments had a disordering effect while stabilizing actin filaments had an ordering effect on the plasma membrane, indicating there is a basal level of ordered domains in resting cells. Lowering PI(4,5)P2 levels decreased the proportion of ordered domains strongly suggesting that the connection of actin filaments to the plasma membrane is responsible for the maintaining the level of ordered membrane domains. Membrane blebs, which are detached from the underlying actin filaments, contained a low fraction of ordered domains. Aggregation of membrane components resulted in a higher proportion of ordered plasma membrane domains and an increase in cell peripheral actin polymerization. This strongly suggests that the attachment of actin filaments to the plasma membrane induces the formation of ordered domains. Limited cholesterol depletion with methyl-beta-cyclodextrin triggered peripheral actin polymerization. Cholesterol depleted cells showed an increase in plasma membrane order as a result of actin filament accumulation underneath the membrane. Moderate cholesterol depletion also induced membrane domain aggregation and activation of T cell signaling events. The T cell receptor (TCR) aggregation caused redistribution of domains resulting in TCR patches of higher order and the bulk membrane correspondingly depleted of ordered domains. This suggests the preexistence of small ordered membrane domains in resting T cells that aggregate upon cell activation. Increased actin polymerization at the TCR aggregation sites showed that actin polymerization is strongly correlated with the changes in the distribution of ordered domains. The distribution of the TCR in resting cells and its colocalization with actin filaments is cell cycle dependent. We conclude that actin filament attachment to the plasma membrane, which is regulated via PI(4,5)P2, plays a crucial role in the formation of ordered domains. / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Submitted. Paper 4: Manuscript.

Membrane Organization

Lipid rafts

Actin

Laurdan

di-4-ANEPPDHQ

Cholesterol

T cell signaling

Colocalization

Generalized Polarization

Clathrin Independent Carriers: Molecular characterisation of a novel clathrin-independent endocytic pathway

Mark Howes

Unknown Date

Endocytosis effectuates a critical interface between the eukaryotic cell and its apposing environment. It is, subsequently, paramount for many physiologically important processes and encompasses a diverse array of mechanisms and pathways. The classical endocytic routes mediated by clathrin and caveolin are the best understood and the molecular roles of their major regulators, such as dynamin, adaptor proteins and various lipid species, are the most comprehensively described. Recent identification of an assortment of constitutive, noncaveolar, clathrin-independent endocytic (CIE) pathways has expanded the endocytic system. Unlike the classical endocytic pathways, little is known about the guiding parameters of CIE routes. Consequently, it is not possible to understand the important cellular roles these pathways may be fulfilling. This study has begun to characterise the very basic parameters governing the morphologically striking Clathrin-Independent Carrier (CLIC) pathway. Development of a diverse molecular toolkit has now allowed the quantitation of endocytic capacity provided by CLICs, the visualisation of subtle sorting components of the CLIC pathway, the isolation of novel CLIC cargo and regulators, and has linked this mechanism to the critical cellular processes of cellular migration and membrane repair. Calculation of the individual capacity of endocytic routes provides important information about the contribution of each pathway to total plasma membrane (PM) uptake and turnover. Quantitation of the volume, surface area and number of structures forming per minute in this study shows that CLICs provide the vast majority of constitutive endocytosis, up to four times the capacity of the clathrin mediated endocytic (CME) pathway. As the equivalent of the entire PM area could pass through the CLIC pathway within 12 minutes it is evident that CLICs are fundamental housekeepers of bulk membrane internalisation. Thus, they are likely to be central regulators of PM homeostasis and turnover. High-resolution tomography, in conjunction with analysis of CLIC cargo trafficking, identifies these carriers as complex, pleiomorphic structures that sort the bulk of membrane to early endosomes and recycle cargo back to the cell surface. Such vast internalisation combined with an ability to rapidly recycle components quickly attributes the CLIC pathway as a complex sorting station. Isolation of novel cargo and regulators has identified a striking array of proteins now associated with the CLIC pathway for the first time. A significant proportion of identified targets localise to lipid-rafts and recycle from the PM, facets consistent with association to the CLIC pathway. Numerous targets have also been directly implicated in clathrin-independent endocytosis by independent groups. Verification of selected cargo, such as CD44, Thy-1 and myoferlin, showing specific internalisation through the CLIC pathway, has provided insight into the sorting ability of the CLIC pathway and links to adhesion turnover and membrane recycling. Consistent with a role in cellular adhesion turnover, it was found that CLICs become polarised within migrating cells. This has shown the first instance of spatial separation between three major endocytic routes, CLICs, caveolae and CME and highlights the important and coordinated roles of multiple endocytic pathways during physiologically significant processes. The specific internalisation of paxillin, Thy-1 and CD44 through CLICs at the leading edge of migrating cells suggests that CLICs rapidly turnover adhesion components for dynamic extracellular sensation during directional cell migration. Indeed, specific ablation of the CLIC pathway significantly impedes cellular migration, implying coordination with CME at the leading edge. This study has defined numerous parameters of the CLIC pathway, developing the current understanding of this poorly defined route and places the CLIC pathway as a unique player during critical cellular processes.

Endocytosis

Endosome

Clathrin-independent Endocytosis

Lipid Rafts

Membrane Trafficking

Clathrin Independent Carriers: Molecular characterisation of a novel clathrin-independent endocytic pathway

Mark Howes

Unknown Date

Endocytosis effectuates a critical interface between the eukaryotic cell and its apposing environment. It is, subsequently, paramount for many physiologically important processes and encompasses a diverse array of mechanisms and pathways. The classical endocytic routes mediated by clathrin and caveolin are the best understood and the molecular roles of their major regulators, such as dynamin, adaptor proteins and various lipid species, are the most comprehensively described. Recent identification of an assortment of constitutive, noncaveolar, clathrin-independent endocytic (CIE) pathways has expanded the endocytic system. Unlike the classical endocytic pathways, little is known about the guiding parameters of CIE routes. Consequently, it is not possible to understand the important cellular roles these pathways may be fulfilling. This study has begun to characterise the very basic parameters governing the morphologically striking Clathrin-Independent Carrier (CLIC) pathway. Development of a diverse molecular toolkit has now allowed the quantitation of endocytic capacity provided by CLICs, the visualisation of subtle sorting components of the CLIC pathway, the isolation of novel CLIC cargo and regulators, and has linked this mechanism to the critical cellular processes of cellular migration and membrane repair. Calculation of the individual capacity of endocytic routes provides important information about the contribution of each pathway to total plasma membrane (PM) uptake and turnover. Quantitation of the volume, surface area and number of structures forming per minute in this study shows that CLICs provide the vast majority of constitutive endocytosis, up to four times the capacity of the clathrin mediated endocytic (CME) pathway. As the equivalent of the entire PM area could pass through the CLIC pathway within 12 minutes it is evident that CLICs are fundamental housekeepers of bulk membrane internalisation. Thus, they are likely to be central regulators of PM homeostasis and turnover. High-resolution tomography, in conjunction with analysis of CLIC cargo trafficking, identifies these carriers as complex, pleiomorphic structures that sort the bulk of membrane to early endosomes and recycle cargo back to the cell surface. Such vast internalisation combined with an ability to rapidly recycle components quickly attributes the CLIC pathway as a complex sorting station. Isolation of novel cargo and regulators has identified a striking array of proteins now associated with the CLIC pathway for the first time. A significant proportion of identified targets localise to lipid-rafts and recycle from the PM, facets consistent with association to the CLIC pathway. Numerous targets have also been directly implicated in clathrin-independent endocytosis by independent groups. Verification of selected cargo, such as CD44, Thy-1 and myoferlin, showing specific internalisation through the CLIC pathway, has provided insight into the sorting ability of the CLIC pathway and links to adhesion turnover and membrane recycling. Consistent with a role in cellular adhesion turnover, it was found that CLICs become polarised within migrating cells. This has shown the first instance of spatial separation between three major endocytic routes, CLICs, caveolae and CME and highlights the important and coordinated roles of multiple endocytic pathways during physiologically significant processes. The specific internalisation of paxillin, Thy-1 and CD44 through CLICs at the leading edge of migrating cells suggests that CLICs rapidly turnover adhesion components for dynamic extracellular sensation during directional cell migration. Indeed, specific ablation of the CLIC pathway significantly impedes cellular migration, implying coordination with CME at the leading edge. This study has defined numerous parameters of the CLIC pathway, developing the current understanding of this poorly defined route and places the CLIC pathway as a unique player during critical cellular processes.

Endocytosis

Endosome

Clathrin-independent Endocytosis

Lipid Rafts

Membrane Trafficking

Lipid rafts of platelet membrane as therapeutic target : role of "Omics" / Radeaux lipidiques des membranes de plaquettes comme cible thérapeutique : rôle des "Omics"

Rabani, Vahideh

05 May 2017

Les plaquettes sont des cellules sanguines anucléées impliquées dans les phénomènes d'hémostase et de thrombose. La majorité des fonctions plaquettaires dépend de leur membrane cellulaire, qui contient de nombreux microdomaines lipidiques ordonnés appelés radeaux lipidiques. Ces microdomaines jouent un rôle central dans toutes les phases de l'hémostase médiées par les plaquettes. Les radeaux lipidiques sont essentiels pour le fonctionnement des récepteurs responsables de l'activation des plaquettes et de la transduction du signal. Le rôle des plaquettes dans la thrombose artérielle est crucial et explique l'intérêt continu de la recherche dans la thérapie antiplaquettaire. Dans ce contexte, nous avons cherché à étudier les radeaux lipidiques comme lieu d'assemblage principal des récepteurs membranaires. Nous avons également cherché à identifier des protéines impliquées dans la fonction des plaquettes, en vue de proposer de nouvelles cibles thérapeutiques. Nous avons utilisé des analyses lipidomiques et protéomiques ainsi que des analyses d'immunoblotting pour identifier les radeaux lipidiques de la membrane des plaquettes et étudier leur organisation dans les plaquettes non stimulées, stimulées et traitées par des antiagrégants plaquettaires. Des détergents, l'ultracentrifugation et les gradients de sucrase ont été utilisés principalement pour le fractionnement de la membrane et l'isolement des radeaux lipidiques. Les principaux résultats de notre travail sont: 1) Élaboration d'une méthodologie pour l'étude des radeaux lipidiques des plaquettes ; 2) Présentation d'un profil global de la composition lipidique et protéique des radeaux lipidiques ; 3) Démonstration de l'impact de l'activation plaquettaire et des antiagrégants plaquettaires sur la réorganisation des radeaux lipidiques ; Et 4) Proposition de nouvelles cibles thérapeutiques potentielles par protéomique et identification de réseau interactif de protéines autour notamment du facteur XIII (FXIII) et de la phosphoprotéine stimulée par vasodilatateur (V ASP). Nos résultats montrent que les radeaux lipidiques peuvent potentiellement être considérés comme nouvelles cibles thérapeutiques pour la découverte de nouveaux antiagrégants plaquettaires. Les études "Omics" sont importantes pour élargir nos connaissances dans ce domaine / Latelets are blood ce lis at the crossroads of both haemostasis and thrombosis. The majority of platelet functions depend on their membrane, which contains numerous, ordered lipid microdomains named lipid rafts. These microdomains play a pivotai role in all phases of platelet­mediated haemostasis. Lipid rafts are a prerequisite for the functioning of receptors in charge of platelet activation and signal transduction. The role of platelets in thrombotic diseases is crucial, and underpins the continue research interest in antiplatelet therapy. ln this context, we aimed to study the lipid rafts of platelet membranes as the principal assembly place of known receptors, and likely also other, unknown elements that participate in the thrombotic function of platelets, with a view to proposing new therapeutic targets. We used lipidomics and proteomics as well as immunoblot analysis to identify lipid rafts and investigate the organization of lipid rafts in resting, stimulated and antiplatelet-treated platelets. Detergents, ultracentrifugation and sucrose gradients were used mainly for membrane fractionatio and isolation of lipid rafts. The main findings of our work are: 1) Development of a framework or guidelines for platelet lipid raft investigation; 2) Presentation of a global profile of the lipid and protein composition of plate let lipid rafts; 3) Demonstration of the impact of activators and inhibitors on the reorganization of platelet lipid rafts; and 4) Suggestion for potential new therapeutic targets by proteomics analysis through interactive network analyzing of coagulation factor XIII (FXIII) and Vasodilator-Stimulated Phosphoprotein (VASP). Our results show that lipid rafts have potential as new therapeutic targets in pharmacological research in antiplatelets. "Omics" studies are important to expand our knowledge in this field

Lipid rafts

Platelets

Proteomics

Lipidomics

Membrane

Les radeaux lipidiques

Plaquettes

Protéomiques

Lipidomiques

Membrane

612.1

Efeitos da administração crônica de prolina no conteúdo lipídico de estruturas cerebrais de ratos

Vianna, Luciene Pinheiro

January 2007

Neste trabalho foi investigado o efeito da administração crônica de prolina sobre o conteúdo total de gangliosídios, fosfolipídios e de colesterol, assim como, sobre o perfil de gangliosídios no córtex, no hipocampo, no hipotálamo e no cerebelo de ratos. Também, foi avaliado o conteúdo e o perfil de gangliosídios nas frações solúvel e resistente a detergente obtidas de membranas sinápticas de córtex. Ratos Wistar foram divididos em dois grupos: 1) injetados subcutaneamente com solução 0,9% de NaCl (animais controle) e 2) injetados subcutaneamente com solução de prolina, em concentrações adequadas ao peso corporal (animais hiperprolinêmicos). Tanto a solução de prolina quanto a salina foram administradas do 6° ao 28° dia pós-natal. Doze horas após a última administração, os animais foram sacrificados mediante decapitação sem anestesia. As estruturas cerebrais foram dissecadas e em seguida homogeneizadas em clorofórmio:metanol na proporção 1:1 vpara a extração lipídica. As membranas sinápticas foram obtidas através de centrifugação diferencial e as frações solúvel e resistente a detergente foram isoladas através de tratamento das membranas com Triton X-100 a 4°C para investigação de microdomínios de membrana. Após a realização das análises, os resultados mostraram que os animais submetidos ao tratamento crônico com prolina apresentaram um marcado aumento no conteúdo de gangliosídios no córtex cerebral e no hipocampo, enquanto os conteúdos de fosfolipídios e de colesterol aumentaram somente no hipocampo. Além disso, os conteúdos destes compostos não foram alterados no hipotálamo e no cerebelo de animais hiperprolinêmicos. Por outro lado, o conteúdo de gangliosídios diminuiu nas frações solúvel e resistente a detergente obtidas de membranas sinápticas de córtex de animais hiperprolinêmicos. Embora os perfis de gangliosídios não tenham sido aparentemente modificados, as quantidades absolutas das espécies foram alteradas tanto no extrato total, como nos microdomínios de membrana obtidos do córtex. Estes dados revelam que o tratamento crônico com prolina afeta de forma distinta as diferentes regiões cerebrais quanto à composição lipídica das membranas celulares, refletindo-se sobre a distribuição de lipídios nos microdomínios de membrana do córtex. Entre as conseqüências destes fenômenos poderiam ser sugeridas modulações diferentes nas transmissões sinápticas que contribuiriam para o déficit cognitivo e/ou outras disfunções neurológicas presentes em pacientes com hiperprolinemia tipo II. / In the present work we investigated the effects of chronic proline administration on ganglioside, cholesterol and phospholipid total contents, as well as on ganglioside profile in cerebral cortex, hippocampus, hypothalamus and cerebellum of rats. We also evaluated the ganglioside content and profile in detergent- soluble and resistant fractions isolated from synaptic membranes obtained from cerebral cortex. Wistar rats were divided into two groups: 1) saline (control) and 2) proline injected (hyperprolinemic). Proline solution or saline were administered from 6th to 28th postnatal day, according to body weight. Twelve hours after the last injection, the animals were sacrificed by decapitation without anesthesia. Brain structures were homogenized with chlorophorm:methanol 1:1 for lipid extraction. Synaptic membrane was extracted by differential centrifugation and detergent- soluble and resistant fractions were isolated by cold Triton X-100 treatment. Results showed that rats subjected to chronic proline treatment presented a significant increase of ganglioside content on cortex and hippocampus, while phospholipid and cholesterol contents only increased in hippocampus. However, the content of these components were not altered in hypothalamus and cerebellum of hyperprolinemic rats. On the other hand, ganglioside content decreased in detergent- soluble and resistant fractions isolated from synaptic membrane obtained from hyperprolinemic cortex. Although ganglioside profiles were apparently not modified, the individual absolute quantities were altered in cortex total lipid extract and membrane microdomains obtained from cerebral cortex. Our findings suggest that chronic proline treatment affects, in a distinct manner, different cerebral regions concerning the lipid composition of the cell membranes, reflecting on its distribution in the cortex membrane microdomains. Among these phenomena consequences, different modulations in synaptic transmission may be suggested which may contribute to the impairment in cognition and/or other neurological disfunctions found in hyperprolinemia type II patients.

Prolina

Aminoácidos

Sistema nervoso central

Ganglioside

Phospholipid

Cholesterol

Hyperprolinemia

Brain

Synaptic membrane

Membrane rafts

Efeitos da administração crônica de prolina no conteúdo lipídico de estruturas cerebrais de ratos

Vianna, Luciene Pinheiro

January 2007

Neste trabalho foi investigado o efeito da administração crônica de prolina sobre o conteúdo total de gangliosídios, fosfolipídios e de colesterol, assim como, sobre o perfil de gangliosídios no córtex, no hipocampo, no hipotálamo e no cerebelo de ratos. Também, foi avaliado o conteúdo e o perfil de gangliosídios nas frações solúvel e resistente a detergente obtidas de membranas sinápticas de córtex. Ratos Wistar foram divididos em dois grupos: 1) injetados subcutaneamente com solução 0,9% de NaCl (animais controle) e 2) injetados subcutaneamente com solução de prolina, em concentrações adequadas ao peso corporal (animais hiperprolinêmicos). Tanto a solução de prolina quanto a salina foram administradas do 6° ao 28° dia pós-natal. Doze horas após a última administração, os animais foram sacrificados mediante decapitação sem anestesia. As estruturas cerebrais foram dissecadas e em seguida homogeneizadas em clorofórmio:metanol na proporção 1:1 vpara a extração lipídica. As membranas sinápticas foram obtidas através de centrifugação diferencial e as frações solúvel e resistente a detergente foram isoladas através de tratamento das membranas com Triton X-100 a 4°C para investigação de microdomínios de membrana. Após a realização das análises, os resultados mostraram que os animais submetidos ao tratamento crônico com prolina apresentaram um marcado aumento no conteúdo de gangliosídios no córtex cerebral e no hipocampo, enquanto os conteúdos de fosfolipídios e de colesterol aumentaram somente no hipocampo. Além disso, os conteúdos destes compostos não foram alterados no hipotálamo e no cerebelo de animais hiperprolinêmicos. Por outro lado, o conteúdo de gangliosídios diminuiu nas frações solúvel e resistente a detergente obtidas de membranas sinápticas de córtex de animais hiperprolinêmicos. Embora os perfis de gangliosídios não tenham sido aparentemente modificados, as quantidades absolutas das espécies foram alteradas tanto no extrato total, como nos microdomínios de membrana obtidos do córtex. Estes dados revelam que o tratamento crônico com prolina afeta de forma distinta as diferentes regiões cerebrais quanto à composição lipídica das membranas celulares, refletindo-se sobre a distribuição de lipídios nos microdomínios de membrana do córtex. Entre as conseqüências destes fenômenos poderiam ser sugeridas modulações diferentes nas transmissões sinápticas que contribuiriam para o déficit cognitivo e/ou outras disfunções neurológicas presentes em pacientes com hiperprolinemia tipo II. / In the present work we investigated the effects of chronic proline administration on ganglioside, cholesterol and phospholipid total contents, as well as on ganglioside profile in cerebral cortex, hippocampus, hypothalamus and cerebellum of rats. We also evaluated the ganglioside content and profile in detergent- soluble and resistant fractions isolated from synaptic membranes obtained from cerebral cortex. Wistar rats were divided into two groups: 1) saline (control) and 2) proline injected (hyperprolinemic). Proline solution or saline were administered from 6th to 28th postnatal day, according to body weight. Twelve hours after the last injection, the animals were sacrificed by decapitation without anesthesia. Brain structures were homogenized with chlorophorm:methanol 1:1 for lipid extraction. Synaptic membrane was extracted by differential centrifugation and detergent- soluble and resistant fractions were isolated by cold Triton X-100 treatment. Results showed that rats subjected to chronic proline treatment presented a significant increase of ganglioside content on cortex and hippocampus, while phospholipid and cholesterol contents only increased in hippocampus. However, the content of these components were not altered in hypothalamus and cerebellum of hyperprolinemic rats. On the other hand, ganglioside content decreased in detergent- soluble and resistant fractions isolated from synaptic membrane obtained from hyperprolinemic cortex. Although ganglioside profiles were apparently not modified, the individual absolute quantities were altered in cortex total lipid extract and membrane microdomains obtained from cerebral cortex. Our findings suggest that chronic proline treatment affects, in a distinct manner, different cerebral regions concerning the lipid composition of the cell membranes, reflecting on its distribution in the cortex membrane microdomains. Among these phenomena consequences, different modulations in synaptic transmission may be suggested which may contribute to the impairment in cognition and/or other neurological disfunctions found in hyperprolinemia type II patients.

Prolina

Aminoácidos

Sistema nervoso central

Ganglioside

Phospholipid

Cholesterol

Hyperprolinemia

Brain

Synaptic membrane

Membrane rafts

Efeitos da administração crônica de prolina no conteúdo lipídico de estruturas cerebrais de ratos

Vianna, Luciene Pinheiro

January 2007

Neste trabalho foi investigado o efeito da administração crônica de prolina sobre o conteúdo total de gangliosídios, fosfolipídios e de colesterol, assim como, sobre o perfil de gangliosídios no córtex, no hipocampo, no hipotálamo e no cerebelo de ratos. Também, foi avaliado o conteúdo e o perfil de gangliosídios nas frações solúvel e resistente a detergente obtidas de membranas sinápticas de córtex. Ratos Wistar foram divididos em dois grupos: 1) injetados subcutaneamente com solução 0,9% de NaCl (animais controle) e 2) injetados subcutaneamente com solução de prolina, em concentrações adequadas ao peso corporal (animais hiperprolinêmicos). Tanto a solução de prolina quanto a salina foram administradas do 6° ao 28° dia pós-natal. Doze horas após a última administração, os animais foram sacrificados mediante decapitação sem anestesia. As estruturas cerebrais foram dissecadas e em seguida homogeneizadas em clorofórmio:metanol na proporção 1:1 vpara a extração lipídica. As membranas sinápticas foram obtidas através de centrifugação diferencial e as frações solúvel e resistente a detergente foram isoladas através de tratamento das membranas com Triton X-100 a 4°C para investigação de microdomínios de membrana. Após a realização das análises, os resultados mostraram que os animais submetidos ao tratamento crônico com prolina apresentaram um marcado aumento no conteúdo de gangliosídios no córtex cerebral e no hipocampo, enquanto os conteúdos de fosfolipídios e de colesterol aumentaram somente no hipocampo. Além disso, os conteúdos destes compostos não foram alterados no hipotálamo e no cerebelo de animais hiperprolinêmicos. Por outro lado, o conteúdo de gangliosídios diminuiu nas frações solúvel e resistente a detergente obtidas de membranas sinápticas de córtex de animais hiperprolinêmicos. Embora os perfis de gangliosídios não tenham sido aparentemente modificados, as quantidades absolutas das espécies foram alteradas tanto no extrato total, como nos microdomínios de membrana obtidos do córtex. Estes dados revelam que o tratamento crônico com prolina afeta de forma distinta as diferentes regiões cerebrais quanto à composição lipídica das membranas celulares, refletindo-se sobre a distribuição de lipídios nos microdomínios de membrana do córtex. Entre as conseqüências destes fenômenos poderiam ser sugeridas modulações diferentes nas transmissões sinápticas que contribuiriam para o déficit cognitivo e/ou outras disfunções neurológicas presentes em pacientes com hiperprolinemia tipo II. / In the present work we investigated the effects of chronic proline administration on ganglioside, cholesterol and phospholipid total contents, as well as on ganglioside profile in cerebral cortex, hippocampus, hypothalamus and cerebellum of rats. We also evaluated the ganglioside content and profile in detergent- soluble and resistant fractions isolated from synaptic membranes obtained from cerebral cortex. Wistar rats were divided into two groups: 1) saline (control) and 2) proline injected (hyperprolinemic). Proline solution or saline were administered from 6th to 28th postnatal day, according to body weight. Twelve hours after the last injection, the animals were sacrificed by decapitation without anesthesia. Brain structures were homogenized with chlorophorm:methanol 1:1 for lipid extraction. Synaptic membrane was extracted by differential centrifugation and detergent- soluble and resistant fractions were isolated by cold Triton X-100 treatment. Results showed that rats subjected to chronic proline treatment presented a significant increase of ganglioside content on cortex and hippocampus, while phospholipid and cholesterol contents only increased in hippocampus. However, the content of these components were not altered in hypothalamus and cerebellum of hyperprolinemic rats. On the other hand, ganglioside content decreased in detergent- soluble and resistant fractions isolated from synaptic membrane obtained from hyperprolinemic cortex. Although ganglioside profiles were apparently not modified, the individual absolute quantities were altered in cortex total lipid extract and membrane microdomains obtained from cerebral cortex. Our findings suggest that chronic proline treatment affects, in a distinct manner, different cerebral regions concerning the lipid composition of the cell membranes, reflecting on its distribution in the cortex membrane microdomains. Among these phenomena consequences, different modulations in synaptic transmission may be suggested which may contribute to the impairment in cognition and/or other neurological disfunctions found in hyperprolinemia type II patients.

Prolina

Aminoácidos

Sistema nervoso central

Ganglioside

Phospholipid

Cholesterol

Hyperprolinemia

Brain

Synaptic membrane

Membrane rafts

Isolamento e caracterização de membranas eritrocitaria resistentes a detergentes / Isolation and characterization of detergent-reinstant membranes from erythrocytes

Domingues, Cleyton Crepaldi, Paula, Eneida de, 1963-

12 August 2018

Orientador: Eneida de Paula / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-12T15:46:25Z (GMT). No. of bitstreams: 1 Paula_Eneidade_D.pdf: 7752367 bytes, checksum: 4ac3295742d441a15e315a3d1c9c2c3d (MD5) Previous issue date: 2009 / Resumo: Detergentes constituem uma das ferramentas mais importantes no estudo de membranas biológicas. A eficiência de um detergente em solubilizar biomembranas e suas proteínas depende de suas propriedades físico-químicas e a solubilização parcial pode resultar em membranas resistentes a detergentes (DRMs). A resistência a detergentes dessas frações membranares constituídas principalmente de colesterol, esfingolipídios e proteínas específicas foi analisada nesse trabalho, usando membranas de eritrócitos humanos. Embora não haja evidências experimentais suficientes pra afirmar que DRMs correspondam aos microdomínios naturais existentes em biomembranas, conhecidos como lipid rafts e que também são enriquecidos em colesterol e esfingolipídios, DRMs são bons modelos para o estudo daqueles. A obtenção de DRMs com uso do detergente octaetilenoglicol mono lauril éter (C12E8) a baixa temperatura (4oC) é descrita pela primeira vez. Os detergentes zwiteriônicos ASB-14, ASB-16 e CHAPS também foram testados, mas falharam no isolamento de DRMs com baixa densidade. DRMs obtidas com C12E8 e com Triton X-100 apresentaram um aumento da razão colesterol/proteína de pelo menos três vezes em relação à membrana original. A proteína flotilina-2, considerada um marcador de lipid rafts, foi detectada em DRMs isoladas com Triton X-100 e em DRMs com C12E8 isoladas a partir de células depletadas de colesterol. Proteínas do citoesqueleto também foram encontradas em DRMs, exceto quando as células foram previamente depletadas de colesterol. Resultados de ressonância paramagnética eletrônica com uso de marcadores de spin do tipo doxil-estearato revelaram maior grau de organização das cadeias acila dos lipídios de DRMs em relação à membrana original, independentemente do detergente utilizado. Nossos resultados também mostraram que DRMs de eritrócitos podem ser também obtidos na temperatura fisiológica (37°C) como mesmo conteúdo de colesterol presente em DRMs isoladas a 4°C. A necessidade do uso de carbonato de sódio no protocolo para obtenção de DRMs sugere fortemente a existência de uma associação eletrostática entre DRMs e o citoesqueleto eritrocitário. / Abstract: Detergents constitute an important tool for the study of cell membranes. The solubilization efficiency of a specific detergent depends upon its physicochemical properties so that detergent-resistant membranes (DRMs) can be obtained as a result of the partial solubilization of biological membranes. In this study DRMs which are structures enriched in cholesterol, sphingolipids and specific proteins, were isolated and characterized from human erythrocyte membranes. Although there are no evidences to support that DRMs correspond to the natural existing microdomains of natural membranes, known as lipid rafts which are also cholesterol and sphingolipid-enriched structures, DRMs are good models for the study of rafts. DRMs from erythrocytes obtained with 8 polyoxyethylene lauryl ether (C12E8) at low temperature (4oC) are described here for the first time. The zwitterionic detergents ASB-14, ASB-16 and CHAPS failed to isolate these low buoyant density fractions. Triton X-100 and C12E8 DRMs presented a cholesterol/protein mass ratio 3 times higher than in the whole membrane. Flotillin-2, a marker of lipid rafts, was confined within the DRM fractions obtained with Triton X-100 and it was partially associated with C12E8 DRMs when erythrocyte cells were previously cholesterol-depleted. Association of membrane-skeleton proteins with DRMs was also observed, except when DRMs were prepared from cholesterol-depleted cells. Results of electron paramagnetic resonance through the use of doxyl stearate spin labels revealed that DRMs are highly ordered structures in respect to the original membrane and that their acyl chain packing is not different if prepared with either Triton X-100 or C12E8. We have also found that DRMs from erythrocytes can be isolated at physiological temperature (37°C), presenting the same cholesterol content as in DRMs prepared at 4°C. The fact that we were only able to prepare DRMs when sodium carbonate was used stronglysuggests the existence of an electrostatic association between DRMs and the membrane-skeleton. / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular

Eritrócitos

Detergente

Membranas (Biologia)

Erythrocytes

Detergents

Membranes (Biology)

Lipid rafts

Flotillin