Rôle de la cavéoline-3 et de la mécanique des cavéoles dans la physiopathologie du muscle / Role of caveolin-3 and caveolae mechanics in muscle pathophysiology

Dewulf, Melissa

29 March 2018

Les cavéoles sont des invaginations de la membrane plasmique qui nécessitent les cavéolines pour leur biogénèse. Récemment, mon laboratoire d’accueil a décrit un nouveau rôle pour les cavéoles dans la réponse au stress mécanique (Sinha et al, Cell, 2011). Des mutations de la Cavéoline-3 (Cav3), isoforme spécifique du muscle, qui mènent à la rétention de la protéine dans l’appareil de Golgi, ont été décrites dans certaines dystrophies musculaires (DM). Mon projet consiste en l’identification du lien fonctionnel entre les mutations de la Cavéoline-3 et les dystrophies musculaires, qui ont comme phénotype principal un défaut d’intégrité et de réparation membranaire et des dérégulations dans l’homéostasie du muscle.Dans des myotubes humains provenant d’un patient portant la mutation Cav3-P28L ou Cav3-R26Q, j’ai pu montré une diminution de la quantité de cavéoles à la membrane plasmique. En conséquence, les myotubes mutants ne sont plus capables de tamponner l’augmentation de la tension membranaire provoquée par un stress mécanique, ce qui conduit à un défaut d’intégrité membranaire. J’ai aussi montré que la voie de l’interleukin-6 (IL6), importante pour l’homéostasie du muscle, est hyperactivée dans les myotubes mutants, révélant un rôle de régulateur négatif de la voie IL6 par Cav3. De plus, cette voie n’est plus régulée négativement quand un stress mécanique est appliqué comme c’est le cas dans les myotubes sauvages (WT). De manière intéressante, les myotubes mutés phénocopient une déplétion de Cav3 et ce phénotype est réversible lorsque l’on reforme des cavéoles à la membrane plasmiques des myotubes mutés en exprimant la forme WT de Cav3. Ceci confirme un lien direct entre les mutations de Cav3 induisant l’absence de cavéoles et le défaut de mécano-protection et mécano-signalisation de la voie IL6. / Caveolae are plasma membrane invaginations that require caveolin proteins for their biogenesis. Recently, our laboratory reported a new role for caveolae in the cell response to mechanical stress (Sinha et al, Cell, 2011). Mutations in the CAV3 gene (muscle isoform), which lead to Cav3 retention in the Golgi apparatus, are associated with muscular dystrophies (MD). My project consists in identifying the functional link between Cav3 mutations and MDs, which exhibit defects in membrane integrity and repair, and in muscle homeostasis.In Cav3-P28L and Cav3-R26Q mutated human myotubes, I showed a lack of caveolae structures at the plasma membrane. This results in a failed buffering of membrane tension increase upon mechanical stress, which leads to membrane integrity defects. I also showed that the interleukin-6 (IL6) pathway, important for muscle homeostasis, is overactivated in mutant myotubes, showing evidence of a negative regulation of the pathway by Cav3. Furthermore, the IL6 pathway is no longer negatively regulated upon mechanical stress, as it is the case in wild-type (WT) myotubes. Interestingly, mutated myotubes phenocopy Cav3 depletion, and the phenotype is reversible with caveolae reformation upon expression of the WT form of Cav3. This confirms the direct link between Cav3 mutations and the absence of caveolae with failed mechano-protection and IL6/STAT3 mechano-signaling.

Cavéoline3

Cavéoles

Dystrophies musculaires

Méchano-Signalisation

Méchano-Protection

Caveolin-3

Caveolae

Muscular dystrophies

Mechano-Signaling

Mechano-Protection

ACUTE REGULATION OF GLUT1 FUNCTION: THE ROLE OF DETERGENT-RESISTANT MEMBRANE DOMAINS

Rubin, Darrell

23 June 2004

No description available.

Biology, Cell

Clone 9 cells

plasma membrane

sucrose density fractionation

lipid raft

caveolin-1

azide

stomatin

glucose transport

electron microscopy

Rôle des mouvements membranaires dans la régulation de la production endogène de glucose / Role of membrane movements in the regulation of endogenous glucose production

Chilloux, Julien

05 March 2012

La production endogène de glucose est une fonction cruciale au maintien de l’homéostasie glucidique dont les 2 dernières étapes sont la production de glucose par la glucose-6-phosphatase (G6Pase) et la sortie du glucose hors de la cellule par le transporteur facilité GLUT2. Les mécanismes dépendants de mouvements membranaires régulant ces deux étapes ont été étudiés. La régulation de la G6Pase par l’AMPc dépend de mouvements membranaires. Cependant les mécanismes moléculaires de cette régulation restaient à caractériser. Nous avons étudié l’hypothèse d’une phosphorylation directe des sous-unités de la G6Pase par la PKA. La PKA est capable d’induire l’activité G6Pase. Cependant, aucune phosphorylation des sous-unités G6Pase n’a pu être mise en évidence par phosphorylation in vitro, mutations dirigées de sites potentiels de phosphorylation ou analyse par spectrométrie de masse. En absence de Glut2, le glucose produit de novo sort des hépatocytes par une voie dépendante de mouvements membranaires, dont le mécanisme moléculaire n’est pas caractérisé. Cette voie vésiculaire n’est pas impliquée dans la sortie du glucose glycogénolytique. À l’inverse, 50% du glucose néoglucogénique sort des hépatocytes par une voie vésiculaire, probablement dépendante de la cavéoline-1. Par microscopie confocale à fluorescence, nous avons montré que la G6Pase se déplace dans la cellule vers la membrane plasmique et co-localise avec une partie de la cavéoline1 cellulaire. Les vésicules composées de cavéoline-1 et contenant la G6Pase pourrait donc constituer un lien entre le réticulum endoplasmique, lieu de production du glucose et la membrane plasmique, lieu de libération du glucose / Endogenous glucose production is a crucial function to maintain glucose homeostasis whose last two steps are glucose production by glucose-6-phosphatase (G6Pase) and glucose output by GLUT2. Regulations of both steps depend on membrane movements. In this work, we characterized the mechanisms of these regulations. Regulation of G6Pase by cAMP depends on membrane movements; however the molecular mechanisms of this regulation still have to be characterized. We hypothesized that PKA directly phosphorylated G6Pase subunits. We showed that PKA was able to enhance G6Pase activity. However, no phosphorylation of G6Pase subunits was evidenced by in vitro phosphorylation, directed mutagenesis of potentiel phosphorylation sites or mass spectrometry. In the absence of Glut2, the gluconeogenic glucose produced by hepatocytes is released through a pathway depending on membrane movements, which has not been characterised yet. This vesicular pathway was not involved in the output of glycogenolytic glucose. However, half of gluconeogenic glucose was released through a vesicular pathway, probably depending on caveolin-1. By confocal microscopy, we showed that G6Pase moved in cells and co-localized in part with cellular caveolin-1. Caveolin-1 vesicles containing G6Pase could thus constitute a link between the endoplasmic reticulum, site of glucose production, and the plasma membrane, site of glucose output

Glucose

Néoglucogenèse

Cavéoline-1

Glucagon

GLUT2

Glucose-6-phosphatase

Phosphorylation

PKA

Glucose

Gluconeogenesis

Caveolin-1

Glucagon

GLUT2

Glucose-6-phosphatase

Phosphorylation

PKA

572.4

Efeitos do γ-orizanol e extrato hidroalcólico de Thuya occidentalis sobre linhagens de câncer de próstata responsivas e não-responsivas a andrógenos / Efeitos do gama-orizanol e extrato hidroalcólico de Thuya occidentalis sobre linhagens de câncer de próstata responsivas e não-responsivas a andrógenos

Hirsch, Gabriela Elisa

January 2015

O câncer de próstata é a segunda causa de morte entre homens no Brasil. É tipo um câncer de crescimento lento, podendo levar anos para o tumor atingir 1 cm3, porém, em alguns casos ele pode se espalhar pelo corpo, sendo o osso o principal sítio de metástase. No estágio de desenvolvimento do câncer conhecido como metástase, o principal tratamento consiste em terapia de restrição andrógena, levando as células prostáticas a pararem de proliferar, uma vez que elas crescem em resposta a presença de hormônios andrógenos, como a diidrotestosterona e testosterona. Porém, em alguns casos, as células proliferam mesmo na ausência de andrógenos e isto se deve a diversos fatores que, em geral, estão associados a mutações no receptor andrógeno e/ou alterações no metabolismo andrógeno. Quando isto acontece, os tratamentos disponíveis são menos efetivos e costumam falhar. Porém, estudos sugerem que o γ-orizanol, um fitoesterol extraído do óleo do farelo do arroz; e extratos amplamente utilizados na medicina popular, como o extrato hidroalcólico de Thuya occidentalis, poderiam atuar inibindo o desenvolvimento e progressão do câncer de próstata. Neste estudo, com o uso de abordagens bioquímicas e de biologia molecular, foi demonstrado que o tratamento com γ-orizanol diminui a viabilidade e biomassa celular em cultura, associado ao aumento da morte celular por apoptose e/ou necrose, em linhagens celulares responsivas (LNCaP) e não-responsivas a andrógenos (PC3 e DU145), além de aumentar a pERK1/2 em células LNCaP e DU145. O γ-orizanol também foi capaz de bloquear o ciclo celular em G2/M nas células PC3 e LNCaP e em G0/G1 nas células DU145. Estes efeitos foram ainda acompanhados por uma redução da expressão do gene e proteína caveolina-1- uma importante molécula envolvida no aumento da agressividade do câncer de próstata, e também, na progressão da doença para o fenótipo andrógeno resistente - nas células não-responsivas a andrógenos, e do gene PCGEM1 - gene específico da próstata regulado por andrógeno - nas células LNCaP e DU145. Ainda, γ-orizanol também mostrou capacidade de regular vários miRNAs - pequenas moléculas de RNA não codificantes de proteínas - envolvidos no controle de funções associadas ao desenvolvimento, progressão e invasão no câncer de próstata, como o miR16-1, miR19b-2, miR24b-1, miR24b-2, miR99a, miR133a-5p, miR182-5p, miR198 e miR222. O extrato hidroalcólico de Thuya occidentalis reduziu a viabilidade e biomassa celular nas linhagens responsiva (LNCaP) e não-responsivas (DU145 e PC3) a andrógenos, além de induzir parada do ciclo celular na fase G0/G1 nas células DU145 e aumentar a morte celular por apoptose e/ou necrose em todas as linhagens. Da mesma forma que o γ-orizanol, este extrato reduziu a expressão da caveolina-1 nas linhagens não-responsivas a andrógenos. Trabalhos anteriores mostram que o monoterpeno α-tujona é o principal composto ativo do extrato de Thuya occidentalis. Por cromatografia gasosa acoplada a detector de massas foi mostrada a existência de 0,0016 μg de α-tujona na dose de extrato usada neste estudo. No entanto, o tratamento com 0,0016μg de α-tujona foi efetivo somente sobre linhagem LNCaP, não tendo efeito sobre as outras linhagens estudadas, reforçando a hipótese da diferença de sensibilidade entre as linhagens responsivas e não responsivas a andrógeno e mostrando a contribuição de outros componentes do extrato nos efeitos observados neste estudo. Concluindo, estes resultados demonstram que tanto γ-orizanol como o extrato de Thuya occidentalis podem vir a ser agentes terapêuticos promissores no tratamento de câncer de próstata, não só por inibirem o crescimento celular, mas também e principalmente pela possibilidade de induzirem a recuperação da sensibilidade a andrógenos, aumentando as possibilidades de tratamento da doença. / Prostate cancer is the second cause of death among men in Brazil. It is a slowgrowing cancer and it may take years for tumor to reach 1 cm3, but in some cases it can spread throughout the body and the bone is the main site of metastasis. At this cancer stage known as metastasis, the principal treatment involves antiandrogen therapy, leading to prostate cells stop proliferating, because they grow in response to presence of androgens such as testosterone and dihydrotestosterone. However, in some cases, the cells can proliferate even in the absence of androgens and this fact occurs due to many factors and they are generally associated with mutations in the androgen receptor and/or alterations in androgen metabolism. In this stage, the treatments available are less effective and usually fail. However, studies suggest that γ-oryzanol, a phytosterol extracted of rice bran oil; and extracts widely used in folk medicine, as Thuya occidentalis hidroalcolic extract, could act inhibiting the development and progression of prostate cancer. In this study, using molecular biology and biochemical approaches we showed that γ- oryzanol treatment was able to decrease cell viability and biomass in culture, and this fact was linked to increased cell death by apoptosis and/or necrosis in androgen responsive (LNCaP) and unresponsive (DU145 and PC3) prostate cancer cell lines, besides increasing pERK1/2 in LNCaP and DU145 cells. γ- oryzanol was also able to cause cell cycle arrest at G2/M phase in LNCaP and PC3 cells and at G0/G1 phase in DU145 cells. These effects were also accompanied by a reduction in caveolin-1 gene and protein expression - an important molecule related to high aggressiveness in prostate cancer and also in the progression of the disease to androgen resistant phenotype - in androgen unresponsive cells, and also PCGEM1 gene - a prostate specific gene regulated by androgens - in LNCaP and DU145 cells. γ-oryzanol also showed ability to regulate several miRNAs - small non-coding RNA molecules - involved in the control of many functions associated with the development, progression and invasion of prostate cancer, such as miR16-1, miR19b-2, miR24b-1, miR24b-2, miR99a, miR133a-5p, miR182-5p, miR198 and miR222. Thuya occidentalis hidroalcolic extract also reduce cell viability and biomass in androgen responsive (LNCaP) and unresponsive (DU145 and PC3) cells, in addition to inducing cell cycle arrest at G0/G1 phase in DU145 cells and to increase apoptosis and/or necrosis cell death in all cell lines. The same way that γ-oryzanol, this extract reduced the caveolin-1 expression in androgen unresponsive prostate cancer cells. Prior studies showed that the monoterpene α-thujone is the main active compound in the T. occidentalis extract. By gas chromatography coupled to mass detector it was showed the existence of 0.0016 μg of α-thujone in extract dose used in this study. However, the treatment with 0.0016 μg of α-thujone was effective only on LNCaP cell line, having no effect on the other studied lines, supporting the hypothesis of difference in sensitivity between responsive and unresponsive cell lines and showing the contribution of other components in the effects caused by the extract, observed it this study. In conclusion, these results demonstrate that both γ-oryzanol as T. occidentalis extract may become promising therapeutic agents in treatment of prostate cancer, not only inhibit cell growth but also and manly by the possibility of inducing the recovery of androgen sensitivity, increasing the treatment chances of treatment this disease.

Neoplasias da próstata

Androgênios

Óleos vegetais

Fitosteróis

Thuya occidentalis

Caveolina 1

MicroRNAs

γ-orizanol

Thuya occidentalis

Prostate cancer

PCGEM1

Caveolin-1

miRNA

Avaliação de mecanismos de modificação pós-traducional da óxido nítrico sintase endotelial (eNOS) associados a biodisponibilidade do óxido nítrico em artérias de ratas espontaneamente hipertensas (SHR) ao final da prenhez /

Troiano, Jéssica Antonini.

January 2019

Orientador: Cristina Antoniali Silva / Banca: Fernando Silva Carneiro / Banca: Carlos Alan Candido Dias Junior / Banca: Graziela Scalianti Ceravolo / Banca: Angela de Castro Resende / Resumo: A redução da reatividade vascular à fenilefrina (PE) em aorta de ratas espontaneamente hipertensas (SHR) ao final da prenhez é dependente de maior produção e/ou maior biodisponibilidade de óxido nítrico (NO), consequente do aumento da fosforilação da enzima óxido nítrico sintase endotelial (eNOS) via PI3K/Akt. A glicosilação do tipo N-acetil-glucosamina (O-GlcNAc) é uma modificação pós-traducional que compete com a fosforilação pelos mesmos sítios de ligação nas proteínas. A O-GlcNAcilação da eNOS em serina1177 leva a redução da sua atividade enquanto a fosforilação leva a sua ativação. Além destes mecanismos, a interação da eNOS com outras proteínas é capaz de regular positiva ou negativamente a sua atividade. O objetivo deste trabalho foi analisar possíveis alterações nos mecanismos de modificação pós-traducional que controlam a ativação da eNOS os quais poderiam contribuir para maior ativação e maior biodisponibilidade de NO observada em artérias de ratas prenhes. Foram avaliados o conteúdo proteico O-GlcNAc e também expressão das enzimas que participam desta modificação, O-GlcNAc transferase (OGT) e O-GlcNAcase (OGA) por Western Blotting e a atividade da OGA por ensaio bioquímico em aorta e em artéria mesentérica (2º ou 3º ramo) de ratas não prenhes (NP) e prenhes (P), normotensas (Wistar) e SHR. Ensaios de Western Blotting foram realizados também para análise da expressão das seguintes proteínas: Cav-1, p-Cav-1, CaM e Hsp90. Realizamos a contagem do número de cavéolas en... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Reduction of vascular reactivity to phenylephrine (PE) in aortaof spontaneously hypertensive rats (SHR) at the end of pregnancy is dependent on higherproduction and/or higerbioavailability of nitric oxide (NO), as a consequence of increased endothelial nitric oxide synthase enzyme (eNOS) phosphorylation,by PI3K/Akt.Glycosylation with O-linked N-acetylglucosamine (O-GlcNAc)is a post-translational modification that competes with phosphorylation by the same binding sites in proteins. O-GlcNAcylation of eNOSon serine siteleads to a reduction in its activity while eNOS phosphorylation leads to its activation. In addition to these mechanisms, the interaction of eNOS with other proteins is able to regulate positively or negatively its activity. The objective of this studywas to analyze possible changes in the mechanisms of post-translational modification that control the eNOS activation, which could contribute to its the greater activation and greater bioavailability of NO observed in arteriesof pregnant rats. The O-GlcNAc-protein content and also the enzymesexpressionthat participate in this modification, O-GlcNAc transferase (OGT) and O-GlcNAcase (OGA) was assessed by Western Blotting, and OGA activity were evaluated by biochemical assay in the aorta and in the artery mesenteric (2ndor 3rdbranch) of non-pregnant (NP) and pregnant (P), normotensiverats(Wistar) and SHR.Western Blotting assays were also performed for expression analysis of the following proteins: Cav-1, p-Cav-1, CaM and Hsp90. We performed the counting of the number of endothelial caveolaein the aorta and the mesenteric artery in the presence or absence of methyl-β-cyclodextrin (dextrin, 10 mmol/L) by electronicmicroscopy.In functional studies, we evaluated the participation of the OGA enzyme, by inhibition with PugNAc (100 μmol/L) and of the caveolae, using a caveolae disassembler, (Complete abstract electronic access below) / Doutor

Aorta.

Artérias mesentéricas

Óxido nítrico sintase endotelial

Calmodulina.

Caveolina 1

Glicosilação

Hipertensão.

Prenhez.

Proteínas de choque térmico HSP90

Calmodulin

Caveolin 1

Endothelial Nitric Oxide Synthase

ETUDE DES INTERACTIONS ENTRE LES CYCLODEXTRINES ET LES MEMBRANES LIPOSOMALES OU BIOLOGIQUES

Castagne, Delphine

11 December 2009

Résumé : A ce jour, lutilité des cyclodextrines comme adjuvant pharmaceutique nest plus à démontrer. En biologie cellulaire, la méthyl-b-cyclodextrine est un outil couramment utilisé par les expérimentateurs. La déstructuration quelle induit au niveau des microdomaines membranaires que sont les radeaux lipidiques ou les cavéoles est mise à profit pour létude des fonctions cellulaires qui y sont associées. Le but de notre recherche est détudier les interactions de différentes cyclodextrines couramment utilisées dans le domaine pharmaceutique avec les constituants des membranes liposomales ou biologiques afin de mieux comprendre les conséquences de ces interactions au niveau cellulaire. Lhypothèse dune interaction des cyclodextrines avec les constituants lipophiles des membranes cellulaires a souvent été énoncée pour expliquer la cytotoxicité de certains dérivés. Nous avons pu montrer à laide de liposomes unilamellaires utilisés comme modèles membranaires, que linteraction des cyclodextrines avec leurs constituants, en particulier le cholestérol, est en relation avec une perte de lintégrité de la membrane. Ces premières études nous ont permis de prédire quels seraient les dérivés qui induiraient la cytotoxicité la plus importante. La cytotoxicité importante de certains dérivés méthylés (D.S. proche de 2) a été corrélée avec une capacité dextraction du cholestérol cellulaire relativement élevée. A linverse, nous avons montré que les dérivés faiblement substitués extraient peu le cholestérol, ce qui permet dexpliquer la meilleure tolérance observée au niveau biologique avec la Crysmeb et lHP-b-CD. Nous nous sommes ensuite intéressés à leffet de la b-CD et de ses dérivés méthylés sur la déstructuration des microdomaines membranaires. Nous avons étudié la relation entre leur capacité de déstructuration des cavéoles et dextraction du cholestérol cellulaire. Une extraction relativement élevée du lipide induit un effet important au niveau des microdomaines voire très important dans le cas de la Dimeb, le dérivé ayant leffet le plus délétère sur lintégrité des membranes artificielles et biologiques. Un effet moins marqué a également pu être corrélé avec une extraction plus faible du cholestérol par certains dérivés (Crysmeb, Trimeb). Les taux dextraction du cholestérol cellulaire mesurés sont en bonne corrélation, mis à part pour la Trimeb et la b-CD, avec les résultats des diagrammes de solubilité. La capacité de solubilisation du cholestérol par les cyclodextrines est en accord avec les interactions plus ou moins importantes observées en RMN. Les résultats de mesure de lintégrité des membranes artificielles correspondent à ceux obtenus avec les membranes biologiques excepté pour la b-CD, cette dernière nayant pu être testée dans les mêmes conditions que les autres cyclodextrines sur les liposomes. Il est maintenant admis que les cyclodextrines pourraient avoir un intérêt thérapeutique potentiel. En effet, la modulation des taux de cholestérol par lutilisation de cyclodextrines pourrait être mise à profit pour traiter des maladies ou infections impliquant ces microdomaines membranaires. Summary : Nowadays, the usefulness of cyclodextrins as pharmaceutical adjuvants is obvious. In cell biology, methyl-b-CD is a tool commonly used by scientists. The disruption of membrane microdomains (such as lipid rafts and caveolae) caused by cyclodextrins is used to study cellular functions. The aim of this research is to study the interactions of various cyclodextrins currently used in pharmaceutical development with the components of liposomal and biological membranes for a better understanding of the consequences of these interactions at the cell level. The hypothesis of an interaction between cyclodextrins and lipophilic components of cell membranes has often been suggested to explain the cytotoxicity of some cyclodextrin derivatives. Using unilamellar liposomes as model membranes, this research has shown that the interaction between cyclodextrins and their components, especially cholesterol, is linked with a loss of membrane integrity. This preliminary study has allowed predicting which derivatives will be the most cytotoxic. The high cytotoxicity of some methylated derivatives (D.S. close to 2) has been correlated with a relatively strong extraction capacity of cell cholesterol. On the other hand, it has been shown that low substituted derivatives do not extract much cholesterol, which is in agreement with the better biological compatibility observed with Crysmeb and HP-b-CD. The research has then focused on the effect of b-CD and its methylated derivatives on membrane microdomains disruption. The relation between caveolae disruption and cell cholesterol extraction capacities has been studied. A relatively strong extraction of the lipid highly disturbs the microdomains and this effect is even more important for Dimeb, the derivative showing the highest loss of integrity of artificial and biological membranes. A less marked effect has also been correlated with the lowest cholesterol extraction capacities of some derivatives (Crysmeb, Trimeb). The measured cell cholesterol extraction rates are in good correlation, except for Trimeb and b-CD, with the results of the solubility diagrams. The cholesterol solubilisation capacity of cyclodextrins is in accordance with the intensity of the interactions observed by NMR. The effects on the integrity of artificial membranes correspond to those obtained with biological membranes except for b-CD, which was not tested on liposomes in the same conditions as those used for the other cyclodextrins. It is now agreed that cyclodextrins could have a therapeutical potential. Indeed, the modulation of cholesterol levels could be applied for treating raft-related infections and diseases.

caveoline/caveolin

toxicite/toxicity

liposomes/liposomes

cellules/cells

complexes/complexes

calceine/calcein

culture cellulaire/cell culture

caveoles/caveolae

lipides/lipids

microdomaine/microdomain

Estudio funcional y molecular del canal Maxi-Cl activado por antiestrógenos

Bahamonde Santos, María Isabel

27 February 2004

Las membranas celulares contienen un canal de Cl- (Maxi-Cl-) que es modulado por estrógenos y antiestrógenos. El trabajo experimental de mi tesis doctoral ha consistido en el estudio de la modulación de este canal y su identidad molecular. El resultado de mi trabajo ha demostrado que la base molecular del canal Maxi-Cl- es una isoforma de la proteína mitocondrial VDAC y que la activación del canal por los antiestrógenos y su inhibición por los estrógenos implica procesos de defosforilación y fosforilación, respectivamente. / Cellular membranes contain a Maxi-Cl- channel that is modulated by oestrogen and antioestrogens. The experimental work of my PhD Thesis has focussed in the study of the molecular identity of the Maxi-Cl- channel and its regulation. My results demonstrated that an isoform of the mitochondrial protein VDAC is the molecular correlate of the Maxi-Cl- channel and that the activation of the channel by antioestrogens and its inhibition by oestrogen requires a dephosphorylation and phosphorylation process, respectively.

neuroblastos

fibroblastos

toremifeno

mitocondria

lipid raft

caveolin

Maxi-Cl- channel

fibroblast

mitochondria

caveolae

antioestrogen

neuroblastoma

toremifen

antiestrógeno

caveola

caveolina

lipid raft

VDAC

canal Maxi-Cl-

573

Efeitos do γ-orizanol e extrato hidroalcólico de Thuya occidentalis sobre linhagens de câncer de próstata responsivas e não-responsivas a andrógenos / Efeitos do gama-orizanol e extrato hidroalcólico de Thuya occidentalis sobre linhagens de câncer de próstata responsivas e não-responsivas a andrógenos

Hirsch, Gabriela Elisa

January 2015

O câncer de próstata é a segunda causa de morte entre homens no Brasil. É tipo um câncer de crescimento lento, podendo levar anos para o tumor atingir 1 cm3, porém, em alguns casos ele pode se espalhar pelo corpo, sendo o osso o principal sítio de metástase. No estágio de desenvolvimento do câncer conhecido como metástase, o principal tratamento consiste em terapia de restrição andrógena, levando as células prostáticas a pararem de proliferar, uma vez que elas crescem em resposta a presença de hormônios andrógenos, como a diidrotestosterona e testosterona. Porém, em alguns casos, as células proliferam mesmo na ausência de andrógenos e isto se deve a diversos fatores que, em geral, estão associados a mutações no receptor andrógeno e/ou alterações no metabolismo andrógeno. Quando isto acontece, os tratamentos disponíveis são menos efetivos e costumam falhar. Porém, estudos sugerem que o γ-orizanol, um fitoesterol extraído do óleo do farelo do arroz; e extratos amplamente utilizados na medicina popular, como o extrato hidroalcólico de Thuya occidentalis, poderiam atuar inibindo o desenvolvimento e progressão do câncer de próstata. Neste estudo, com o uso de abordagens bioquímicas e de biologia molecular, foi demonstrado que o tratamento com γ-orizanol diminui a viabilidade e biomassa celular em cultura, associado ao aumento da morte celular por apoptose e/ou necrose, em linhagens celulares responsivas (LNCaP) e não-responsivas a andrógenos (PC3 e DU145), além de aumentar a pERK1/2 em células LNCaP e DU145. O γ-orizanol também foi capaz de bloquear o ciclo celular em G2/M nas células PC3 e LNCaP e em G0/G1 nas células DU145. Estes efeitos foram ainda acompanhados por uma redução da expressão do gene e proteína caveolina-1- uma importante molécula envolvida no aumento da agressividade do câncer de próstata, e também, na progressão da doença para o fenótipo andrógeno resistente - nas células não-responsivas a andrógenos, e do gene PCGEM1 - gene específico da próstata regulado por andrógeno - nas células LNCaP e DU145. Ainda, γ-orizanol também mostrou capacidade de regular vários miRNAs - pequenas moléculas de RNA não codificantes de proteínas - envolvidos no controle de funções associadas ao desenvolvimento, progressão e invasão no câncer de próstata, como o miR16-1, miR19b-2, miR24b-1, miR24b-2, miR99a, miR133a-5p, miR182-5p, miR198 e miR222. O extrato hidroalcólico de Thuya occidentalis reduziu a viabilidade e biomassa celular nas linhagens responsiva (LNCaP) e não-responsivas (DU145 e PC3) a andrógenos, além de induzir parada do ciclo celular na fase G0/G1 nas células DU145 e aumentar a morte celular por apoptose e/ou necrose em todas as linhagens. Da mesma forma que o γ-orizanol, este extrato reduziu a expressão da caveolina-1 nas linhagens não-responsivas a andrógenos. Trabalhos anteriores mostram que o monoterpeno α-tujona é o principal composto ativo do extrato de Thuya occidentalis. Por cromatografia gasosa acoplada a detector de massas foi mostrada a existência de 0,0016 μg de α-tujona na dose de extrato usada neste estudo. No entanto, o tratamento com 0,0016μg de α-tujona foi efetivo somente sobre linhagem LNCaP, não tendo efeito sobre as outras linhagens estudadas, reforçando a hipótese da diferença de sensibilidade entre as linhagens responsivas e não responsivas a andrógeno e mostrando a contribuição de outros componentes do extrato nos efeitos observados neste estudo. Concluindo, estes resultados demonstram que tanto γ-orizanol como o extrato de Thuya occidentalis podem vir a ser agentes terapêuticos promissores no tratamento de câncer de próstata, não só por inibirem o crescimento celular, mas também e principalmente pela possibilidade de induzirem a recuperação da sensibilidade a andrógenos, aumentando as possibilidades de tratamento da doença. / Prostate cancer is the second cause of death among men in Brazil. It is a slowgrowing cancer and it may take years for tumor to reach 1 cm3, but in some cases it can spread throughout the body and the bone is the main site of metastasis. At this cancer stage known as metastasis, the principal treatment involves antiandrogen therapy, leading to prostate cells stop proliferating, because they grow in response to presence of androgens such as testosterone and dihydrotestosterone. However, in some cases, the cells can proliferate even in the absence of androgens and this fact occurs due to many factors and they are generally associated with mutations in the androgen receptor and/or alterations in androgen metabolism. In this stage, the treatments available are less effective and usually fail. However, studies suggest that γ-oryzanol, a phytosterol extracted of rice bran oil; and extracts widely used in folk medicine, as Thuya occidentalis hidroalcolic extract, could act inhibiting the development and progression of prostate cancer. In this study, using molecular biology and biochemical approaches we showed that γ- oryzanol treatment was able to decrease cell viability and biomass in culture, and this fact was linked to increased cell death by apoptosis and/or necrosis in androgen responsive (LNCaP) and unresponsive (DU145 and PC3) prostate cancer cell lines, besides increasing pERK1/2 in LNCaP and DU145 cells. γ- oryzanol was also able to cause cell cycle arrest at G2/M phase in LNCaP and PC3 cells and at G0/G1 phase in DU145 cells. These effects were also accompanied by a reduction in caveolin-1 gene and protein expression - an important molecule related to high aggressiveness in prostate cancer and also in the progression of the disease to androgen resistant phenotype - in androgen unresponsive cells, and also PCGEM1 gene - a prostate specific gene regulated by androgens - in LNCaP and DU145 cells. γ-oryzanol also showed ability to regulate several miRNAs - small non-coding RNA molecules - involved in the control of many functions associated with the development, progression and invasion of prostate cancer, such as miR16-1, miR19b-2, miR24b-1, miR24b-2, miR99a, miR133a-5p, miR182-5p, miR198 and miR222. Thuya occidentalis hidroalcolic extract also reduce cell viability and biomass in androgen responsive (LNCaP) and unresponsive (DU145 and PC3) cells, in addition to inducing cell cycle arrest at G0/G1 phase in DU145 cells and to increase apoptosis and/or necrosis cell death in all cell lines. The same way that γ-oryzanol, this extract reduced the caveolin-1 expression in androgen unresponsive prostate cancer cells. Prior studies showed that the monoterpene α-thujone is the main active compound in the T. occidentalis extract. By gas chromatography coupled to mass detector it was showed the existence of 0.0016 μg of α-thujone in extract dose used in this study. However, the treatment with 0.0016 μg of α-thujone was effective only on LNCaP cell line, having no effect on the other studied lines, supporting the hypothesis of difference in sensitivity between responsive and unresponsive cell lines and showing the contribution of other components in the effects caused by the extract, observed it this study. In conclusion, these results demonstrate that both γ-oryzanol as T. occidentalis extract may become promising therapeutic agents in treatment of prostate cancer, not only inhibit cell growth but also and manly by the possibility of inducing the recovery of androgen sensitivity, increasing the treatment chances of treatment this disease.

Neoplasias da próstata

Androgênios

Óleos vegetais

Fitosteróis

Thuya occidentalis

Caveolina 1

MicroRNAs

γ-orizanol

Thuya occidentalis

Prostate cancer

PCGEM1

Caveolin-1

miRNA

Análise ultraestrutural de células-tronco mesenquimais humanas derivadas de tecido adiposo (hADSC) durante a diferenciação adipogênica : interações entre as gotas lipídicas citoplasmáticas e outras organelas

Vieira, Moema Queiroz

January 2013

As células-tronco mesenquimais humanas derivadas de tecido adiposo, do inglês human adipose-derived stem cells (hADSC), são células progenitoras que residem entre adipócitos e armazenam lipídios neutros, principalmente triglicerídeos e ésteres de colesterol (TG e EC), em gotas lipídicas citoplasmáticas (GLC), contribuindo para o turnover do tecido adiposo. As GLC são organelas que desempenham um papel crucial na homeostasia energética e no metabolismo dessas células. Caveolas são invaginações de 50-100 nm que foram inicialmente caracterizadas por microscopia eletrônica. A forma e a organização estrutural das caveolas deve-se a proteínas especificas da família das caveolinas (caveolina-1, -2 e -3) que se associam em oligômeros para formar cavidades/invaginações na membrana plasmática. A função das caveolinas na formação das GLC está relacionada com a captação de ácidos graxos e seu metabolismo, e a relação existente entre estes dois componentes celulares parece ser crucial para manutenção da homeostasia celular. Muitas organelas que são funcionalmente conectadas ao metabolismo de lipídeos são encontradas justapostas as GLC. Distinções morfológicas observadas reforçam diferenças que podem existir na maneira pelas quais as GLC interagem com outras organelas em adipócitos. Sítios de contatos entre membranas, do inglês membrane contact sites (MCS), são descritos para muitas organelas e parecem funcionalmente importantes nos processos de interações entre as GLC e outras organelas celulares. O presente trabalho avaliou as diferenças ultraestruturais entre hADSC diferenciadas ou não para pré-adipócitos, comparando com células 3T3-L1. Também foram avaliadas, através de microscopia eletrônica de transmissão, as interações das GLC com outras organelas celulares durante a diferenciação adipogênica, pois apesar de sua importância no metabolismo energético e em várias doenças, as GLC são pouco compreendidas como organelas celulares. De fato, o tamanho, a composição e a regulação das GLC variam consideravelmente entre organismos e tipos celulares. A complexidade das interações das GLC com outras organelas também varia consideravelmente em adipócitos e não adipócitos. Este trabalho mostrou a importância de estudos que visam esclarecer como as GLC são formadas, modificadas e reguladas. Através destes estudos poderemos ter uma melhor compreensão acerca da relação existente entre o acúmulo excessivo de lipídios no organismo e a chamada síndrome metabólica (obesidade, diabetes e aterosclerose). / Human adipose-derived stem cells (hADSC) are progenitor cells that reside between adipocytes, store neutral lipids, especially triglycerides and cholesterol esters (TG and CE) into cytoplasmic lipid droplets (CLD), contributing to the turnover of the adipose tissue. The CLD are organelles that play a crucial role in energy homeostasis and cell metabolism. Caveolae are invaginations of 50-100 nm that were initially characterized by transmission electron microscopy. The shape and structural organization of caveolae are held by specific proteins of the family of caveolinas (caveolin-1, -2 and -3) that associate to form oligomers in cavities/invaginations on the plasma membrane. The caveolin functions on the CLD development are related to the fatty acid uptake and its metabolism. The relationship between these cell components seems to be pivotal for the cellular homeostasis maintenance. Many organelles that are functionally connected to lipid metabolism are found juxtaposed to the CLD. Morphologic distinctions reveal the differences that may exist in the way through which the CLD interact with other organelles within adipocytes. The membrane contact sites (MCS) have been described for many organelles and seems to be functionally important in the interaction processes with CLD. This work evaluated the ultrastructural differences between hASDC differentiated or not to pre-adipocyte compared to the 3T3-L1 cells. It was also evaluated through transmission electron microscopy, the CLD interactions to the others cellular organelles in hASDC during adipogenesis induction because, despite its importance in energy metabolism and in various diseases, the CLD are poorly understood as cell organelles. Indeed, the size, composition and regulation of GLC vary considerably between organisms and cell types. The complexity of CLD interactions with other organelles also ranged considerably between adipocytes and undifferentiated. This work showed the importance of studies that aim the clarify how the CLD are formed, modified and regulated. Through these studies it is possible to get a better understanding of the relationship between the excessive accumulation of body lipids and the metabolic syndrome (obesity, diabetes and atherosclerosis).

Células-tronco mesenquimais

Celulas : Ultraestrutura

Tecido adiposo

Diferenciação celular

Cavéolas

Organelas

Caveolae

Caveolin

Citoplasmic lipid droplets

Human adipose-derived stem cells (hADSC)

Ultrastructural analysis

Análise ultraestrutural de células-tronco mesenquimais humanas derivadas de tecido adiposo (hADSC) durante a diferenciação adipogênica : interações entre as gotas lipídicas citoplasmáticas e outras organelas

Vieira, Moema Queiroz

January 2013

As células-tronco mesenquimais humanas derivadas de tecido adiposo, do inglês human adipose-derived stem cells (hADSC), são células progenitoras que residem entre adipócitos e armazenam lipídios neutros, principalmente triglicerídeos e ésteres de colesterol (TG e EC), em gotas lipídicas citoplasmáticas (GLC), contribuindo para o turnover do tecido adiposo. As GLC são organelas que desempenham um papel crucial na homeostasia energética e no metabolismo dessas células. Caveolas são invaginações de 50-100 nm que foram inicialmente caracterizadas por microscopia eletrônica. A forma e a organização estrutural das caveolas deve-se a proteínas especificas da família das caveolinas (caveolina-1, -2 e -3) que se associam em oligômeros para formar cavidades/invaginações na membrana plasmática. A função das caveolinas na formação das GLC está relacionada com a captação de ácidos graxos e seu metabolismo, e a relação existente entre estes dois componentes celulares parece ser crucial para manutenção da homeostasia celular. Muitas organelas que são funcionalmente conectadas ao metabolismo de lipídeos são encontradas justapostas as GLC. Distinções morfológicas observadas reforçam diferenças que podem existir na maneira pelas quais as GLC interagem com outras organelas em adipócitos. Sítios de contatos entre membranas, do inglês membrane contact sites (MCS), são descritos para muitas organelas e parecem funcionalmente importantes nos processos de interações entre as GLC e outras organelas celulares. O presente trabalho avaliou as diferenças ultraestruturais entre hADSC diferenciadas ou não para pré-adipócitos, comparando com células 3T3-L1. Também foram avaliadas, através de microscopia eletrônica de transmissão, as interações das GLC com outras organelas celulares durante a diferenciação adipogênica, pois apesar de sua importância no metabolismo energético e em várias doenças, as GLC são pouco compreendidas como organelas celulares. De fato, o tamanho, a composição e a regulação das GLC variam consideravelmente entre organismos e tipos celulares. A complexidade das interações das GLC com outras organelas também varia consideravelmente em adipócitos e não adipócitos. Este trabalho mostrou a importância de estudos que visam esclarecer como as GLC são formadas, modificadas e reguladas. Através destes estudos poderemos ter uma melhor compreensão acerca da relação existente entre o acúmulo excessivo de lipídios no organismo e a chamada síndrome metabólica (obesidade, diabetes e aterosclerose). / Human adipose-derived stem cells (hADSC) are progenitor cells that reside between adipocytes, store neutral lipids, especially triglycerides and cholesterol esters (TG and CE) into cytoplasmic lipid droplets (CLD), contributing to the turnover of the adipose tissue. The CLD are organelles that play a crucial role in energy homeostasis and cell metabolism. Caveolae are invaginations of 50-100 nm that were initially characterized by transmission electron microscopy. The shape and structural organization of caveolae are held by specific proteins of the family of caveolinas (caveolin-1, -2 and -3) that associate to form oligomers in cavities/invaginations on the plasma membrane. The caveolin functions on the CLD development are related to the fatty acid uptake and its metabolism. The relationship between these cell components seems to be pivotal for the cellular homeostasis maintenance. Many organelles that are functionally connected to lipid metabolism are found juxtaposed to the CLD. Morphologic distinctions reveal the differences that may exist in the way through which the CLD interact with other organelles within adipocytes. The membrane contact sites (MCS) have been described for many organelles and seems to be functionally important in the interaction processes with CLD. This work evaluated the ultrastructural differences between hASDC differentiated or not to pre-adipocyte compared to the 3T3-L1 cells. It was also evaluated through transmission electron microscopy, the CLD interactions to the others cellular organelles in hASDC during adipogenesis induction because, despite its importance in energy metabolism and in various diseases, the CLD are poorly understood as cell organelles. Indeed, the size, composition and regulation of GLC vary considerably between organisms and cell types. The complexity of CLD interactions with other organelles also ranged considerably between adipocytes and undifferentiated. This work showed the importance of studies that aim the clarify how the CLD are formed, modified and regulated. Through these studies it is possible to get a better understanding of the relationship between the excessive accumulation of body lipids and the metabolic syndrome (obesity, diabetes and atherosclerosis).

Células-tronco mesenquimais

Celulas : Ultraestrutura

Tecido adiposo

Diferenciação celular

Cavéolas

Organelas

Caveolae

Caveolin

Citoplasmic lipid droplets

Human adipose-derived stem cells (hADSC)

Ultrastructural analysis