Regulation of Cell Polarity by Septin 7

Cheng, Catherine Valerie

30 November 2011

Septins are a group of filament forming proteins that act as scaffolds and diffusion barriers that regulate various cellular functions, such as cytokinesis. Recently, evidence was obtained in our laboratory that septins may also regulate mammalian cell polarity through their interaction with Par3, an important metazoan polarity regulator. In this thesis I sought to examine whether septins regulated the polarization of migrating cells through their interaction with Par3 as well as how this interaction occurred. I demonstrated that the C terminus of Sept7 was capable of binding to Par3 in vitro. Sept7 was also able to colocalize with Par3, but an interaction between the two proteins could not be detected by immunoprecipitation. Migration assays used to examine the significance of Sept7 in polarization showed a small decrease in polarization after Sept7 depletion. This suggests that septins may play a non-essential role in regulating the polarization of migrating cells.

septins

cell polarity

0379

Regulation of Cell Polarity by Septin 7

Cheng, Catherine Valerie

30 November 2011

Septins are a group of filament forming proteins that act as scaffolds and diffusion barriers that regulate various cellular functions, such as cytokinesis. Recently, evidence was obtained in our laboratory that septins may also regulate mammalian cell polarity through their interaction with Par3, an important metazoan polarity regulator. In this thesis I sought to examine whether septins regulated the polarization of migrating cells through their interaction with Par3 as well as how this interaction occurred. I demonstrated that the C terminus of Sept7 was capable of binding to Par3 in vitro. Sept7 was also able to colocalize with Par3, but an interaction between the two proteins could not be detected by immunoprecipitation. Migration assays used to examine the significance of Sept7 in polarization showed a small decrease in polarization after Sept7 depletion. This suggests that septins may play a non-essential role in regulating the polarization of migrating cells.

septins

cell polarity

0379

Characterization of a Novel Interaction Between Septins and the Adenomatous Polyposis Coli Tumor Suppressor.

Bejide, Margaret Temitope

14 December 2010

Septins are evolutionarily conserved proteins with roles in chromosome congression and segregation, cytokinesis and microtubule destabilization. Septins form homo- and hetero-oligomeric complexes, which are thought to act as dynamic scaffolds. We identified SEPT2/9/11/10 as novel interacting partners of adenomatous polyposis coli (APC), a bona fide tumor suppressor. Since septins and APC have similar roles and knockdown phenotypes, I sought to determine if they work together to perform their cellular functions. I showed that APC co-immunoprecipitates with endogenous septins in colon cancer cell lines. Using siRNA, I found that SEPT2 and APC may function within the same pathway to regulate DNA congression and segregation. Co-depleting SEPT9 with APC slightly alleviates the chromosome congression and segregation defects caused by siAPC alone. siSEPT9 increased abscission times, which was rescued by co-depleting APC. Future studies should elucidate the significance of the rescue data obtained upon APC and SEPT9 co-depletion and APC’s interactions with SEPT10/11.

septins

APC

knockdown

abscission

0487

Characterization of a Novel Interaction Between Septins and the Adenomatous Polyposis Coli Tumor Suppressor.

Bejide, Margaret Temitope

14 December 2010

Septins are evolutionarily conserved proteins with roles in chromosome congression and segregation, cytokinesis and microtubule destabilization. Septins form homo- and hetero-oligomeric complexes, which are thought to act as dynamic scaffolds. We identified SEPT2/9/11/10 as novel interacting partners of adenomatous polyposis coli (APC), a bona fide tumor suppressor. Since septins and APC have similar roles and knockdown phenotypes, I sought to determine if they work together to perform their cellular functions. I showed that APC co-immunoprecipitates with endogenous septins in colon cancer cell lines. Using siRNA, I found that SEPT2 and APC may function within the same pathway to regulate DNA congression and segregation. Co-depleting SEPT9 with APC slightly alleviates the chromosome congression and segregation defects caused by siAPC alone. siSEPT9 increased abscission times, which was rescued by co-depleting APC. Future studies should elucidate the significance of the rescue data obtained upon APC and SEPT9 co-depletion and APC’s interactions with SEPT10/11.

septins

APC

knockdown

abscission

0487

The role of SEPT2 on neuronal development

Kim, Hyun Jong,

January 2009

Thesis (Ph. D.)--Rutgers University, 2009. / "Graduate Program in Cell and Developmental Biology." Includes bibliographical references (p. 85-120).

Investigating the role of the exocyst complex in infection-related development of the rice blast fungus Magnaporthe oryzae

Gupta, Yogesh Kumar

January 2014

Host colonization is mediated through the secretion of effector proteins in order to neutralize host immune responses. However, the mechanism of the effector delivery during biotrophic invasion is not well defined in M. oryzae. In this thesis, I define the role of the exocyst complex, an evolutionarily conserved octameric protein complex involved in vesicle docking to the plasma membrane (composed of Sec3, Sec5, Sec6, Sec8, Sec10, Sec15, Exo70 and Exo84), during infection-related development in M. oryzae. Like other filamentous fungi, M. oryzae, exocyst components localize to the vegetative hyphal tip distinct from the Spitzenkörper. However, at the initial stage of infection-related development all the exocyst components localise as a ring at the cortex of the appressorium and re-assembles around the appressorium pore in an actin-dependent manner in mature appressoria. I report that the septin network is required for the transition of exocyst ring from periphery to the appressorium pore. Deletion of Exo70 and Sec5 showed significant reduction in protein secretion and plant infection. I show that Sec6 is required for the exocyst assembly around the appressorium pore and effector secretion from the appressorium. I report that, during biotrophic invasion, effectors are secreted through a distinct pathway. Apoplastic effectors, Bas4 and Slp1 are secreted via a Golgi-dependent pathway while secretion of cytoplasmic effectors, Pwl2 and Bas1 meditates through a Golgi-independent pathway in which exocyst components Exo70 and Sec5 are involved.

500

Septinas de Ciona intestinalis: estudos voltados à formação de heterocomplexos / Ciona intestinalis septins: heterocomplex assembly studies

Morais, Sinara Teixeira do Brasil

24 April 2019

Septinas são proteínas que ligam GTP e interagem entre si formando heterocomplexos, os quais se organizam em filamentos e estruturas de maior nível de organização. Em humanos são encontrados 13 genes que codificam septinas, as quais se dividem em 4 grupos com base na similaridade de sua organização estrutural. Análises filogenéticas identificaram quatro septinas ortólogas no deuterostômio Ciona intestinalis, as quais apresentam, cada uma, identidade com um dos quatro grupos de septinas de mamíferos. Tais proteínas foram nomeadas CiSEPT2, CiSEPT6, CiSEPT7 e CiSEPT9 devido a identidade com as septinas humanas. Sabe-se que septinas de diferentes grupos interagem entre si formando heterocomplexos e, assim, a possibilidade de formar um oligômero único em C. intestinalis permite um modelo mais simples para o estudo da organização dos filamentos. Análises de bioinformática identificaram nessas proteínas motivos estruturais típicos de septinas, incluindo resíduos conservados para a ligação e hidrólise do GTP. As proteínas foram produzidas de forma heteróloga e a capacidade hidrolítica tanto de CiSEPT2 como de CiSEPT7 foiram confirmadas diretamente. Em contrapartida, CiSEPT6 não apresentou atividade catalítica. Um sistema de coexpressão foi construído no qual as quatro septinas de C. intestinalis foram co-expressas e co-purificadas em diferentes arranjos, resultando na formação de heterocomplexos parciais além daquele contendo as quatro subunidades. A avaliação do estado oligomérico dos heterocomplexos parciais mostrou que estes correspondem majoritariamente a tetrâmeros e hexâmeros quando formados, respectivamente, por duas ou três subunidades. Estes oligômeros foram analisados por microscopia eletrônica de transmissão (MET) em que se observou que os mesmos se dispõem na forma de um bastão. Ensaios ainda mostraram que a polimerização desses oligômeros é dependente de CiSEPT2 sugerindo que esta subunidade esteja possivelmente posicionada na extremidade do heterocomplexo. Adicionalmente, ensaios de polimerização realizados com o complexo CiSEPT2/6/7/9 revelaram que este é capaz de interagir com filamentos adjacentes, possivelmente via coiled-coil, formando estruturas de mais alta ordem, similar aos já observados em S. cerevisiae. Finalmente, experimentos utilizando termoforese em microescala (MST) mostraram uma maior afinidade de interação entre as subunidades quando oligômeros estão envolvidos, indicando que estes podem atuar como fator de nucleação para a formação dos heterocomplexos. Esse trabalho apresenta os primeiros estudos de caracterização das septinas de C. intestinalis mostrando a formação do heterocomplexo e representa um modelo simplificado e viável para estudos estruturais relativos a formação de filamentos de septinas. Assim, através de uma abordagem comparativa com complexos oriundos de outros organismos, este novo complexo poderá contribuir para a compreensão do mecanismo de montagem e controle da polimerização de septinas. / Septins are GTP-binding proteins that interact with each other forming heterocomplexes, filaments and higher order structures. The human genome encodes 13 septins, which are divided into 4 subgroups based on sequence similarity. Phylogenetic analysis demonstrated that only a single representative of each of these subgroups is present in the non-vertebrate chordate Ciona intestinalis. These proteins are named CiSEPT2, CiSEPT6, CiSEPT7 and CiSEPT9 due to their great similarity with human septins. Once septins from different subgroups are able to interact among themselves to form hetero-oligomeric complex, C. intestinalis representatives can be used as a simpler model for studies of septin complex assembly. Bioinformatics analysis identified typical structural motifs of septins in these proteins, including conserved residues for binding and hydrolysis of GTP. These septins were expressed and characterized biophysically and biochemically revealing that CiSEPT2 and CiSEPT7 are capable of hydrolyzing GTP. In contrast, CiSEPT6 showed no catalytic activity. A coexpression system were designed in which the four septins of C. intestinalis were co-expressed and co-purified in different arrangements, resulting the formation of partial heterocomplexes in addition to that containing the four subunits. The oligomeric state of the partial heterocomplexes were confirmed corresponding to tetramer and hexamers when formed, respectively, by two or three subunits. Transmission electron microscopy analysis revealed that these oligomers assemblies are rod-like structures. The polymerization of these oligomers is dependent on CiSEPT2 suggesting that this subunit occupies possibly the terminal positions of the heterocomplex. Additionally, polymerization assays performed with the CiSEPT2/6/7/9 complex revealed that it is capable of interacting with adjacent filaments, possibly via coiled-coil, forming higher order structures similar to those already reported in S. cerevisiae. Finally, the interaction strenght among C. intestinalis septins were determined using microscale thermoforesis (MST), revealing a higher binding affinity when titration involves small oligomers instead of monomers, indicating that these may act as a nucleating factor for heterocomplex assembly. This work constitutes the first characterization of C. intestinalis septins presenting the heterocomplex assembly and represents a simplified and potential model for structural studies regarding the filaments assembly of septins. Thus, comparative studies involving complexes from other organisms may contribute to the understanding of the assembly mechanism and polymerization control of septins.

Ciona intestinalis

Ciona intestinalis

Filamentos

Filaments

Heterocomplexes

Heterocomplexos

Septinas

Septins

Análise das interfaces de interação septina-septina / Analysis of the septin-septin interaction interfaces

Martins, Carla Silva

28 June 2017

Septinas pertencem a uma família de proteínas de ligação a GTP e são encontradas em diversos eucariontes, participando de diferentes processos celulares citoesqueléticos. As septinas apresentam um domínio central de ligação a GTP (domínio G) flanqueado por uma região amino-terminal e outra carboxi-terminal. As septinas se caracterizam por interagirem entre si formando heterocomplexos que se polimerizam, constituindo filamentos. A única estrutura resolvida de um complexo de septinas é de um hexâmero, composto por duas subunidades de três septinas humanas diferentes: SEPT7-SEPT6-SEPT2-SEPT2-SEPT6-SEPT7. Esta estrutura revelou que a formação do filamento envolve interações conservadas entre os domínios G, estando o restante da estrutura desordenado no cristal. Além disso, mostrou que dois tipos de interface se alternam ao longo do filamento, as chamadas interfaces G (que incluem a região de ligação do nucleotídeo de duas subunidades) e interfaces NC (que incluem as regiões N e C-terminais do domínio G). Várias evidências sugerem que as regiões C-terminais da proteína sejam as principais responsáveis pela seleção do parceiro correto de interação para montagem dos heterocomplexos. Nesse contexto, buscou-se avaliar a importância das regiões C-terminais na seleção das parceiras SEPT6 e SEPT7 para formar a interface NC, frente ao domínio G. Inicialmente, uma septina quimérica foi produzida de forma a conter o domínio G de SEPT2 e o C-terminal de SEPT6, gerando SEPT2G6C. As proteínas SEPT7GC, SEPT6GC, SEPT2GC e SEPT2G6C foram expressas e purificadas separadamente. Análises de estabilidade térmica e de afinidade proteína-proteína dos pares indicou que a quimera foi capaz de interagir com SEPT7GC, gerando o heterodímero SEPT7GC-SEPT2G6C, mas este não se mostrou tão estável quanto o heterodímero fisiológico. Foi também avaliada a importância da ligação do nucleotídeo para formação da interface G e, para isso, foram construídos os mutantes SEPT2GT78M e SEPT2GD185N, cujos resíduos importantes para hidrólise e ligação do nucleotídeo, respectivamente, foram alterados. A análise de oligomerização por cromatografia de exclusão molecular mostrou deslocamento no volume de eluição das proteínas expressas sozinhas e coexpressas com SEPT6G, indicando que a formação do dímero via interface G depende da ligação do nucleotídeo, mas não da sua hidrólise. Finalmente, foi avaliada a estabilidade térmica e estrutural e a propensão à formação de amilóides do heterodímero SEPT6G-SEPT2G, o qual apresentou maior estabilidade estrutural quando comparado ao homodímero de SEPT2G, mas ainda exibiu alteração de sua estrutura para um estado capaz de ligar Thioflavina-T, sugerindo a formação de amilóides. Entretanto, isso foi observado em temperaturas cerca de 30 ºC acima daquela observada para o homodímero, confirmando a maior estabilidade do heterodímero e sugerindo que a formação da interface G com o parceiro correto pode ser um fator importante na prevenção da formação de estruturas amilóides à temperaturas fisiológicas. / Septins belong to a family of GTP binding proteins and are found in several eucaryotes, participating in different cytoskeletal cell processes. The septins have a central GTP binding domain (G domain) flanked by an amino-terminal and a carboxy-terminal regions. The septins are characterized by the ability to interact with each other forming heterocomplexes which polymerize themselves, forming filaments. The only solved structure of a septin complex is a hexamer, formed by two subunits of three different human septins: SEPT7-SEPT6-SEPT2- SEPT2-SEPT6-SEPT7. This structure revealed that the filament arrangement involves conserved interaction between G domains, being the remainder of the structure disordered in the crystal. Moreover, two types of interface alternate along the filament were shown, socalled G interfaces (which include the nucleotide binding region of the two subunits) and NC interfaces (which include the N- and C- terminal regions of G domain). Plenty of evidences suggest that C-terminal regions of the protein are the main responsible for the selection of the correct interaction partner to assembly of heterocomplexes. In this context, it was sought to evaluate the importance of the C-terminal regions in the selection of the partnerships SEPT6 and SEPT7 to form the NC interface, against the G domain. For this, a chimerical septin was designed so that contains the G-domain of SEPT2 and the C-terminal of SEPT6, creating SEPT2G6C. The SEPT7GC, SEPT6GC, SEPT2GC and SEPT2G6C proteins were expressed and purified individually. Thermal stability and protein-protein affinity analysis of the pairs indicated that the chimera was able to interact with SEPT7GC, forming the heterodimer SEPT7GC-SEPT2G6C, which, however, did not show as stable as the physiological heterodimer. The importance of nucleotide binding to the interaction through G interface was also evaluated and, for that, SEPT2 mutants on GTP-domain were constructed, SEPT2T78M and SEPT2D185N, whose important residues in the hydrolysis and linking of nucleotide, respectively, were changed. Oligomerization analysis by size exclusion chromatography showed a shift in the elution volume of proteins expressed alone and coexpressed with SEPT6, indicating that the complexation of proteins to form G interface depends on the nucleotide binding, but not on its hydrolysis. Finally, the thermal and structural stability and the propensity to amyloid formation of heterodimer SEPT6G-SEPT2G were evaluated, which showed greater structural stability when compared to SEPT2 homodimers, but still exhibited alteration of its structure to a state that was able to bind Thioflavin-T, suggesting amyloid formation. However, this was observed at temperatures around 30 ºC above that observed for the homodimer, confirming the greater conformational stability of the heterodimer and suggesting that the formation of G interface with the right partner can be an important factor of the amyloid filament prevention at physiological temperatures.

Amilóides

Amyloids

Interação protéica

Protein interaction

Septinas

Septins

Estudos estruturais do processo de agregação entre proteínas amilóides em solução / Structural studies of the process of aggregation between amyloid proteins in solution

Sales, Elisa Morandé

02 April 2012

Septinas fazem parte de uma família de proteínas de ligação ao nucleotídeo guanina que atuam no ciclo de divisão celular e também são amplamente encontradas em doenças neurodegenerativas tais como mal de Parkinson e Alzheimer e em alguns tipos de câncer como leucemia, linfoma e tumores sólidos. Neste trabalho investigamos como a temperatura e a concentração impactam na agregação do domínio GTPase da septina 2 (SEPT2G), podendo levar a formação de bras amilóides, por espalhamento de luz (DLS) e Raios-X a baixos ângulos (SAXS). Resultados de DLS revelaram que a cinética de agregação da proteína é da ordem de segundos para temperaturas maiores que 25ºC. Os dados de SAXS da proteina a 0,5 mg/ml mostraram que a SETP2G é um dímero em solução aquosa a 4ºC e esta conguração se mantém estável por cerca de 1 hora de observação experimental. A 15ºC, os resultados de SAXS revelaram uma coexistência de três populações em solução compostas por 88% de dímeros, 10% de agregados pequenos tipo-cilindros (protobrilas), e 2% de agregados grandes maiores que a resolução da técnica. Após cerca de 30 minutos existe um rearranjo preferencial de dímeros em favor de agregados muito grandes cuja contribuição à curva de espalhamento torna-se 8%. A 25ºC, a porcentagem de dímeros decresce para 70% com uma contribuição de cerca de 30% de agregados grandes já no início das medidas experimentais. Nas temperaturas de 37ºC e 45ºC, dímeros e agregados muito grandes coexistem em solução desde o início das medidas experimentais, cujo equilíbrio se desloca rapidamente tal que após 20 minutos de observação a solução é composta majoritariamente por agregados muito grandes, identicados como estruturas amilóides pela técnica de uorescência da tioavina, que se intercala em estruturas cross-. A 1 mg/mL e temperatura de 4ºC, a proteína permaneceu estável durante cerca de 1 hora de observação sendo que existe um equilíbrio de dímeros (93%) com agregados alongados (contendo cerca de 80 monômeros) em solução. Com o aumento da temperatura para 15ºC, a maioria da população ainda é dimérica. Já a 25ºC, a presença de agregados muito grandes é bem significativa (da ordem de 30% coexistindo com dímeros e oligômeros). A 37ºC e 45ºC existe a formação de grandes agregados similar ao observado para a SEPT2G a 0,5 mg/mL. Em suma, os resultados de SAXS demonstraram que a SEPT2G tem uma cinética muito rápida de agregação a temperatura siológica, acentuada com o aumento de concentração da proteína em solução. / Septins are proteins from the GTP-binding family and participate in cell division cycle performing functions such as secretion and cytoskeletal division. They can also be found in neurodegenerative conditions as Alzheimer\'s and Parkinson\'s diseases and some kinds of cancer as leukemia, lymphoma and solid tumors. In this work, we investigated the influence of temperature and concentration on the septin 2 GTPase domain (SEPT2G) aggregation using dynamic light scattering (DLS) and small angle x-ray scattering (SAXS). DLS results revealed the protein aggregation kinetic is around seconds for temperatures above 25ºC. SAXS data of the protein at 0.5 mg/mL showed that SEPT2G is a dimer in aqueous solution at 4_C and this condition is kept stable for approximately one hour of experimental observation. At 15ºC, SAXS results revealed the coexistence of three populations in solution composed by 88% of dimers, 10% of cylinder-like smaller aggregates (protofibrils) and 2% of aggregates bigger than the technique detection. After 30 minutes there is a preferential rearrangement of dimers into very large aggregates which contribution on the scattering curve becomes 8%. At 25ºC, the dimers percentage decreases to 70% with a contribution of circa 30% of bigger aggregates, even at the beginning of data acquisition. At temperatures of 37ºC and 45ºC, dimers and very large aggregates coexist in solution since the beginning of data acquisition, which equilibrium quickly shifts in such a way that after 20 minutes of observation the solution is mostly composed by very large aggregates, indented as amyloid structures by the thioflavine fluorescence technique, which intercalates in the cross- structures. At 1 mg/mL and 4ºC, the protein was stable over 1 hour of observation where an equilibrium of dimers (93%) and elongated structures (composed by approximately 80 monomers) in solution takes place. Increasing the temperature to 15ºC, most of the protein remains dimeric. On the other hand, at 25ºC the very large aggregates contribution is around 30% coexisting with dimers and oligomers. At 37ºC and 45ºC there is the formation of large aggregates, similar to what was observed at 0.5 mg/mL. In conclusion, our SAXS results indicated that the aggregation process of SEPT2G in solution may follow different pathways depending on concentration and temperature.

Amyloid proteins

Proteínas Amilóides

SAXS

SAXS

Septinas

septins

Oligodendroglial anillin facilitates septin assembly to prevent myelin outfoldings

Erwig, Michelle Scarlett

28 January 2019

No description available.

570

Biologie (PPN619462639)