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3. The stress granule protein G3BP1 alleviates spinocerebellar ataxia-associated deficits

Author

Koppenol, Rebekah, primary, Conceição, André, additional, Afonso, Inês T, additional, Afonso-Reis, Ricardo, additional, Costa, Rafael G, additional, Tomé, Sandra, additional, Teixeira, Diogo, additional, da Silva, Joana Pinto, additional, Côdesso, José Miguel, additional, Brito, David V C, additional, Mendonça, Liliana, additional, Marcelo, Adriana, additional, Pereira de Almeida, Luís, additional, Matos, Carlos A, additional, and Nóbrega, Clévio, additional

Published
2022
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4. stress granule protein G3BP1 alleviates spinocerebellar ataxia-associated deficits.

Author

Koppenol, Rebekah, Conceição, André, Afonso, Inês T, Afonso-Reis, Ricardo, Costa, Rafael G, Tomé, Sandra, Teixeira, Diogo, Silva, Joana Pinto da, Côdesso, José Miguel, Brito, David V C, Mendonça, Liliana, Marcelo, Adriana, Almeida, Luís Pereira de, Matos, Carlos A, and Nóbrega, Clévio

Subjects
GLUTAMINE, HEAT shock proteins, NEURODEGENERATION, GTPASE-activating protein, RNA-binding proteins, MUTANT proteins, EFFECT of salt on plants
Abstract

Polyglutamine diseases are a group of neurodegenerative disorders caused by an abnormal expansion of CAG repeat tracts in the codifying regions of nine, otherwise unrelated, genes. While the protein products of these genes are suggested to play diverse cellular roles, the pathogenic mutant proteins bearing an expanded polyglutamine sequence share a tendency to self-assemble, aggregate and engage in abnormal molecular interactions. Understanding the shared paths that link polyglutamine protein expansion to the nervous system dysfunction and the degeneration that takes place in these disorders is instrumental to the identification of targets for therapeutic intervention. Among polyglutamine diseases, spinocerebellar ataxias (SCAs) share many common aspects, including the fact that they involve dysfunction of the cerebellum, resulting in ataxia. Our work aimed at exploring a putative new therapeutic target for the two forms of SCA with higher worldwide prevalence, SCA type 2 (SCA2) and type 3 (SCA3), which are caused by expanded forms of ataxin-2 (ATXN2) and ataxin-3 (ATXN3), respectively. The pathophysiology of polyglutamine diseases has been described to involve an inability to properly respond to cell stress. We evaluated the ability of GTPase-activating protein-binding protein 1 (G3BP1), an RNA-binding protein involved in RNA metabolism regulation and stress responses, to counteract SCA2 and SCA3 pathology, using both in vitro and in vivo disease models. Our results indicate that G3BP1 overexpression in cell models leads to a reduction of ATXN2 and ATXN3 aggregation, associated with a decrease in protein expression. This protective effect of G3BP1 against polyglutamine protein aggregation was reinforced by the fact that silencing G3bp1 in the mouse brain increases human expanded ATXN2 and ATXN3 aggregation. Moreover, a decrease of G3BP1 levels was detected in cells derived from patients with SCA2 and SCA3, suggesting that G3BP1 function is compromised in the context of these diseases. In lentiviral mouse models of SCA2 and SCA3, G3BP1 overexpression not only decreased protein aggregation but also contributed to the preservation of neuronal cells. Finally, in an SCA3 transgenic mouse model with a severe ataxic phenotype, G3BP1 lentiviral delivery to the cerebellum led to amelioration of several motor behavioural deficits. Overall, our results indicate that a decrease in G3BP1 levels may be a contributing factor to SCA2 and SCA3 pathophysiology, and that administration of this protein through viral vector-mediated delivery may constitute a putative approach to therapy for these diseases, and possibly other polyglutamine disorders. [ABSTRACT FROM AUTHOR]

Published
2023
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6. The cholesterol 24-hydroxylase activates autophagy and decreases mutant huntingtin build-up in a neuroblastoma culture model of Huntington’s disease

Author

Nóbrega, Clévio, primary, Conceição, André, additional, Costa, Rafael G., additional, Koppenol, Rebekah, additional, Sequeira, Raquel L., additional, Nunes, Ricardo, additional, Carmo-Silva, Sara, additional, Marcelo, Adriana, additional, Matos, Carlos A., additional, Betuing, Sandrine, additional, Caboche, Jocelyne, additional, Cartier, Nathalie, additional, and Alves, Sandro, additional

Published
2020
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7. Secondary nummular headache: a literature review

Author

Holanda, Arthur C., primary, Batista, Marília A., additional, Oliveira, Raiza R. B., additional, Oliveira, Maria Carolina M. de, additional, Asfora, Carolina A., additional, Nascimento, Aída C. S. do, additional, Arraes, Eric C., additional, Costa, Rafael G., additional, and Valença, Marcelo Moraes, additional

Published
2016
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8. Proceedings of the fourth Resilience Engineering Symposium

Author

Abrahamsson, Marcus, Albrechtsen, Eirik, Alexandru, C., Andersen, Siri, Anderson, Stuart, Aoyama, Hisae, Back, Jonathan, Baxter, Gordon, Beato, Valentina, Becker, Per, Bergström, Johan, Blandford, Ann, Blot, Lilian, Borges, Marcos R. S., Borys, David, Bos, Ellen, Bracco, Fabrizio, Branlat, Matthieu, Brown, Robert J., Bruno, Andreina, Cardiff, Karen, Carvalho, Paulo Victor Rodrigues de, Catalan, Caroline, Cedergren, Alexander, Chialastri, Capt. Antonio, Clark, Brenda, Costa, Rafael G., Coze, Jean Christophe Le, Crandall, Beth, Cuvelier, Lucie, Dahlström, Nicklas, Diab, Youssef, Dias, Antônio, Dolif, Giovanni, Else, Dennis, Engelbrecht, Andre, Eriksson, Henrik, Fairbrother, P., Falzon, Pierre, Famá, Camila Campos, Felici, M., Field, Joris, Formoso, Carlos Torres, Fujii, Toshio, Furniss, Dominic, Furuta, Kazuo, Gallis, Raphaël, Garbolino, Emmanuel, Gilchrist, Alison, Giustizieri, Francesco Maria, Gomes, José Orlando, Gotcheva, N., Grøtan, Tor Olav, Guarnieri, Franck, Hanley, J., Hartswood, Mark, Hecht, Joshua, Henriqson, Eder, Herchin, Nicolas, Hollnagel, Erik, Jatobá, Alessandro, Johnsen, Stig O., Juglaret, Frédéric, Junior, Guido Carim, Kanno, Taro, Karikawa, Daisuke, Kitamura, Masaharu, Komatsubara, Akinori, Laganier, Richard, Lay, Elizabeth, Lhomme, Serge, Licu, Antonio, Lieutaud, Frederic, Lot, Nicolas, Louys, Philipe, Lundberg, Jonas, Lundh, Monica, Lützhöft, Margareta, Macchi, Luigi, McKinstry, B., Mol, Antonio C. A., Nemeth, Christopher, Nobre, Carlos A., Oedewald, Pia, O’Connor, C. Matthew, Pariès, Jean, Périnet, Romuald, Pietikäinen, E., Pillay, Manikam, Ploquin, Jodi, Pozzi, Simone, Praetorius, Gesa, Procter, Rob, Rallo, Jean-Marc, Rankin, Amy, Reiman, T., Rigaud, Éric, Robert, Benoît, Robertson, D., Robson, Rob, Rome, Fanny, Rooney, Chris, Saurin, Tarcisio Abreu, Serre, Damien, Shaefer, Selena, Sheps, Samuel B, Sommerville, Ian, Sossai, Dimitri, Steijger, Niek, Stephens, Robert J., Strouse, Robert, Takahashi, Makoto, Tassaux, Didier, Taylor, Paul, Tehler, Henrik, Textoris, R., Toubin, Marie, Ure, J., Valbonesi, Carlo, Van der Beek, Dolf, Van der Vorm, Johan, Veen, Mona, Volpini, Rodolfo, Watari, Ryosuke, Wears, Robert L., Webb, L. Kendall, Wiggins, Sterling, Wong, William, Woods, David D., Zimmermann (née Steele), Kyla, Zwetsloot, Gerard, Hollnagel, Erik, Rigaud, Éric, and Besnard, Denis

Subjects
engineering, technical systems, technology, Health Policy & Services, BUS042000, Transportation, health care, KJ, management
Abstract

These proceedings document the various presentations at the Fourth Resilience Engineering Symposium held on June 8-10, 2011, in Sophia-Antipolis, France. The Symposium gathered participants from five continents and provided them with a forum to exchange experiences and problems, and to learn about Resilience Engineering from the latest scientific achievements to recent practical applications. The First Resilience Engineering Symposium was held in Söderköping, Sweden, on October 25-29 2004. The Second Resilience Engineering Symposium was held in Juan-les-Pins, France, on November 8-10 2006, The Third Resilience Engineering Symposium was held in Juan-les-Pins, France, on October 28-30 2008. Since the first Symposium, resilience engineering has fast become recognised as a valuable complement to the established approaches to safety. Both industry and academia have recognised that resilience engineering offers valuable conceptual and practical basis that can be used to attack the problems of interconnectedness and intractability of complex socio-technical systems. The concepts and principles of resilience engineering have been tested and refined by applications in such fields as air traffic management, offshore production, patient safety, and commercial fishing. Continued work has also made it clear that resilience is neither limited to handling threats and disturbances, nor confined to situations where something can go wrong. Today, resilience is understood as the intrinsic ability of a system to adjust its functioning prior to, during, or following changes and disturbances, so that it can sustain required operations under both expected and unexpected conditions. This definition emphasizes the ability to continue functioning, rather than simply to react and recover from disturbances and the ability to deal with diverse conditions of functioning, expected as well as unexpected. For anyone who is interested in learning more about Resilience Engineering, the books published in the Ashgate Studies in Resilience Engineering provide an excellent starting point. Another sign that Resilience Engineering is coming of age is the establishment of the Resilience Engineering Association. The goal of this association is to provide a forum for coordination and exchange of experiences, by bringing together researchers and professionals working in the Resilience Engineering domain and organisations applying or willing to apply Resilience Engineering principles in their operations. The Resilience Engineering Association held its first General Assembly during the Fourth Symposium, and will in the future play an active role in the organisation of symposia and other activities related to Resilience Engineering.

Published
2013

9. A Neuro-Fuzzy System to Improve the Resilience in Nuclear Power Plant Operation

Author

Carvalho, Paulo Victor Rodrigues de, Costa, Rafael G., and Mol, Antonio C. A.

Subjects
engineering, technical systems, technology, Health Policy & Services, BUS042000, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Transportation, health care, KJ, management
Abstract

Early identification of possible accident situations is an essential issue to improve the resilience in the operation of NPPs, because the operators can anticipate accident scenarios and have more time to plan their in actions in critical situations. Artificial intelligence techniques are suitable to identify complex systems accident situations because the system faults and anomalies lead to different pattern evolution in the correlated processes variables, which can be identified by artificial neuron networks (ANNs). The system developed aims to support operators’ attention direction during accidents in NPPs using a Neuro-Fuzzy approach for early event identification. ANNs are used for event identification and, and a fuzzy-logic system analyzes the results giving a confidence level of the identification. The results show that the system can help the operators to direct their attention and narrow their information search field in the noisy background of the operation during accident situations in nuclear power plants, having more time to plan and develop mitigating actions.

Published
2013

10. Cefaleia associada a compressão do terceiro nervo craniano por um aneurisma da artéria comunicante posterior

Author

Valença, Marcelo M., primary, Silva, Joacil Carlos da, additional, Barbosa, Marcos, additional, Valença, Martina F., additional, Almeida, Laryssa Azevedo, additional, Oliveira, Maria Carolina M., additional, França, Cássia L. S., additional, Oliveira, Raíza R. B., additional, Soares, Míriam C., additional, Nunes, Eduardo C., additional, Costa, Rafael G., additional, Farias, Helysândia S. S., additional, Saraiva, Isabela S., additional, Holanda, Arthur C., additional, Souza Junior, Válter R., additional, Silva Júnior, Mário L. M., additional, Lima, Maria Carolina Cavalcanti, additional, Batista, Marília Apolinário, additional, Travassos, Paloma P., additional, Ferreira, Ulyscélio S. M., additional, Aragão, Maria de Fátima V., additional, and Valença, Luciana P. A. Andrade, additional

Published
2014
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11. The stress granule protein G3BP1 alleviates spinocerebellar ataxia-associated deficits.

Author

Koppenol R, Conceição A, Afonso IT, Afonso-Reis R, Costa RG, Tomé S, Teixeira D, da Silva JP, Côdesso JM, Brito DVC, Mendonça L, Marcelo A, Pereira de Almeida L, Matos CA, and Nóbrega C

Subjects
Humans, Mice, Animals, DNA Helicases metabolism, Heat-Shock Proteins, Protein Aggregates, Stress Granules, Poly-ADP-Ribose Binding Proteins genetics, RNA Helicases genetics, RNA Helicases metabolism, RNA Recognition Motif Proteins genetics, Ataxin-3 genetics, Mice, Transgenic, Spinocerebellar Ataxias genetics, Spinocerebellar Ataxias pathology, Machado-Joseph Disease genetics
Abstract

Polyglutamine diseases are a group of neurodegenerative disorders caused by an abnormal expansion of CAG repeat tracts in the codifying regions of nine, otherwise unrelated, genes. While the protein products of these genes are suggested to play diverse cellular roles, the pathogenic mutant proteins bearing an expanded polyglutamine sequence share a tendency to self-assemble, aggregate and engage in abnormal molecular interactions. Understanding the shared paths that link polyglutamine protein expansion to the nervous system dysfunction and the degeneration that takes place in these disorders is instrumental to the identification of targets for therapeutic intervention. Among polyglutamine diseases, spinocerebellar ataxias (SCAs) share many common aspects, including the fact that they involve dysfunction of the cerebellum, resulting in ataxia. Our work aimed at exploring a putative new therapeutic target for the two forms of SCA with higher worldwide prevalence, SCA type 2 (SCA2) and type 3 (SCA3), which are caused by expanded forms of ataxin-2 (ATXN2) and ataxin-3 (ATXN3), respectively. The pathophysiology of polyglutamine diseases has been described to involve an inability to properly respond to cell stress. We evaluated the ability of GTPase-activating protein-binding protein 1 (G3BP1), an RNA-binding protein involved in RNA metabolism regulation and stress responses, to counteract SCA2 and SCA3 pathology, using both in vitro and in vivo disease models. Our results indicate that G3BP1 overexpression in cell models leads to a reduction of ATXN2 and ATXN3 aggregation, associated with a decrease in protein expression. This protective effect of G3BP1 against polyglutamine protein aggregation was reinforced by the fact that silencing G3bp1 in the mouse brain increases human expanded ATXN2 and ATXN3 aggregation. Moreover, a decrease of G3BP1 levels was detected in cells derived from patients with SCA2 and SCA3, suggesting that G3BP1 function is compromised in the context of these diseases. In lentiviral mouse models of SCA2 and SCA3, G3BP1 overexpression not only decreased protein aggregation but also contributed to the preservation of neuronal cells. Finally, in an SCA3 transgenic mouse model with a severe ataxic phenotype, G3BP1 lentiviral delivery to the cerebellum led to amelioration of several motor behavioural deficits. Overall, our results indicate that a decrease in G3BP1 levels may be a contributing factor to SCA2 and SCA3 pathophysiology, and that administration of this protein through viral vector-mediated delivery may constitute a putative approach to therapy for these diseases, and possibly other polyglutamine disorders., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2023
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