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349 results on '"Giglione, Carmela"'

3. ProteoCure: A European network to fine-tune the proteome

Author

Abbas, Mohamad, Barrio, Rosa, Blattner, Christine, Brix, Klaudia, Chachami, Georgia, Chevet, Eric, Clague, Michael J., Dantuma, Nico, Rankov, Aleksandra Divac, Galdeano, Carles, Giglione, Carmela, Glickman, Michael H., Lalmanach, Gilles, Lindon, Catherine, Matthiesen, Rune, Meroni, Germana, Pick, Elah, Poidevin, Laetitia, Rivas, Carmen, Rodriguez, Manuel S., Sammler, Esther, Shiber, Ayala, Skoulakis, Efthimios M.C., Stein, Matthias, Vertegaal, Alfred C.O., Coux, Olivier, and Farràs, Rosa

Published
2024
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10. NatB Protects Procaspase-8 from UBR4-Mediated Degradation and Is Required for Full Induction of the Extrinsic Apoptosis Pathway.

Author

Guedes, Joana P., Boyer, Jean Baptiste, Elurbide, Jasmine, Carte, Beatriz, Redeker, Virginie, Sago, Laila, Meinnel, Thierry, Côrte-Real, Manuela, Giglione, Carmela, and Aldabe, Rafael

Subjects
UBIQUITIN ligases, FIBROBLASTS, APOPTOSIS, CASPASES, ACETYLTRANSFERASES
Abstract

N-terminal acetyltransferase B (NatB) is a major contributor to the N-terminal acetylome and is implicated in several key cellular processes including apoptosis and proteostasis. However, the molecular mechanisms linking NatB-mediated N-terminal acetylation to apoptosis and its relationship with protein homeostasis remain elusive. In this study, we generated mouse embryonic fibroblasts (MEFs) with an inactivated catalytic subunit of NatB (Naa20-/-) to investigate the impact of NatB deficiency on apoptosis regulation. Through quantitative N-terminomics, label-free quantification, and targeted proteomics, we demonstrated that NatB does not influence the proteostasis of all its substrates. Instead, our focus on putative NatB-dependent apoptotic factors revealed that NatB serves as a protective shield against UBR4 and UBR1 Arg/N-recognin-mediated degradation. Notably, Naa20-/- MEFs exhibited reduced responsiveness to an extrinsic pro-apoptotic stimulus, a phenotype that was partially reversible upon UBR4 Arg/N-recognin silencing and consequent inhibition of procaspase-8 degradation. Collectively, our results shed light on how the interplay between NatB-mediated acetylation and the Arg/N-degron pathway appears to impact apoptosis regulation, providing new perspectives in the field including in therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published
2024
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15. NatB-dependent acetylation protects procaspase-8 from UBR4-mediated degradation and is required for full induction of the extrinsic apoptosis pathway

Author

Guedes, Joana P, primary, Boyer, Jean Baptiste, additional, Elurbide, Jasmin, additional, Carte, Beatriz, additional, Redeker, Virginie, additional, Sago, Laila, additional, Meinnel, Thierry, additional, Corte-Real, Manuela, additional, Giglione, Carmela, additional, and Aldabe, Rafael, additional

Published
2023
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20. Dual lysine and N‐terminal acetyltransferases reveal the complexity underpinning protein acetylation

Author

Bienvenut, Willy V, Brünje, Annika, Boyer, Jean‐Baptiste, Mühlenbeck, Jens S, Bernal, Gautier, Lassowskat, Ines, Dian, Cyril, Linster, Eric, Dinh, Trinh V, Koskela, Minna M, Jung, Vincent, Seidel, Julian, Schyrba, Laura K, Ivanauskaite, Aiste, Eirich, Jürgen, Hell, Rüdiger, Schwarzer, Dirk, Mulo, Paula, Wirtz, Markus, Meinnel, Thierry, Giglione, Carmela, and Finkemeier, Iris

Published
2020
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27. N-terminal acetylation status of nuclear proteins upon proteotoxic stress

Author

Kuchkovska, Yuliya, Boyer, Jean-Baptiste, Meinnel, Thierry, Giglione, Carmela, Frottin, Frédéric, Institut de Biologie Intégrative de la Cellule (I2BC), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV]Life Sciences [q-bio]
Abstract

International audience; N-(α)-terminal protein acetylation (NTA) is a widespread and essential protein modification. The reaction is catalyzed by various N-acetyltransferases (Nats) composed of a catalytic subunit alone or in complex with one or several factors. Their substrate specificities are largely determined by the first two N-terminal amino acids of the substrate protein. NTA is considered as an irreversible mark and mostly occurs co-translationally. A multiplicity of NTA roles have been uncovered such as its involvement in influencing protein's half-life. However, the majority of the proteome undergoes NTA with a high stoichiometry suggesting that NTA fulfils a broader and collective function, yet to be discovered. In this context, it has been suggested that NTA participates in maintaining protein homeostasis or proteostasis. The nucleus is rich in metastable and stress sensitive proteins suggesting that specific protein quality control strategies are in place to maintain nuclear proteostasis. Indeed

Published
2022

30. HYPK promotes the activity of the N α -acetyltransferase A complex to determine proteostasis of nonAc-X 2 /N-degron–containing proteins

Author

Miklánková, Pavlína, primary, Linster, Eric, additional, Boyer, Jean-Baptiste, additional, Weidenhausen, Jonas, additional, Mueller, Johannes, additional, Armbruster, Laura, additional, Lapouge, Karine, additional, De La Torre, Carolina, additional, Bienvenut, Willy, additional, Sticht, Carsten, additional, Mann, Matthias, additional, Meinnel, Thierry, additional, Sinning, Irmgard, additional, Giglione, Carmela, additional, Hell, Rüdiger, additional, and Wirtz, Markus, additional

Published
2022
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42. Cotranslational processing mechanisms: towards a dynamic 3D model

Author

Giglione, Carmela, Fieulaine, Sonia, and Meinnel, Thierry

Subjects
Protein biosynthesis -- Physiological aspects, Proteolysis -- Physiological aspects, Biological sciences, Chemistry
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.tibs.2009.04.003 Byline: Carmela Giglione, Sonia Fieulaine, Thierry Meinnel Abstract: Recent major advances have been made in understanding how cotranslational events are achieved in the course of protein biosynthesis. Specifically, several studies have shed light into the dynamic process of how nascent chains emerging from the ribosome are supported by protein biogenesis factors to ensure both processing and folding mechanisms. To take into account the awareness that coordination is needed, a new 'concerted model' recently proposed simultaneous action of both processes on the ribosome. In the model, any emerging nascent chain is first encountered by the chaperone trigger factor (TF), which forms an open cradle underneath the ribosomal exit tunnel. This cradle serves as a passive router that channels the nascent chains to the first cotranslational event, the proteolysis event performed by the N-terminal methionine excision machinery. Although fascinating, this model clearly raises more questions than it answers. Does the data used to develop this model stand up to scrutiny and, if not, what are the alternative mechanisms that the data suggest? Author Affiliation: Centre National de la Recherche Scientifique, Protein Maturation and Cell Fate, Institut des Sciences du Vegetal, BAcentst.23A, 1 avenue de la Terrasse, F-91198 Gif-sur-Yvette cedex, France

Published
2009

49. NAA50 Is an Enzymatically Active Nα-Acetyltransferase That Is Crucial for Development and Regulation of Stress Responses

Author

Armbruster, Laura, primary, Linster, Eric, additional, Boyer, Jean-Baptiste, additional, Brünje, Annika, additional, Eirich, Jürgen, additional, Stephan, Iwona, additional, Bienvenut, Willy V., additional, Weidenhausen, Jonas, additional, Meinnel, Thierry, additional, Hell, Ruediger, additional, Sinning, Irmgard, additional, Finkemeier, Iris, additional, Giglione, Carmela, additional, and Wirtz, Markus, additional

Published
2020
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