The effect of the polyglutamine expansion of the Androgen Receptor on the ubiquitin proteasome system for protein degradation

Scanlon, Thomas Carr.

January 1900

Thesis (Ph.D.). / Written for the Dept. of Human Genetics. Title from title page of PDF (viewed 2008/02/12). Includes bibliographical references.

Effects of the lipid peroxidation product 4-hydroxy-2-nonenal on protein degradation and refolding pathways /

Carbone, David L.

January 2005

Thesis (Ph.D. in Toxicology) -- University of Colorado at Denver and Health Sciences Center, 2005. / Typescript. Includes bibliographical references (leaves 128-138).

Protein aggregation in peripheral myelin protein 22 (pmp22)-associated neuropathies

Fortun, Jenny,

January 2005

Thesis (Ph.D.)--University of Florida, 2005. / Typescript. Title from title page of source document. Document formatted into pages; contains 123 pages. Includes Vita. Includes bibliographical references.

Etude de la structure et du mécanisme d’action du complexe unfoldase PAN, un activateur du protéasome 20S / Structural, dynamical and functional study of the proteasome activating complex (PAN)

Ibrahim, Ziad

14 April 2016

La dégradation intracellulaire des protéines est un processus fondamental qui a lieu dans tous les organismes, depuis les bactéries jusqu’aux êtres humains. La dégradation continuelle des protéines est nécessaire pour réguler les concentrations intracellulaires d’enzymes qui contrôlent toutes les réactions métaboliques, ainsi que le contenu général de toutes les autres protéines, en réponse aux modifications physiologiques. Un état d’équilibre dynamique se crée ainsi où la concentration intracellulaire d’une protéine peut être modulée aussi par des modifications de la vitesse de dégradation et de la vitesse de synthèse. Le travail présenté dans cette thèse porte sur le complexe d’activation du protéasome des cellules d’archaea (PAN). PAN est un complexe hexamerique énergie-dépendant découvert chez les archaeas et impliqué dans le dépliement des protéines substrat pour faciliter leur dégradation par le protéasome 20S. Toutes les études structurales du complexe PAN assemblé n’ont pas réussi à révéler la structure de la protéine à cause des difficultés rencontrées au niveau de la préparation et la stabilité des échantillons. La première partie du travail présenté a permis de déterminer une structure par Cryo-microscopie électronique et un modèle pseudo-atomique du complexe PAN hexamerique de Pyrococcus horikoshii. De plus, l’étude des différents états conformationnels du complexe induits par liaison du nucléotide ont permis de gagner plusieurs informations sur le mécanisme des unfoldases AAA+ et de proposer un mode d’action du complexe PAN. La seconde partie de l’étude a conduit à élucider la question sur la dynamique et les changements conformationnels des systèmes AAA+ unfoldases en général et du complexe PAN en particulier pendant le dépliement des protéines substrats. La méthode de variation de contraste en diffusion de neutrons aux petits angles (SANS) couplée avec de la spectroscopie de fluorescence appliqué à l’étude en temps réel du processus de dépliement de substrat par le système PAN de Methanococcus jannaschii a permis de révéler, pour la première fois, des mouvements de contraction de PAN pendant le dépliement du substrat induits par l’hydrolyse de l’ATP et suivis par une relaxation de la molécule à la fin du processus. Le mécanisme de dépliement par PAN semble être un mouvement de pompage péristaltique qui entraine un dépliement directionnel du substrat. L’ensemble de ce travail contribue à mieux comprendre la structure et le mécanisme d’action de la machine PAN dans les cellules et d’avoir une idée plus claire sur la dynamique fonctionnelle des complexes AAA+ à l’origine de leurs fonctions biologiques. / Intracellular protein degradation is a fundamental process occurring in all organisms, from bacteria to human. The continual degradation of proteins is necessary for regulating the intracellular levels of enzymes that control all metabolic reactions, as well as the general content of all other proteins, in response to physiological changes. A state of a dynamic equilibrium is created where the intracellular concentration of a protein can be modulated by changes in the synthesis rate as well as the degradation rate. The work presented in this thesis deals with the proteasome activating complex from archaeal cells (PAN). PAN is an energy dependent hexameric complex discovered in archaea and involved in the unfolding of protein substrates to facilitate their degradation by the 20S proteasome. All the previous structural studies on the assembled PAN complex have failed in revealing the structure of the whole complex because of the difficulties encountered during sample preparation and stabilization. In the first part of this work we determined a Cryo-electron microscopy structure and a pseudo-atomic model of the hexameric PAN complex from Pyrococcus horikoshii. In addition, the study of the different conformational states of the PAN complex induced by nucleotide binding helped in gaining several information about the AAA+ unfoldases mechanism and to propose a mode of action of the PAN complex. The second part of the study led to elucidate the question about the dynamic and the conformational changes of the AAA+ unfoldases in general and the PAN complex in particular. The method of contrast variation in Small Angle Neutron Scattering (SANS) coupled with online fluorescence spectroscopy applied to study, in real-time, the substrate unfolding process by the PAN complex from Methanococcus jannaschii allowed to reveal, for the first time, a contraction movements of PAN during substrate unfolding induced by ATP hydrolysis and followed by a relaxation of the molecule at the end of the process. The unfolding mechanism processed by PAN appears to be a peristaltic pumping motion that leads to a directional unfolding of the substrate. The whole work presented in this thesis contributes in understanding the structure and the mechanism of action of the PAN molecular machine inside the cells and to have a clearer idea about the functional dynamics of the AAA+ complexes at the origin of their biological functions.

Protéines

Neutrons

Protéasome

Conformation

Pan

Depliement

Proteins

Neutrons

Proteasome

Conformation

Pan

Unfolding

530

Schistosoma mansoni: caracterização do perfil de resposta aos estresses oxidativo, térmico e químico / Schistosoma mansoni: Caracterização do perfil de resposta aos estresses oxidativo, térmico e químico

Renato Graciano de Paula

15 February 2013

A esquistossomose mansônica é a segunda maior endemia parasitária do mundo em termos de extensão das áreas endêmicas e do número de pessoas infectadas com 200 milhões de pessoas acometidas. Esta doença é causada pelo parasito trematódeo Schistosoma mansoni, o qual apresenta adequados mecanismos de resposta ao estresse envolvendo a regulação da expressão gênica e proteica, reparo ou substituição de moléculas danificadas, recuperação do balanço redox, controle do ciclo celular e apoptose. O sistema ubiquitina- proteassoma é importante para manter a homeostase proteica durante o estresse celular. Inibidores do proteassoma podem interferir em processos como crescimento, progressão do ciclo celular e replicação, e os seus efeitos vem sendo caracterizados em muitos parasitos. Nosso laboratório demonstrou que MG132 reduz o número de esquistossômulos, a carga parasitária e a ovoposição em camundongos infectados com S. mansoni. Neste trabalho, são descritos os efeitos in vitro do estresse oxidativo, choque térmico e estresse químico em vermes adultos de S. mansoni. Observou-se alteração no perfil de expressão proteica durante estresse oxidativo e térmico, sendo identificadas dezoito proteínas upreguladas nestas condições. Estas proteínas estão envolvidas em muitas vias intracelulares como dobramento de proteínas, proteólise, ligação a íons cálcio, regulação de proteínas e resposta a estresse. Além disso, o estresse oxidativo gerou mudanças em vermes adultos de S. mansoni em processos como produção de ovos, motilidade, morfologia do tegumento, viabilidade e pareamento dos vermes. O estresse químico induzido com Curcumina, IBMX e MG132 aumentou a produção de ROS intracelular e alterou o perfil de expressão de enzimas antioxidantes em S. mansoni. As enzimas SmGPx1 e SmPGx2 tiveram a expressão aumentada no estresse com Curcumina e IBMX, enquanto que SmSOD e SmTGR foram induzidas no estresse com Curcumina. As enzimas do proteassoma SmHul5 e SmUbp6 tiveram a expressão modulada durante o estresse oxidativo, choque térmico e estresse químico. Em adição, a análise de expressão no ciclo de vida de S. mansoni revelou que estes genes apresentam um nível alto de expressão em esporocistos, esquistossômulos e miracídios. Estes resultados sugerem que estas proteínas acessórias do proteassoma participam da resposta ao estresse e desenvolvimento do parasito. O nível de expressão de SmHul5 e SmUbp6 foi cerca 9 e 16 vezes menor em relação ao controle no estresse químico induzido com IBMX, respectivamente, sugerindo a desmontagem do proteassoma. Por outro lado, Curcumina, MG132, estresse oxidativo e choque térmico aumentaram o nível de expressão de SmHul5 e SmUbp6. Além disso, o nível de expressão da proteína de maturação do proteassoma (SmPOMP) aumentou no estresse com Curcumina, MG132 e estresse oxidativo, sugerindo a síntese de novas populações de proteassoma. Em relação ao estresse oxidativo, nós demonstramos o aumento no nível proteico de proteassoma 20S e da subunidade alfa-3 do proteassoma sugerindo que em S. mansoni as proteínas oxidadas são degradadas pelo proteassoma 20S. Além do mais, nós observamos que vermes adultos de S. mansoni parecem utilizar mecanismos de resposta similares para diferentes estresses. Nossos resultados demonstraram que o estresse oxidativo, choque térmico e estresse químico modificam o perfil de expressão de genes relacionados ao sistema ubiquitina-proteassoma e sugerem que o proteassoma é importante para as respostas celulares ao estresse neste parasito. / Schistosomiasis is a neglected tropical disease caused by blood flukes (genus Schistosoma) and affecting 200 million people worldwide. This disease continues to rank, following malaria, at the second position of the world\'s parasitic diseases in terms of the extent of endemic areas and the number of infected people. There are different types of stress and the organisms have many mechanisms to respond to these stressor agents. The responses involve the regulation of gene and protein expression and consist in events such as repair or substitution of damaged molecules, recovery of redox balance, cell cycle control and apoptosis. The proteasomal system is important to support the protein homeostasis during the cellular stress. Effect of proteasome inhibitors has been described in many protozoans, either inhibiting growth or cell cycle progression, or blocking replication. Our laboratory\'s results have shown that MG132 reduces the number of lung stage schistosomula, the worm burden and consequently decreases oviposition in S. mansoni-infected mice. Here, we describe the in vitro effects of oxidative stress, heat shock and chemical stress in S. mansoni adult worms. We report that the oxidative stress and heat shock cause drastic changes in the protein profile of S. mansoni adult worms, and we identified a total of eighteen upregulated proteins in these conditions. These proteins are involved with many intracellular pathways as protein folding, proteolysis, calcium ion binding, regulator proteins and stress response. In addition, oxidative stress induced with H2O2 generated significative changes in the adult worms concerning process such as egg production, motor activity, tegument morphology, viability and pairing of worms. Chemical stress induced with Curcumin, IBMX and MG132 increases ROS production and changes the gene expression profile of antioxidant enzymes of S. mansoni adult worms. The enzymes SmGPx1 and SmGPx2 were upregulated in Curcumin and IBMXinduced chemical stress, and both SmSOD and SmTGR were upregulated- Curcumin. The proteasomal enzymes SmHul5 and SmUbp6 had their gene expression modified during oxidative stress, heat shock and chemical stress. Besides of, expression analyses in the S. mansoni life cycle indicate that genes are different express in sporocyst, schistosomula and miracidia. These results suggest these accessory proteins proteasome participates of stress response and parasite development. The expression level of SmHul5 and SmUbp6 were 16 and 9 times less than the control in chemical stress induced by IBMX, and we suggest that these results are due to the proteasome disassembling. On the other hand, Curcumin, MG132, oxidative stress e heat shock increases the expression of SmHul5 and SmUbp6. Furthermore, the expression level of maturation proteasome protein (SmPOMP) increases in stress induced by Curcumin, MG132 and oxidative stress suggesting new proteasome synthesis. In addition, we demonstrate increase the both 20S level and alpha-3 subunit proteasome in the oxidative stress, suggesting that in S. mansoni oxidized protein formed due to oxidative damage are degrade by proteasome 20S. We observed that S. mansoni adult worms utilize similar mechanisms to respond different stresses. Ours results demonstrate that oxidative stress, heat shock and chemical stress modified the expression profile of genes related with the ubiquitinproteasome system and suggest that the proteasome is important to responses the cellular stresses in the parasite.

Expressão gênica

Schistosoma mansoni

Sistema Ubiquitina-Proteassoma

Gene expression

Schistosoma mansoni

Ubiquitin-Proteasome System

Etude de la calréticuline dans les syndromes myéloprolifératifs : de la détermination de la charge allélique aux mécanismes de dégradation des variants protéiques / Study of calreticulin in myeloproliferative neoplasms : from allelic burden determination to mechanisms of variant proteins degradation

Mansier, Olivier

14 December 2017

Des mutations dans le gène de la calréticuline (CALR), codant pour une protéine résidente du réticulum endoplasmique (RE), ont été découvertes récemment dans les syndromes myéloprolifératifs (SMP). Elles sont associées à augmentation de prolifération cellulaire portant spécifiquement sur la lignée mégacaryocytaire. Ceci est le résultat d’une activation constitutive de la signalisation des voies JAK-STAT et MAP Kinases, consécutive à l’interaction des protéines mutantes CALR avec le récepteur à la thrombopoïétine. Plusieurs études ont montré la faible expression de ces protéines mutées dans les cellules, mais aucune n’a déterminé l’impact de leur expression sur l’homéostasie du RE ni les acteurs mis en jeu dans leur élimination. Dans ce travail, nous avons montré que l’expression des protéines CALR mutées ne perturbe pas sensiblement l’équilibre du RE et ne modifie pas la sensibilité des cellules à l’apoptose induite par un stress du RE. Nous avons ensuite démontré dans différents modèles, y compris des cellules engagées dans la différenciation mégacaryocytaire, que les faibles niveaux intracellulaires de variants protéiques CALR n’étaient pas liés à une sécrétion accrue dans le milieu extracellulaire ni à un défaut transcriptionnel. Cette faible expression est en fait la conséquence d’une dégradation mettant en jeu principalement la voie ERAD-protéasome. Dans ce processus, la reconnaissance de motifs glycans n’est pas impliquée, mais EDEM3 semble avoir un rôle majeur puisque son extinction augmente l’expression des formes mutées de CALR. La modulation de cette dégradation pourrait constituer une approche thérapeutique innovante dans les SMP. / Mutations in the calreticulin gene (CALR), encoding for an endoplasmic reticulum (ER) resident protein, have recently been discovered in myeloproliferative neoplasms (MPN). They are associated with an increased cell proliferation, specifically in the megakaryocytic lineage. This is the result of a constitutive activation of the JAK-STAT and MAP kinase pathways, following the interaction of mutant calreticulin proteins with the thrombopoietin receptor. Several studies have demonstrated that these mutated proteins are faintly expressed in cells, but none have determined the impact of their expression on ER homeostasis, nor addressed the actors at play in their degradation. In this work, we showed that the expression of mutated CALR proteins does not significantly disturb ER equilibrium, nor does it change the cellular sensitivity to ER stress-induced apoptosis. We next demonstrated in different models including cells committed towards megakaryocytic differentiation that the poor intracellular levels of variant CALR proteins are neither due to enhanced secretion into the extracellular medium, nor to transcriptional defects. This low-level expression is mainly the result of increased degradation, involving the ERAD-proteasome pathway. In this process, the recognition of glycan motifs is not engaged, but EDEM3 seems to be a key component as its extinction increases the expression levels of variant forms of CALR. Modulating this degradation process could represent a therapeutic option for MPN patients.

Calréticuline

EDEM

Syndromes Myéloprolifératifs

ERAD

Protéasome

Calreticulin

EDEM

Myeloproliferative Neoplasms

ERAD

Proteasome

Establishment of Babesia laboratory model and its experimental application

JALOVECKÁ, Marie

January 2017

Growing incidence of infections caused by the tick-transmitted protozoan parasite Babesia spp. defines babesiosis as an emerging disease from the aspect of human and veterinary medicine. The thesis provides an insight to biology of two main agents of human babesiosis, Babesia microti and Babesia divergens. We introduce here the fully optimized quantification model of Babesia parasite enabling the detailed investigation of the parasite developmental cycle and identification of molecules playing a role in its acquisition and transmission by the vector Ixodes ricinus. Novel and detailed information about Babesia dissemination within the tick tissues are given by newly implemented visualization and quantification techniques. Special emphasis is paid to parasite development in the tick salivary glands, the primary site responsible for parasite transmission from the vector into the host. Using gene-specific silencing we screene the tick immune pathways including effector molecules and evaluate their role in Babesia acquisition. We also provide a detailed view to Babesia parasite sexual commitment by monitoring its kinetics upon various stimuli. Moreover, a new direction of anti-babesial therapy is proposed by validation of the Babesia proteasome as a drug target. Overall, the research presented in the thesis extends the current knowledge of the Babesia parasite biology including molecular interactions at the tick-Babesia interface and thereby could significantly contribute to a potential control of babesiosis.

O envolvimento do proteossomo na perda muscular de modelo de artrite induzida por colágeno e o efeito do tratamento com inibidor do fator de necrose tumoral

Teixeira, Vivian de Oliveira Nunes

January 2015

Introdução: A artrite reumatoide é uma doença inflamatória autoimune associada à complicações sistêmicas como fadiga e perda muscular. Perda muscular pode estar relacionada com a ativação do sistema ubiquitina-proteossomo. O objetivo deste trabalho foi avaliar a perda muscular e o evolvimento do proteossomo no modelo de artrite induzida por colágeno (CIA), com ou sem o tratamento de metotrexato ou inibidor de TNF (etanercepte). Métodos: Camundongos DBA1/J machos foram divididos em 4 grupos (n=8 cada): CIA (salina); ETN (etanercepte, 5.5 /) e MTX (metotrexato, 35 /), tratados duas vezes por semana por 6 semanas, e um grupo controle saudável (CO). Tratamentos iniciaram uma semana após a injeção do booster. Escore clínico, edema da pata traseira e peso corporal foram analisados durante o período experimental. Músculo gastrocnêmio (GA) foi pesado após a morte e usado para quantificar a atividade, níveis proteicos e expressão de mRNA das diferentes subunidades do proteossomo através de ensaio fluorogênico, Western blot e rtPCR, respectivamente. Resultados: Tratamentos reduziram o desenvolvimento da doença, observado através do menor escore clínico e edema da pata traseira nos grupos ETN e MTX. ETN apresentou maior peso corporal do que MTX nas semanas 5 e 7. Músculo GA estava aumentado em ETN do que CIA e MTX, um resultado também observado no peso muscular normalizado. As propriedades catalíticas do proteossomo 26S muscular mostraram um aumento na atividade do tipo caspase nos grupos CIA e MTX. Tecidos musculares de animais MTX demonstraram maiores níveis proteicos das subunidades do proteossomo PSMB8 e PSMB9 e maior expressão gênica de Psmb5, Psmb8 e Psmb9. Por outro lado, a expressão de Psmb6 estava diminuída e de Psmb9 estava aumentada em CIA. Conclusões: Apesar de ambos os medicamentos melhorarem o escore da doença, ETN apresentou um afeito anti-artrítico mais forte e foi o único tratamento capaz de prevenir parcialmente a perda muscular. Ao contrário de ETN, CIA e o tratamento com MTX apresentaram perda muscular e atividade e expressão do proteossomo aumentadas. / Background: Rheumatoid arthritis is an autoimmune inflammatory disease associated with systemic complications like fatigue and muscle wasting. Muscle wasting could be related to the activation of the ubiquitin-proteasome system. The aim of this study was to evaluate muscle loss and involvement of the proteasome in collagen-induced arthritis (CIA), with or without treatment with methotrexate or a TNF inhibitor (etanercept). Methods: Male DBA1/J mice were divided into 4 groups (n=8 each): CIA (saline); ETN (etanercept, 5.5 /) and MTX (methotrexate, 35 /), treated twice a week for 6 weeks, and a healthy control group (CO). Treatments started one week after booster injection. Clinical score, hind paw oedema, and body weight were analysed during the experimental period. Gastrocnemius muscles (GA) were weighted after death and used to quantify proteasome activity, protein levels and mRNA expression of its subunits by Western blot and rtPCR, respectively. Results: Treatments slowed disease development, observed through smaller clinical score and hindpaw edema in ETN and MTX groups. ETN presented higher body weight compared to MTX group at weeks 5 and 7. GA weight was heavier in ETN than CIA and MTX, a result also observed in the normalized muscle weight. The catalytic properties of 26S proteasome showed an increase of caspase-like activity in CIA and MTX groups. Muscles tissues of MTX treated animals showed higher protein levels for proteasomal subunits PSMB8 and PSMB9 and higher gene expression for Psmb5, Psmb8 and Psmb9. In contrast, expression of Psmb6 was decreased and of Psmb9 was enhanced in CIA. Conclusions: Although both drugs improved the disease score, ETN presented a stronger anti-arthritic effect and was the only treatment able to partially prevent muscle wasting. In contrast to ETN, CIA and MTX treatment did not prevent muscles loss due to increased proteasome expression and activity.

Artrite experimental

Artrite reumatóide

Experimental arthritis

Muscle wasting

Proteasome

TNF inhibitor

STRUCTURAL AND FUNCTIONAL STUDIES OF F-BOX-ONLY PROTEIN FBXO7 AND ITS INTERACTIONS WITH PROTEASOME INHIBITOR PI31

Shang, Jinsai

01 August 2015

F-box only protein 7 (Fbxo7), a member of the F-box-only subfamily of FBPs, is a biologically and pathophysiologically important human protein that assumes many critical functions. The different functions of Fbxo7 depend on the formation of various multi-protein complexes. Possible interplay between different Fbxo7 functions further complicate the protein-protein interaction networks involved in Fbxo7 biology. Although significant progresses have been made to understand the functions, regulation, specificity, and protein interaction network of Fbxo7, a myriad of questions remain to be answered. The objectives of the work presented in this dissertation are to elucidate the molecular structures underlying the functions of Fbxo7 and the interaction with its protein partners, such as proteasome inhibitor PI31. The best known biological function of Fbxo7 is its role as the substrate-recognition subunit of the SCFFbxo7 (Skp1-Cul1-F-box protein) E3 ubiquitin ligase that catalyzes the ubiquitination of hepatoma up-regulated protein (HURP) and inhibitor of apoptosis protein (IAP). Fbxo7 also assumes various SCF-independent functions through interact with its protein partners that are not the substrates of the ubiquitin proteasome system, such as PI31, Cdk6, p27, PINK1 (PTEN-induced kinase 1), and Parkin. PI31 is a known proteasome regulator which was initially characterized as a proteasome inhibitor in vitro. The binding affinity between Fbxo7 and PI31 is very strong, and The Fbxo7-PI31 interaction is mediated by heterodimerization of the FP domains of the two proteins. This work is focus on study the protein structure of the two FP domains in Fbxo7 and PI3. Chapter 1 reviewed the F-box-only protein Fbxo7 biology including the function of Fbxo7 protein in ubiquitination proteasome pathway and some SCF-independent functions which are relate to human disease. Chapter 2 discussed the function of proteasome inhibitor PI31. With the many important biological functions, Fbxo7 is clearly an extraordinary important protein, but the lack of structural knowledge has hampered efforts to achieve a better understanding of Fbxo7 biology. In this work, we have determined the crystal structure of Fbxo7 FP domain (residues 181-335) and the crystal structure of the PI31 FP domain (residues 1-161) using a longer protein construct both at 2.0Å resolution. The Fbxo7 FP domain adopts an α/β-fold similar to that of the PI31 FP domain and the secondary structure elements of the two FP domains are comparable including the C-terminal helix, indicating that the two FP domains share the same overall global fold. However, an α helix and three β strands in the Fbxo7 are longer than their counterparts in the PI31 FP domain. The two FP domains also differ substantially in the length and conformation of the longest connecting loop. More importantly, structural differences between the two FP domains lead to drastically different modes of inter-domain protein–protein interaction: the PI31 FP domain utilizes either an α interface or β interface for homodimeric interaction, whereas the Fbxo7 FP domain utilizes an αβ interface. We have note that the inter-domain interaction of the Fbxo7 FP domain is much more extensive, featuring a larger contact surface area, better shape complementarity and more hydrophobic and hydrogen-bonding interactions. The results of this structural study provide critical insights into how Fbxo7 may dimerize (or multimerize) and interact with PI31 via the FP domain. Chapter 4 and Chapter 5 discussed the structure determinations, structure features and detail of protein-protein interactions of Fbxo7 and PI31 FP domains. Chapter 2 reviewed the corresponding fundamental biochemical techniques that been used in this study. Chapter 3 discussed protein structure determination by X-ray crystallography in structural biology studies. It was believed that the FP domains of Fbxo7 and PI31 mediate homodimerization and heterodimerization of the proteins and the FP domain is not present in other human proteins. In order to study the Fbxo7-PI31 heterodimerization protein-protein interactions, we performed modeling studies. Chapter 6 discussed the model building and binding studies. Based on the result of model building studies, we propose that an interaction between the two FP domains of Fbxo7 and PI31 should be mediated by a αβ interface using the α-helical surface of the Fbxo7 FP domain and the β-sheet surface of the PI31 FP domain. According to the result of pull down assay, the PI31 FP domain may complete with Skp1 for the binding with Fbxo7. It is possible that the formation of heterodimer between the Fbxo7 and PI31 mediate by FP domains may lead to the Fbxo7 dissociation from SCFFbxo7 complex which might reveal a new regulation mechanism.

F-box protein

Fbxo7

FP domain

PI31 proteasome inhibitor

SCF E3 ubiquitin ligases

Envolvimento de microRNAs na interação Carica papaya L. e Papaya meleira virus com potencial biotecnológico

Abreu, Paolla Mendes do Vale de, Abreu, Paolla Mendes do Vale de

26 February 2015

Submitted by Morgana Andrade (morgana.andrade@ufes.br) on 2016-04-06T19:38:36Z No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Tese_defesa_Paolla M. V. Abreu_para capa dura.pdf: 9884169 bytes, checksum: 4a899fd021d8b6129d63eb15679acdaf (MD5) / Approved for entry into archive by Patricia Barros (patricia.barros@ufes.br) on 2016-05-16T17:12:06Z (GMT) No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Tese_defesa_Paolla M. V. Abreu_para capa dura.pdf: 9884169 bytes, checksum: 4a899fd021d8b6129d63eb15679acdaf (MD5) / Made available in DSpace on 2016-05-16T17:12:06Z (GMT). No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Tese_defesa_Paolla M. V. Abreu_para capa dura.pdf: 9884169 bytes, checksum: 4a899fd021d8b6129d63eb15679acdaf (MD5) / CAPES / O mamoeiro (Carica papaya L.) é uma das fruteiras mais cultivadas e o mamão um dos frutos mais consumidos nas regiões tropicais e subtropicais do mundo. O Brasil é um dos maiores produtores mundiais de mamão e está dentre os principais países exportadores. As doenças, no entanto, constituem os principais fatores limitantes da produção. A meleira do mamoeiro, causada pelo Papaya meleira virus (PMeV) é uma doença importante na produção de mamão capaz de causar a perda completa da produção. Apesar disso, pouco se conhece sobre os mecanismos de interação e de resposta do mamoeiro contra o PMeV e ainda não existe no mercado cultivares resistentes a este vírus. Sabe-se que a expressão de proteínas como a subunidade 20S do proteasoma é maior durante a infecção, sugerindo que a proteólise seja um mecanismo importante de resposta de defesa. Atualmente 10.598 microRNAs de plantas estão depositados no banco de dados Plant miRNAs Database, mas somente dois, miR162 e miR403 são codificados especificamente por C. papaya. Neste estudo, sequências conhecidas de microRNAs provenientes de diferentes espécies de plantas foram utilizadas na predição in silico de microRNAs no genoma de mamoeiro. Um total de 462 microRNAs foram preditos, representando 72 famílias de miRNAs conhecidas. A expressão de 11 microRNAs, cujos alvos estão envolvidos na degradação via proteasoma 20S e 26S e em outras vias de resposta a estresse, foi comparada por qRT-PCR em amostras de folhas de plantas sadias e infectadas com PMeV. A expressão de microRNAs envolvidos na degradação de proteínas via proteasoma aumentou em resposta a um baixo acúmulo relativo de PMeV e diminuiu com o aumento do acúmulo relativo viral. Por outro lado, a expressão de microRNAs envolvidos na resposta da planta ao estresse biótico diminuiu em resposta ao baixo acúmulo relativo viral e aumentou com o aumento do acúmulo relativo de PMeV. Os genes descritos como alvos de alguns dos miRNAs tiveram sua expressão modulada de uma maneira dependente. Diante dos resultados, alguns miRNAs foram apontados como importantes para a aplicação biotecnológica. Este estudo representa uma compreensiva predição de microRNAs em mamoeiro. A expressão diferencial de microRNAs específicos e a modulação de seus genes alvos é de grande ajuda para entender a interação particular entre o mamoeiro e o PMeV, responsável pelo desenvolvimento da meleira. / Carica papaya L. is one of the most cultivated and consumed fruits in tropical and subtropical regions worldwide. Brazil is among the largest producers and exporters of papaya fruit. The pre-harvest diseases of papaya plants are the main limitation for fruit production. Papaya sticky disease is caused by the Papaya meleira virus (PMeV). It is a commercially important pathology in papaya culture potentially causing the complete loss of fruit production. Despite of this, little is known about the papaya interaction and response mechanisms against PMeV and there is not a papaya variety resistant to the virus. It is known that papaya 20S proteasome subunit levels of increase during PMeV infection, suggesting that proteolysis is an important feature of the plant defense response mechanisms. To date, 10,598 plant microRNAs have been identified in the Plant miRNAs Database (name of the DB), but only two microRNAs, miR162 and miR403, are from papaya. In this study, plant microRNA sequences were used to search for putative microRNAs in the papaya genome. A total of 462 microRNAs, representing 72 microRNA families, were predicted to occur in papaya. Out of these, the expression of 11 microRNAs, whose targets are known to be involved in 20S and 26S proteasomal degradation and in other stress response pathways, was estimated using real-time PCR, comparing healthy and infected papaya leaf tissues. The expression of miRNAs involved in proteasomal degradation increased in response to very low levels of PMeV titre and decreased as the viral titre increased. In contrast, biotic stress-related miRNAs levels decreased in papaya tissues infected with low virus titre and increased at high PMeV levels. Corroborating this results, analysed target genes for this miRNAs had their expression modulated in a dependent manner. With the results, some miRNAs were identified as relevant to the biotechnological application. This study represents a comprehensive prediction of miRNAs in papaya. The data presented here might help to complement the available molecular and genomic tools for the study of papaya. The differential expression of specific miRNAs and the modulation of their target genes will be helpful for understanding the particular interaction of PMeV and papaya responsible of disease development

Ubiquitin-proteasome system

Papaya meleira virus

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Biotecnologia

Mamão

MicroRNAs

Carica