Estudos das interações da septina 4 humana / Study of Human Septin 4 interactions

Nayara Cavalcante Silva

09 September 2009

Septinas são proteínas ligantes a GTP encontradas desde fungos até metazoários. A primeira função identificada para septinas foi o seu papel central na organização e dinâmica do septo de divisão de leveduras. Uma das características marcantes é que septinas se organizam em heterofilamentos de 7 a 9 nm de espessura que foram purificados de diversos organismos tais como Saccharomyces cerevisiae, Drosophila e cérebro de camundongos. Hoje se sabe que septinas não estão envolvidas apenas nos processos de divisão celular, mas em uma variedade de processos como tráfico de vesículas, exocitose, interação com proteínas do citoesqueleto e com a membrana plasmática, o que resulta em alterações da morfologia celular. Neste trabalho foram desenvolvidos estudos da septina 4 humana (SEPT4) nos quais foi realizado a expressão e purificação da SEPT4 pelo uso do sistema de expressão heteróloga em E. coli e em células de insetos (Sf-9) via baculovírus. A tentativa de expressão usando o vetor pETTEV em E.coli não obteve sucesso, pois a proteína não foi expressa na forma solúvel. A construção do baculovírus recombinante AcSept4 e expressão da SEPT4 nas células de insetos foi realizada com êxito, mas o processo de purificação não foi satisfatório. Com o intuito de obter informações sobre possíveis proteínas que interagem com a SEPT4 e conseqüentemente sobre as funções desempenhadas por ela na célula, a SEPT4 foi utilizada como isca para ensaios de interação proteína-proteína pela técnica de duplo híbrido. Para isso, o gene da SEPT4 foi clonado fusionado ao domínio de ligação ao DNA Lex-A. A realização do ensaio de duplo híbrido com a proteína completa não foi possível, pois a mesma provocou a auto ativação do sistema, por isso uma nova construção foi realizada com a região GTPase e C-terminal SEPT4GC (124-478) como isca. Dentre as interações identificadas, foram encontradas apenas septinas do grupo II (SEPT6, SEPT8, SEPT10 e SEPT11) e quatro novas interações, que ainda precisam ser confirmadas. Por outro lado, uma interação já descrita na literatura envolve a proteína &#945-sinucleína, que é uma proteína abundantemente expressa no cérebro e associada à doença de Parkinson. O foco do estudo dessa interação foi realizar ensaios com os diferentes domínios da SEPT4 para comprovar uma interação direta e com isso tentar mapear o sítio de interação com a &#945-sinucleína. Os resultados obtidos pela ressonância plasmônica de superfície (SPR) indicam que o domínio C-terminal participa da interação com baixa afinidade (K,D=390 &#181M) e sugerem que o domínio GTPase também pode estar envolvido. Já os dados obtidos com os experimentos de RMN e anisotropia de fluorescência mostram indícios que a interação é dependente da conformação da &#945-sinucleína por que a interação aconteceria com maior afinidade quando a &#945-sinucleína está na presença de SDS. / Septins are a family of GTP binding proteins found in a great diversity of organisms. These proteins have been identified as having a central role in septum organization during yeast division. Septins are organized into heterofilaments which are 7 to 9 nm wide and these have been purified from yeast, Drosophila and mice brain. Septins are not only required for cell division, but seem to play a role also in vesicle trafficking and in the formation of diffusion barriers within cells, since they interact with cytoskeleton proteins and the plasma membrane causing changes in cell morphology. In the present work, the aim was investigate human Septin 4 (SEPT4), a septin highly expressed in the brain. One objective of this work was to find a suitable expression system and purification method for SEPT4. The protein was expressed in both E.coli and insect cells (Sf-9). Expression in E. coli with the vector pETTEV was unsuccessful because the protein was insoluble. Expression in insect cells using the recombinant baculovirus AcSept4, was obtained successfully, but the purification was difficult. Important information concerning SEPT4 function might be acquired, if interactions partners involved in cellular process were identified. With this goal in mind, a yeast two hybrid assays were performed. The sept4 gene was fused to the Lex-A DNA binding domain and used as bait in the yeast two hybrid essays. However, full length SEPT4 showed autonomous activation of reporter genes. A second construct was prepared including only GTPase domain and the carboxy terminus domain, (residues 124 to 478) and the screen of interactions were carried out only with SEPT4GC. All of the group II septins (SEPT6, SEPT8, SEPT10 and SEPT11) were identified together with four new interactions. The latter still need be confirmed. In addition, another interaction already described in the literature is between SEPT4 and &#945-synuclein, which is a protein highly expressed in brain and related to Parkinson\'s disease. Different spectroscopic methods and SPR were used to identify which domain of SEPT4 interacts directly with &#945-synuclein and in which region. The surface plasmon resonance (SPR) results indicate that the carboxy terminus participates in the interaction with low affinity (KD = 390 &#181M) and suggests that the GTPase domain may also be involved. The results obtained by fluorescence anisotropy and NMR studies provide evidence that the interaction is dependent on the &#945-synuclein conformation, because the affinity of SEPT4 and &#945-synuclein seemed to be higher in the presence of SDS.

A-sinucleína

Duplo-híbrido

Expressão em células de insetos

Septinas

A-synuclein

insect cell expression system

Septin 4

yeast two hybrid

Rôle de l’interaction entre la septine 9 et les phosphoinositides dans la morphologie de l’appareil Golgi et la régulation des gouttelettes lipidiques : Conséquence dans l'infection par le VHC / Role of the interaction between Septin 9 and the phosphoinositides in the morphology of Golgi apparatus and the regulation of lipid droplets : consequences in HCV infection

Omrane, Mohyeddine

07 July 2016

Les septines sont une famille de protéines GTPases qui peuvent former des structures d'ordre supérieur, comme les filaments et les anneaux, et capables de se lier avec les membranes cellulaires par leur interaction avec les phosphoinositides (PIs) via un domaine polybasique en N-terminal de leur domaine de liaison au GTP. Nous avons montré par une analyse transcriptomique réalisée en utilisant les données GSE14323 que la septine 9 est significativement surexprimée dans la cirrhose induite par le virus de l'hepatite C (VHC). Nos résultats montrent, ainsi, que la septine 9 induit l’augmentation en taille des gouttelettes lipidiques (GLs) par un mécanisme dépendant le phosphatidylinositol-5-phosphate et des microtubules. Nous avons montré, également, que cette voie de régulation des GLs est exploité par le VHC. De plus, nous avons montré que la septine 9 est impliquée dans la régulation de la morphologie de l’appareil Golgi et la mise en place de la polarité cellulaire par son interaction avec les phosphoinositides via deux domaines polybasiques. Ces résultats apportent une nouvelle compréhension du mécanisme moléculaire de l’interaction des septines avec les phosphoinositides et montrent pour la première fois l’importance de cette interaction dans des fonctions cellulaires de la septine 9. / Septins are a GTPases proteins family that can form high order structures such as filaments and rings, and able to bind cell membranes by interacting with phosphoinositides via a polybasic domain located at the N-terminal of their GTP binding domain. Here, We show by the transcriptomic analysis performed using the GSE14323 dataset that septin 9 is significantly upregulated in hepatitis C virus induced cirrhosis. Our findings show that septin 9 induce the lipid droplet growth by a phosphatidylinositol-5-phosphate and microtubule-dependent mechanism hijacked by HCV. In addition, we have shown that the septin 9 is involved in Golgi apparatus morphology regulation and cell polarity installation by interacting with phosphoinositides via two polybasic domains. These results provide new understanding of the molecular mechanism of septins interaction with the phosphoinositides and show its importance in septin 9 cellular functions shown for the first time.

Septine 9

Gouttlettes lipidiques

L'appareil Golgi

Phosphoinositides

Hcv

Polarité cellulaire

Septin 9

Lipid droplets

Golgi apparatus

Phosphoinositides

Hcv

Cellulare polarity

Caractérisation du rôle de Citron Kinase durant la cytokinèse

El-Amine, Nour

12 1900

La cytokinèse est un processus dont le but est une séparation de deux cellules soeurs en deux entités suite à une mitose. La cytokinèse nécessite la formation d’un anneau contractile (AC) qui va conduire un sillon de clivage vers une ingression à l’équateur de la cellule. L’une des étapes critiques de ce processus est la transition d’un AC dynamique vers une structure stable surnommée l’anneau du midbody (AM), organelle qui va guider la cellule vers l’abscision. La compréhension des mécanismes moléculaires impliqués dans cette transition nous permettrait de mieux comprendre les complexes protéiques impliqués autant au niveau de l’initiation qu’à la terminaison de la cytokinèse. Des défauts ayant lieu lors de cette transition mènent à la formation de cellules binucléées tétraploïdes qui sont observées dans plusieurs pathologies comme le cancer. Afin d’approfondir nos connaissances à ce sujet j’ai utilisé un modèle d’imagerie optique en temps réel dans un modèle cellulaire de Drosophila melanogaster : les cellules S2 de Schneider. Ces études ont mis l’emphase sur un nouveau mécanisme de maturation de la transition AC/AM. Nous avons pu démontrer que la kinase Citron, Sticky, et la septine, Peanut, agissent de manière opposée sur la protéine Anillin pour retenir ou éliminer, respectivement, la membrane plasmique lors de la transition AC/AM. En effet, la diminution d’expression de Sticky par ARNi engendre une perte de contrôle de rétention membranaire de l’AM. À l’inverse, la diminution d’expression de Peanut inhibe la maturation par excrétion membranaire de l’AM. La diminution d’expression simultanée de Sticky et de Peanut conduit l’AC vers des mouvements oscillatoires typiques d’une instabilité de l’AC suite à la perte de fonction de l’Anillin. Sticky est une protéine corticale lors de la cytokinèse dont le rôle et les partenaires d’interaction restent controversés. Pour approfondie nos connaissance de ce sujet, nous avons effectué une étude structurelle et fonctionnelle de Sticky. Cette étude démontre que Sticky possède deux mécanismes de localisation corticale. Le premier dépend de l’Anillin et le deuxième dépend de la petite GTPase Rho1, le régulateur maître de la cytokinèse. Sticky est capable de se localiser à l’AC en présence de l’un ou l’autre de ces deux mécanismes, mais chacun semble être essentiel pour la réussite de la cytokinèse. Le domaine minimal d’interaction entre la Sticky et l’Anillin a été identifié. Une version d’Anillin qui manque le site de liaison à la Sticky est incapable de supporter l’achèvement de la cytokinèse, et les cellules échouent la cytokinèse d’une manière semblable aux cellules dont l’expression de Sticky est diminuée. Similairement, les cellules exprimant une protéine Sticky mutée au site d’interaction avec Rho1-GTP, sont incapables de compléter la cytokinèse lorsque les niveaux endogènes de Sticky sont diminués par ARNi. Ceci suggère que Sticky agit avec Anillin et Rho1 au niveau du cortex pour guider la transition d’un AC dynamique vers un AM stable. Par la mise en évidence et la caractérisation d’un nouveau mécanisme moléculaire essentiel à la cytokinèse, cette thèse constitue des avancements importants au niveau de la cytokinèse. / Cytokinesis is a multistep process that allows two sister cells to undergo complete separation following mitosis. Cytokinesis requires the formation of a contractile ring (CR) that will drive cleavage furrow ingression at the equator of the cell. One of the crucial steps in this process is the transition from a dynamic CR to a more stable structure named the midbody ring (MR), which directs the final separation or abscission. Our knowledge of the molecular mechanisms involved in the CR-to-MR transition would presumably improve our understanding of the molecular complexes involved throughout cytokinesis from initiation to abscission. Defects that occur during this transition can lead to the formation of bi-nucleate tetraploid cells that are often observed in pathological conditions such as cancer. I have used Drosophila melanogaster Schneider’s S2 cells to study the CR-to-MR transition. My findings have highlighted a previously uncharacterized maturation process essential for the transition. More specifically, I demonstrate that the Citron Kinase, Sticky, and the Septin, Peanut, have opposing actions on the scaffold protein Anillin to either retain or extrude, respectively, membrane-positive proteins during the CR-to-MR transition. Indeed, Sticky depletion by RNAi led to uncontrolled loss of membrane-associated Anillin at the MR. Conversely, Peanut depletion led to inhibition of MR maturation by membrane extrusion. Co-depletion of Sticky and Peanut led to oscillatory movements of the CR, typical of Anillin depletion. Sticky is a cortical protein during cytokinesis whose role and interacting partners are controversial. I have performed a structure/function analysis of Sticky to better define its role and regulation during cytokinesis. My work shows that Sticky has two mechanisms of cortical localization. The first is through an Anillin interaction and the second is through the small GTPase Rho1, a master regulator of cytokinesis. Sticky can localize to the cortex in the absence of either one of these mechanisms. However, loss of both inhibits its localization. Following the identification of the minimal interaction sites of Anillin and Sticky, I expressed an Anillin mutant that lacked part of this site and found that cells failed cytokinesis in a similar manner to cells depleted of Sticky. Mutation of the Rho1 binding site on Sticky produced similar cytokinesis failures. Altogether, the results suggest that Sticky interacts with Anillin and Rho1 at the cortex to guide the transition from dynamic CR to stable MR. This thesis advances our understanding of cytokinesis by highlighting a previously uncharacterized process of MR maturation and by defining the importance and regulation of Citron Kinase during this process.

Citron Kinase

Anillin

Cytokinèse

Cytocinèse

Cytodiérèse

Anneau du midbody

Anneau contractile

Cytokinesis

Midbody ring

Contractile ring

Sticky

Peanut

Septin

RhoA

Rho1

Caractérisation des structures de septines hautement organisées chez la drosophile et leur interaction avec le cytosquelette d’actine

Dragieva, Zlatina

06 1900

Les septines sont des GTPases conservées dérégulées dans le cancer et les maladies neurodégénératives. Elles servent de protéines d’échafaudage et forment une barrière de diffusion à la membrane plasmique et au corps central lors de la cytokinèse. Elles interagissent avec l’actine et s’organisent en complexes qui polymérisent et forment des structures hautement organisées (anneaux et filaments). Leur dynamique d’assemblage et leur rôle dans la cellule restent à être élucidés. La Drosophile est un modèle simple pour l’étude des septines puisqu’on n’y retrouve que 5 gènes (sep1, sep2, sep4, sep5, peanut) comparativement aux 13 gènes chez l’humain. À l’aide d’un anticorps contre Pnut, nous avons identifié des structures tubulaires dans 30% des cellules S2 de Drosophile. Mon projet a comme but de caractériser ces tubes en élucidant leurs constituants, leur comportement et leurs propriétés pour mieux clarifier le mécanisme par lequel les septines forment des structures hautement organisées et interagissent avec le cytosquelette d’actine. Par immunofluorescence, j’ai pu démontrer que ces tubes sont cytoplasmiques, en mitose ou interphase, ce qui suggère qu’ils ne sont pas régulés par le cycle cellulaire. Pour investiguer la composition et les propriétés dynamiques de ces tubes, j’ai généré une lignée cellulaire exprimant Sep2-GFP qui se localise aux tubes et des ARNi contre les cinq septines. Trois septines sont importantes pour la formation de ces tubes et anneaux notamment Sep1, Sep2 et Pnut. La déplétion de Sep1 cause la dispersion du signal GFP en flocons, tandis que la déplétion de Sep2 ou de Pnut mène à la dispersion du signal GFP uniformément dans la cellule. Des expériences de FRAP sur la lignée Sep2-GFP révèlent un signal de retour très lent, ce qui indique que ces structures sont très stables. J’ai aussi démontré une relation entre l’actine et les septines. Le traitement avec la Latrunculin A (un inhibiteur de la polymérisation de l’actine) ou la Jasplakinolide (un stabilisateur des filaments d’actine) mène à la dépolymérisation rapide (< 30 min) des tubes en anneaux flottants dans le cytoplasme, même si ces tubes ne sont pas reconnus suite à un marquage de la F-actine. L’Actin05C-mCherry se localise aux tubes, tandis que le mutant déficient de la polymérisation, Actin05C-R62D-mCherry perd cette localisation. On observe aussi que la déplétion de la Cofiline et de l’AIP1 (ce qui déstabilise l’actine) mène au même phénotype que le traitement avec la Latrunculine A ou la Jasplakinolide. Alors on peut conclure qu’un cytosquelette d’actine dynamique est nécessaire pour la formation et le maintien des tubes de septines. Les futures études auront comme but de mieux comprendre l’organisation des septines en structures hautement organisées et leur relation avec l’actine. Ceci sera utile pour l’élaboration du réseau d’interactions des septines qui pourra servir à expliquer leur dérégulation dans le cancer et les maladies neurodégénératives. / Septins are highly conserved GTP-binding proteins deregulated in diseases such as cancer and neurodegenerative diseases. Septins scaffold other proteins and act as diffusion barriers at the plasma membrane and midbody during cytokinesis. They interact with the actin cytoskeleton and have been observed to form ordered complexes that can polymerize into higher-order structures such as filaments and rings. The principles of assembly and disassembly of such filaments and rings and their cellular roles are yet to be elucidated. Drosophila offers a simple system, as there are only 5 septin genes: peanut, sep1, sep2, sep4, and sep5 in contrast to 13 found in humans. We have previously found that Drosophila S2 cells contain unusual tubular structures that label with Peanut antibody. The goal of my Master’s project has been to characterise these structures, by defining their constituents, behaviours and properties, in the hope that this will shed light on the mechanisms by which septins can form higher-ordered structures and how they interact with other cytoskeletal elements such as actin. Using fluorescence microscopy, I show that these tubes are cytoplasmic and present in 30% of cells, both during mitosis and interphase, suggesting they are not cell cycle regulated. To investigate their composition and dynamic properties, I generated S2 cell lines stably expressing Sep2-GFP, which localizes to septin tubes and double stranded RNAs against all septins. The products of three septin genes were found to be essential for the assembly of septin tubes: Sep1, Sep2, and Pnut. The depletion of Sep1 led to the dispersal of the GFP signal into cytoplasmic clumps, whereas the depletion of Sep2 and Pnut led to its uniform distribution through the cell. FRAP analysis of Sep2-GFP revealed only slow recovery after many hours, indicating that the structures are very stable. I also discovered an unusual relationship between septin tubes and the actin cytoskeleton. Although the tubes did not label with conventional F-actin probes (Phalloidin, LifeAct), treatment with inhibitors of F-actin assembly (Latrunculin A) or disassembly (Jasplakinolide) led to their rapid (<30 min) dispersal into scattered rings. Furthermore, overexpressed Actin05C-mCherry localised to the septin tubes, while a polymerization-deficient mutant Actin05C-R62D-mCherry did not. Depletion of the actin severing protein Cofilin and the actin capping protein AIP1 also disrupted septin tubes dispersing them into cytoplasmic rings. A dynamic actin cytoskeleton is thus required for the formation and/or maintenance of higher ordered structures such as rings and tubes. Conclusion and Relevance: Ongoing studies aim to further elucidate how septins organize into such ordered structures and how actin regulates the process. This will clarify the septin network of interactions and facilitate the comprehension of their implication in cancer and neurodegenerative diseases. Key words: actin, septin, tube, ring, higher-order, hexamer, cofilin, AIP1

septine

actine

tubes

anneaux

hautement

organisés

complexes

hexamère

actin

septin

tube

ring

higher-order

hexamer

Monomeric states of the beta-amyloid peptide investigated under high pressure by nuclear magnetic resonance spectroscopy / Estados monoméricos do peptídeo beta-amiloide investigados sob alta pressão por espectroscopia de ressonância magnética nuclear

Cavini, Ítalo Augusto

17 December 2018

The main histological feature of Alzheimer\'s disease is the presence of amyloid plaques in the patient\'s brain. The most abundant element of these plaques is the &beta;-amyloid peptide (A&beta;). Initially soluble, the peptide exhibits in solution an intricate equilibrium among monomeric, oligomeric (some of which are regarded as the toxic species) and fibrillar states, which prevents its crystallization and subsequent structural determination by X-ray diffraction. High-pressure nuclear magnetic resonance (NMR) spectroscopy has been used by our group to detect rare, high-energy monomeric A&beta; (1-40) states, coexisting in equilibrium with oligomers and fibrils. This work aims to characterize the thermodynamics and the structure of the rare excited states of the A&beta; peptide through the use of high pressure NMR. A large collection of NMR spectra of the A&beta; (1-40) peptide as a function of pressure was recorded and analyzed. Secondary structure predictions revealed that the A&beta; peptide adopts extended &beta;-strand-like structures, similar to those found in amyloid-fibril structures. From the pressure curves of chemical shifts and cross-peak volumes, at least three monomeric states could be detected, which were thermodynamically characterized by the calculation of the variation of their Gibbs free energy (&Delta;Gij) and molar partial volumes (&Delta;Vij). The study of nuclear Overhauser effects (NOEs) and 3JH&alpha;-HN NMR couplings reinforces the existence of extended structures with &beta;-strand propensity, both at ambient (0.1 MPa) and high (275 MPa) pressures. The interaction between the A&beta; peptide and the D-peptides RD2 and RD2D3, D-enantiomeric fibril inhibitors, was also characterized. Our results indicate that the D-peptides recognize and bind to a more compact conformation of A&beta;. The formation of the A&beta;-D-peptide heterodimers ultimately prevents the formation of toxic oligomers, therefore representing a potential therapy against Alzheimer´s disease. Additionally, in the second chapter, we present results on the coiled-coils (CC) from group-III human septins (SEPT1, SEPT2, SEPT4 and SEPT5) also studied by NMR spectroscopy. Septins are GTP-binding proteins present in most eukaryotic organisms and capable of forming filaments, which are essential in cell division. In this study, we used 1H-1H-NOESY spectra to detect the orientation and helix pairings adopted by the C-terminal coiled-coils in solution. The NOE analysis, aided by back-calculated spectra, showed that the only sequence to show an antiparallel structure was SEPT2CC; all the others are parallel. However, the disappearance of specific peaks in the NMR spectrum of SEPT5CC caused by the attachment of a paramagnetic spin label indicates an antiparallel orientation, contrary to our other NMR result. A simple evaluation of the coiled-coil heptameric positions, based on the occurrence of each amino acid residue occupying each position, revealed that both orientations are equally stable. Despite being far less stable compared to other coiled-coils, both could exist physiologically. Other results from the group also suggest that these peptides could have the ability to form both parallel and antiparallel coiled-coils. We speculate that the antiparallel conformation might be related to cross-linking between filaments. / A principal característica histológica da doença de Alzheimer é a presença de placas amiloides no cérebro de pacientes. O constituinte mais abundante dessas placas é o peptídeo &beta;-amiloide (A&beta;). Inicialmente solúvel, o peptídeo exibe em solução um intrincado equilíbrio entre estados monoméricos, oligoméricos (alguns deles tidos como as espécies tóxicas) e fibrilares, o que impossibilita sua cristalização e posterior determinação estrutural por difração de raios-X. A espectroscopia de ressonância magnética nuclear (RMN) de alta pressão foi utilizada por nosso grupo para detectar estados monoméricos raros e de alta energia do A&beta;(1-40), coexistindo em equilíbrio com oligômeros e fibras. Esse trabalho visa caracterizar a termodinâmica e a estrutura dos estados excitados raros do peptídeo A&beta; através do uso da RMN de alta pressão. Uma grande coleção de espectros de RMN do peptídeo A&beta;(1-40) em função da pressão foi coletada e analisada. Predições de estrutura secundária revelaram que o peptídeo A&beta; adota estruturas estendidas do tipo fitas-&beta;, similares àquelas encontradas em estruturas de fibras amiloides. A partir das curvas de deslocamento químico e volume de pico pela pressão, ao menos três estados monoméricos puderam ser detectados, os quais foram termodinamicamente caracterizados através do cálculo da variação das suas energias livres de Gibbs (&Delta;Gij) e volumes parciais molares (&Delta;Vij). O estudo de efeitos Overhauser nucleares (NOEs) e de acoplamentos 3JH&alpha;-HN de RMN reforçam a existência de estruturas estendidas com propensão a fitas-&beta;, tanto a pressão ambiente (0,1 MPa) quanto em alta pressão (275 MPa). A interação entre o peptídeo A&beta; e os D-peptídeos RD2 e RD2D3, inibidores D-enatioméricos de fibras, também foi caracterizada. Nossos resultados indicam que os D-peptídeos reconhecem e se ligam a uma conformação mais compacta de A&beta;. A formação dos heterodímeros A&beta;-D-peptídeo previne, por fim, a formação dos oligômeros tóxicos, representando uma potencial terapia contra a doença de Alzheimer. Adicionalmente, no segundo capítulo, apresentamos resultados sobre os coiled-coils (CC) das septinas humanas do grupo III (SEPT1, SEPT2, SEPT4 e SEPT5) também estudados por espectroscopia de RMN. Septinas são proteínas ligantes de GTP presentes na maioria dos organismos eucarióticos e capazes de formar filamentos, os quais são essenciais à divisão celular. Nesse estudo, utilizamos espectros 1H-1H-NOESY a fim de detectar a orientação e o pareamento de hélices adotados pelos coiled-coils em solução. A análise dos NOEs, auxiliada por espectros retrocalculados, mostrou que a única sequência a mostrar uma estrutura antiparalela foi SEPT2CC; todas as outras são paralelas. Entretanto, o desaparecimento de picos específicos no espectro de RMN de SEPT5CC causado pela presença de um marcador paramagnético de spin indica uma orientação antiparalela, contrário ao nosso outro resultado de RMN. Uma avaliação simples das posições heptaméricas dos coiled-coils, baseada na ocorrência de cada resíduo de aminoácido em ocupar cada posição, revelou que ambas as orientações são igualmente estáveis. Apesar de serem bem menos estáveis comparadas a outros coiled-coils, ambas poderiam existir fisiologicamente. Outros resultados do grupo também sugerem que esses peptídeos poderiam formar tanto coiled-coils paralelos quanto antiparalelos. Nós especulamos que a conformação antiparalela pode estar relacionada a ligações cruzadas entre filamentos.

Alzheimer's disease

Beta-amyloid peptide

Coiled-coil

Coiled-coil

Doença de Alzheimer

Nuclear magnetic resonance

Peptídeo beta-amiloide

Ressonância magnética nuclear

Septin

Septina

Déchiffrage des mécanismes d’assemblage des filaments de septines

Berger, Clothilde

05 1900

Les septines sont des protéines conservées de la levure à l’homme qui sont impliquées dans divers processus cellulaires tels que la cytokinèse, le transport vésiculaire et l’organisation du cortex cellulaire. Il existe 13 gènes de septines retrouvés en plusieurs isoformes chez l’humain, et seulement cinq chez Drosophila melanogaster, Sep1, Sep2, Pnut, Sep4 et Sep5, ce qui en fait un modèle idéal vu son génome simple. Les septines sont composées d’un domaine de liaison au GTP très conservé entre les espèces, dont le rôle reste à ce jour ambiguë, ainsi que de régions N et C-terminales variables. Les septines s’assemblent entre elles pour former un hexamère, composé de Sep1, Sep2 et Pnut chez Drosophila melanogaster, via l’interface N-C et G des septines. Ces hexamères s’assemblent bout à bout afin de former les filaments de septines. Ces filaments peuvent ensuite se regrouper et s’assembler en structures hautement ordonnées telles que des anneaux, des tubes, des faisceaux de filaments, des cages et elles sont retrouvées au sillon de clivage durant la cytokinèse. Le but était de déchiffrer les mécanismes d’assemblage des filaments de septines qui mènent à la formation des différentes structures, afin de mieux comprendre les mécanismes d’interaction entre les septines. Au sein des cellules S2 de Drosophila melanogaster, les septines sont retrouvées à trois structures hautement ordonnées et dépendantes de Pnut endogène : des tubes cytoplasmiques, des anneaux cytoplasmiques et le sillon de clivage durant la cytokinèse. Notre hypothèse est qu’il existe plusieurs mécanismes qui régissent la formation des structures hautement ordonnées et que ceux-ci sont dépendants des régions N et C terminales variables des septines qui sont impliquées dans plusieurs interactions. Divers mutants de Sep1, Sep2 et Pnut tronqués en N et en C-terminal ont été fusionnés à une protéine fluorescente et caractérisés par microscopie confocale. La localisation de ces mutants a été répertoriée et analysée en présence des septines endogènes ou lors de la déplétion de celles-ci. Nos résultats suggèrent que le domaine de liaison au GTP est suffisant pour le recrutement des septines au sillon de clivage durant la cytokinèse, mais que la région N-terminale est requise la formation des tubes et des anneaux cytoplasmiques dépendants de Pnut. / Septins are conserved from yeast to humans and are implicated in diverse cellular processes such as cytokinesis, vesicular transport and cellular cortical organization. There are 13 known genes that encode for human septins, which also have many isoforms, while there are only five septin genes in Drosophila melanogaster: Sep1, Sep2, Pnut, Sep4 and Sep5, which makes it an ideal model system. Septins have a conserved GTP binding domain, whose role is still not fully understood, and variable N-C-termini. Septins assemble together, via N-C and G interfaces, to form a hexamer, that is composed of Sep1, Sep2 and Pnut in Drosophila melanogaster, which assemble end-to-end to form non polar filaments. These filaments can subsequently assemble together to form higher-ordered structures, such as rings, tubes, bundles, and gauzes. Furthermore, septins are recruited to the cleavage furrow during cytokinesis although their organization there is unclear. The aim of this project is to define septin assembly mechanisms that can lead to the formation of different higher ordered structures. In Drosophila melanogaster S2 cells, septins are recruited to three, readily observable septin dependent structures: cytoplasmic rings, cytoplasmic tubes, and the cleavage furrow during cytokinesis. Our hypothesis is that multiple mechanisms govern septin incorporation into these structures and that these mechanisms differentially depend on septin N-C variable termini. A panel of mutants of Sep1, Sep2 and Pnut truncated in N-C-termini were fused to fluorescent proteins and their localization in S2 cells monitored by confocal microscopy, with or without depletion of endogenous septins. My results suggest that the GTP binding domain is sufficient for septin recruitment to the cleavage furrow during cytokinesis, but that the septin N-termini are required for recruitment to the cytoplasmic tubes and rings.

cytokinèse

structures hautement ordonnées

actine

anillin

sillon de clivage

filaments non polaires

cytokinesis

higher ordered structures

actin

cleavage furrow

non-polar filaments

septine

septin

Molekulare Charakterisierung an der hypothalamischen Appetitregulation beteiligter Rezeptoren

Tarnow, Patrick

06 January 2009

Das Körpergewicht und die Nahrungsaufnahme werden unter anderem vom Hypothalamus reguliert. Dort werden Hormonelle Signale der Peripherie und neuronale Signale integriert. Die G-Protein gekoppelten Melanocortinrezeptoren 3 und 4 (MC3R und MC4R) werden von ihren Agonisten, den Melanocortinen aktiviert und durch den inversen Agonisten/Antagonisten Agouti-Related Peptide (AgRP) inaktiviert. Als weiterer Downstream-Mediatoren der MC4R-Aktivierung wurden kürzlich Brain Derived Neurotrophic Factor (BDNF) und dessen Rezeptor TrkB (Tropomyosin-Related –Kinase) identifiziert. Mutationen im MC4R gelten als häufigste monogenetische Ursache für Adipositas. Da viele dieser Mutationen aber in vitro funktionell nicht relevant sind, wurde ein Amosäurevergleich von orthologen MC4R aus 70 verschiedenen Spezies erstellt. Funktionsverlustmutationen waren häufiger an koservierten Positionen, während Mutationen ohne Effekt überwiegend an schwach konservierten Positionen zu finden waren. Funktionelle Charakterisierung der von in Mausmodellen identifizierten Punktmutationen I194F und Y302C ergaben eine gute in-vivo/in-vitro Korrelation. Desweiteren wurden in der Normalbevölkerung in normalgewichtigen Personen identifizierte MC4R-Punktmutationen funktionell charakterisiert. Die Mutationen R7C, A70T, T112K, Q156R, M200V, V166I und R236H hatten keinen Effekt auf die Rezeptorfunktion, die H158R. Mutation zeigte eine hohe Basalaktivität, die aber durch AgRP erniedrigt werden konnte. Die in adipösen Patienten gefundenen Mutationen S136F und S139R wiesen einen kompletten Funktionsverlust auf, erstere verursachte zudem sogar einen dominant-negativen Effekt bei Koexpression mit dem Wildtyprezeptor. Für den MC3R wurde das zum Translationsstart bevorzugte Startcodon identifiziert. Für die Rezeptortyrosinkinase TrkB konnte in Hefe-2-Hybridscreens der neue Interaktionspartner Sept3 identifiziert werden. Dieses Protein bindet phosphorylierungsunabhängig an die intrazelluläre Juxtamembrandomäne. / Bodyweight and food intake are regulated by the hypothalamus which integrates peripheral hormonal and neural signals. The G-protein-coupled melanocortin-receptors 3 and 4 (MC3R and MC4R) are activated by melanocortins or inhibited by agouti-related pepetide (AgRP) and signal via the cAMP pathway. Brain-derived neurotrophic Factor (BDNF) was recently shown to signal downstream the MC4R via its receptor TrkB (tropomyosin-related kinase). Mutations in the MC4R are the most common cause of monogenetic obesity. However, many of these mutations are not functionally relevant in vitro. Here, an amino acid alignment of orthologous MC4R from over 70 species was used to evaluate reported mutations. Loss-of-function mutations were predominantly located at highly conserved positions whereas mutations without effect were located at non-conserved positions. Functional characterization of MC4R point mutations I194F (partial loss of function) and Y302C (complete loss of function) identified in mouse models showed good in vitro/in vivo correlation. Furthermore mutations found in normal weight persons were characterized: R7C, A70T, T112K, Q156K, M200V, V166I and R236H had no effect on receptor function in vitro, whereas the H158R Mutation showed high constitutive activity, which however could be diminished by AgRP. The mutations S136F and S139F identified in obese patients were characterized as complete loss-of-function mutations, the former additionally caused a dominant-negative effect on wildtype MC4R in vitro. For the MC3R the preferred start-codon for initiation of translation was identified. For TrkB Sept3 could be identified as a new interaction partner in a yeast-2-hybrid screen. This Protein belonging to the septin family binds to the intracellular juxtamembrane domain of TrkB independent of phosphorylation of the Shc-binding site.

Adipositas

G-Protein gekoppelter Rezeptor

Signaltransduktion

Hypothalamus

Neurotrophin

Melanocortin

evolutionärer Vergleich

Punktmutation

Septin

Protein-Protein-Interaktion

Translationsinitiaition

obesity

g-protein coupled receptor

hypothalamus

signaltransduction

neurotrophin

melanocortin

evolutionary approach

pointmutation

septin

protein-protein-interaction

initiation of translation

570 Biowissenschaften, Biologie

32 Biologie

YC 8100

ddc:570

Estudos bioquímicos, funcionais e estruturais da septina humana SEPT2: fatores que determinam a formação de agregados / Functional and structural studies of human SEPT2: determinant factors triggering the sefl-assembly into amyloid fibrils

Damalio, Julio Cesar Pissuti

26 October 2011

As septinas fazem parte de uma família de proteínas de ligação ao nucleotídeo guanina. As septinas têm mostrado ter um papel importante na citocinese e outros processos celulares, incluindo a determinação da polaridade celular e reorganização do citoesqueleto. Todos os membros da família de septinas são compostos por três domínios: um N-terminal variável, um domínio central GTPase e uma região C-terminal que inclui sequências de coiled-coil. Septinas possuem uma característica de polimerizarem para formar complexos hetero-oligoméricos altamente organizados, in vivo e in vitro. Estruturas homo-oligoméricas também foram observadas, embora sua função ainda não esteja bem estabelecida. A Septina 2 humana (SEPT2) se acumula no sulco de clivagem de células em divisão, desde a anáfase até a telófase, além de interagir com a actina, e também está envolvida em doenças neurodegenerativas, como mal de Azheimer. Nesse estudo, a ORF que codifica SEPT2, bem como os fragmentos que codificam seus domínios, foram clonados, expressos em E.coli e purificados por cromatografia de afinidade e cromatografia de exclusão molecular. Os produtos foram analisados por espectroscopia de dicroísmo circular, espalhamento de luz a ângulo fixo e espectroscopia de fluorescência extrínseca, usando Tioflavina-T, que é um marcador clássico para fibras amilóides. Em todos os casos, os produtos formaram homodímeros in vitro, e também agregaram em temperaturas fisiológicas. O desenovelamento térmico das proteínas recombinantes revelou a presença de uma população intermediária de desenovelamento, rica em folhas-&beta;, e que ligam Tioflavina-T, sugerindo uma estrutura amiloidogênica para essa proteína, confirmada pelos programas de predição TANGO e WALTZ. Imagens dessas fibras foram obtidas usando Microscopia eletrônica de Transmissão, evidenciando uma agregação organizada das proteínas. Além disso, usando monocamadas de Langmuir, foi possível confirmar a ligação específica de SEPT2 ao fosfolipídeo fosfatidilinositol 4,5-bifosfato (PtdIns(4,5)P2). Essa ligação específica mantém a estrutura secundária de SEPT2, observada pela técnica PM-IRRAS, algo que não ocorre caso o lipídio seja inespecífico, sugerindo uma associação de SEPT2 com a membrana plasmática e podendo ter um papel na regulação das septinas. Por meio da técnica de duplo híbrido em levedura, identificamos proteínas que interagem com a SEPT2, como a MPBI e a DCTN2, auxiliando na elucidação de processos em que a SEPT2 possa participar. O conjunto dos resultados sobre a estabilidade, os processos de agregação de SEPT2 e a identificação de novos parceiros protéicos de interação, obtidos nesse trabalho, contribuíram para o melhor entendimento da função da SEPT2 e de seu envolvimento em desordens neurodegerenativas. / Septins are members of a conserved group of GTP-binding and filament-forming proteins. They are involved in a variety of cellular processes, such as microtubule regulation, vesicle trafficking, the formation of scaffolding platforms and actin dynamics. Human Septin 2 (SEPT2) has an N-terminal polybasic region responsible for lipid binding, a GTPase domain, and a C-terminal domain. SEPT2 is essential for cytokinesis and it is found in many tissues, mainly in the brain. Together with SEPT1 and SEPT4, it is accumulated in deposits known as neurofibrillary tangles in Alzheimers disease, which is evidence that SEPT2 may be involved in this process. In this study, the human SEPT2, and its domains, were cloned, expressed in E.coli and purified by affinity and size-exclusion chromatographies. The proteins form homodimers in vitro, suggesting that the GTPase domain is enough to promote the oligomerization. Thermal unfolding revealed the formation of aggregates under physiological conditions, which have the ability to bind a specific amyloid dye, Thioflavin-T, suggesting them to be an amyloidal fiber. Besides, in silico prediction programs, TANGO and WALTZ, corroborate that SEPT2 contain regions with high probability of aggregation and amyloidogenic formation, respectively. Moreover, we observed 20-50 nm thick filamentous structures by electron microscopy of negatively stained. Using Langmuir monolayers at the cell membrane lipid packing, SEPT2 and SEPT2NG bound to the phospholipid phosphatidylinositol 4,5-bisphosphate (PtdIns(4,5)P2). Results from in situ PM-IRRAS experiments indicated that the secondary structure of SEPT2 is preserved upon interacting with PtdIns(4,5)P2, but not when interacting with DPPC - which is not specific for SEPT2 - at the air/water interface suggesting an association with the plasma membrane and a role in septin regulation. Furthermore, we also identified protein partners of SEPT2, from both human leukocyte and brain fetal cDNA libraries, using the yeast two-hybrid system. SEPT2 was shown to interact with: septins 6 and 4; a serine-protease and a MAP inhibitory protein; an ubiquitin-conjugating enzyme; and proteins related to cellular division. Thus, taken together this study contributed for the knowledgment of the stability and the aggregation kinetic of the SEPT2, leading to a better understanding of this protein and their role in neurodegenerative disorders.

Agregação

Amilóide

Amyloid

Doenças neurodegenerativas

Duplo híbrido em levedura

Fosfatidil-inositol 4.5-bifosfato

GTP-binding

Homodímeros

Ligação a GTP

Neurofibrillary tangles

Phosphatidylinositol 4.5-bisphosphate

Septin

Septinas

Estudos bioquímicos, funcionais e estruturais da septina humana SEPT2: fatores que determinam a formação de agregados / Functional and structural studies of human SEPT2: determinant factors triggering the sefl-assembly into amyloid fibrils

Julio Cesar Pissuti Damalio

26 October 2011

As septinas fazem parte de uma família de proteínas de ligação ao nucleotídeo guanina. As septinas têm mostrado ter um papel importante na citocinese e outros processos celulares, incluindo a determinação da polaridade celular e reorganização do citoesqueleto. Todos os membros da família de septinas são compostos por três domínios: um N-terminal variável, um domínio central GTPase e uma região C-terminal que inclui sequências de coiled-coil. Septinas possuem uma característica de polimerizarem para formar complexos hetero-oligoméricos altamente organizados, in vivo e in vitro. Estruturas homo-oligoméricas também foram observadas, embora sua função ainda não esteja bem estabelecida. A Septina 2 humana (SEPT2) se acumula no sulco de clivagem de células em divisão, desde a anáfase até a telófase, além de interagir com a actina, e também está envolvida em doenças neurodegenerativas, como mal de Azheimer. Nesse estudo, a ORF que codifica SEPT2, bem como os fragmentos que codificam seus domínios, foram clonados, expressos em E.coli e purificados por cromatografia de afinidade e cromatografia de exclusão molecular. Os produtos foram analisados por espectroscopia de dicroísmo circular, espalhamento de luz a ângulo fixo e espectroscopia de fluorescência extrínseca, usando Tioflavina-T, que é um marcador clássico para fibras amilóides. Em todos os casos, os produtos formaram homodímeros in vitro, e também agregaram em temperaturas fisiológicas. O desenovelamento térmico das proteínas recombinantes revelou a presença de uma população intermediária de desenovelamento, rica em folhas-&beta;, e que ligam Tioflavina-T, sugerindo uma estrutura amiloidogênica para essa proteína, confirmada pelos programas de predição TANGO e WALTZ. Imagens dessas fibras foram obtidas usando Microscopia eletrônica de Transmissão, evidenciando uma agregação organizada das proteínas. Além disso, usando monocamadas de Langmuir, foi possível confirmar a ligação específica de SEPT2 ao fosfolipídeo fosfatidilinositol 4,5-bifosfato (PtdIns(4,5)P2). Essa ligação específica mantém a estrutura secundária de SEPT2, observada pela técnica PM-IRRAS, algo que não ocorre caso o lipídio seja inespecífico, sugerindo uma associação de SEPT2 com a membrana plasmática e podendo ter um papel na regulação das septinas. Por meio da técnica de duplo híbrido em levedura, identificamos proteínas que interagem com a SEPT2, como a MPBI e a DCTN2, auxiliando na elucidação de processos em que a SEPT2 possa participar. O conjunto dos resultados sobre a estabilidade, os processos de agregação de SEPT2 e a identificação de novos parceiros protéicos de interação, obtidos nesse trabalho, contribuíram para o melhor entendimento da função da SEPT2 e de seu envolvimento em desordens neurodegerenativas. / Septins are members of a conserved group of GTP-binding and filament-forming proteins. They are involved in a variety of cellular processes, such as microtubule regulation, vesicle trafficking, the formation of scaffolding platforms and actin dynamics. Human Septin 2 (SEPT2) has an N-terminal polybasic region responsible for lipid binding, a GTPase domain, and a C-terminal domain. SEPT2 is essential for cytokinesis and it is found in many tissues, mainly in the brain. Together with SEPT1 and SEPT4, it is accumulated in deposits known as neurofibrillary tangles in Alzheimers disease, which is evidence that SEPT2 may be involved in this process. In this study, the human SEPT2, and its domains, were cloned, expressed in E.coli and purified by affinity and size-exclusion chromatographies. The proteins form homodimers in vitro, suggesting that the GTPase domain is enough to promote the oligomerization. Thermal unfolding revealed the formation of aggregates under physiological conditions, which have the ability to bind a specific amyloid dye, Thioflavin-T, suggesting them to be an amyloidal fiber. Besides, in silico prediction programs, TANGO and WALTZ, corroborate that SEPT2 contain regions with high probability of aggregation and amyloidogenic formation, respectively. Moreover, we observed 20-50 nm thick filamentous structures by electron microscopy of negatively stained. Using Langmuir monolayers at the cell membrane lipid packing, SEPT2 and SEPT2NG bound to the phospholipid phosphatidylinositol 4,5-bisphosphate (PtdIns(4,5)P2). Results from in situ PM-IRRAS experiments indicated that the secondary structure of SEPT2 is preserved upon interacting with PtdIns(4,5)P2, but not when interacting with DPPC - which is not specific for SEPT2 - at the air/water interface suggesting an association with the plasma membrane and a role in septin regulation. Furthermore, we also identified protein partners of SEPT2, from both human leukocyte and brain fetal cDNA libraries, using the yeast two-hybrid system. SEPT2 was shown to interact with: septins 6 and 4; a serine-protease and a MAP inhibitory protein; an ubiquitin-conjugating enzyme; and proteins related to cellular division. Thus, taken together this study contributed for the knowledgment of the stability and the aggregation kinetic of the SEPT2, leading to a better understanding of this protein and their role in neurodegenerative disorders.

Agregação

Amilóide

Doenças neurodegenerativas

Duplo híbrido em levedura

Fosfatidil-inositol 4.5-bifosfato

Homodímeros

Ligação a GTP

Septinas

Amyloid

GTP-binding

Neurofibrillary tangles

Phosphatidylinositol 4.5-bisphosphate

Septin