Your search keyword '"Skoczen, N."' showing total 4 results

1. The level of kynurenic acid and selected cytokines during antidepressive treatment,Stezenie kwasu kynureninowego i wybranych cytokin podczas leczenia przeciwdepresyjnego

Author

Olajossy, M., Olajossy, B., Potembska, E., Skoczen, N., Wnuk, S., and Ewa Urbanska

2. Efficacy of oral versus long-acting antipsychotic treatment in patients with early-phase schizophrenia in Europe and Israel: a large-scale, open-label, randomised trial (EULAST)

Author

Inge Winter-van Rossum, Mark Weiser, Silvana Galderisi, Stefan Leucht, Istvan Bitter, Birte Glenthøj, Alkomiet Hasan, Jurjen Luykx, Marina Kupchik, Georg Psota, Paola Rocca, Nikos Stefanis, Alexander Teitelbaum, Mor Bar Haim, Claudia Leucht, Georg Kemmler, Timo Schurr, Michael Davidson, René S Kahn, W Wolfgang Fleischhacker, René Sylvain Kahn, Walter Wolfgang Fleischhacker, Monica Mosescu, George Umoh, Lucho Hranov, Alex Hofer, Joachim Cordes, Ramin Nilforooshan, Julio Bobes, Solveig Klebo Reitan, Manuel Morrens, Aurel Nirestean, John Geddes, Benedicto Crespo Faccorro, Marcin Olajossy, Alessandro Rossi, Erik Johnsen, Csekey László, Adela Ciobanu, Peter Haddad, Igor Oife, Miquel Bernardo, Rodicutza Stan, Marek Jarema, Dan Rujescu, Libor Ustohal, Neil Mayfield, Paola Dazzan, Avi Valevski, Jan Libiger, Richard Köhler, Pavel Mohr, Sofia Pappa, Petros Drosos, Thomas Barnes, Esther DeClercq, Elias Wagner, Paola Bucci, Armida Mucci, Yaacov Rabinowitz, Adam Adamopoulous, Benjamin Draiman, Cristiana Montemagni, Manfred Greslechner, Hannah Herlihy, Csilla Bolyos, Christian Schmidt-Kraepelin, Jessica TRUE, Leticia Alvarez Garcia, Berit Walla, Bernhard Sabbe, Lucaks Emese, Sarah Mather, Nikodem Skoczen, Serena Parnanzone, Jill Bjarke, Krisztina Karácsonyi, Steve Lankshear, Marina Garriga, Adam Wichniak, Heidi Baumbach, Leonie Willebrands, Lyliana Nasib, Cynthia Okhuijsen-Pfeifer, Elianne Huijsman, Winter-van Rossum, I., Weiser, M., Galderisi, S., Leucht, S., Bitter, I., Glenthoj, B., Hasan, A., Luykx, J., Kupchik, M., Psota, G., Rocca, P., Stefanis, N., Teitelbaum, A., Bar Haim, M., Leucht, C., Kemmler, G., Schurr, T., Kahn, R. S., Fleischhacker, W. W., Davidson, M., Mosescu, M., Umoh, G., Hranov, L., Hofer, A., Cordes, J., Nilforooshan, R., Bobes, J., Reitan, S. K., Morrens, M., Nirestean, A., Geddes, J., Crespo Faccorro, B., Olajossy, M., Rossi, A., Johnsen, E., Laszlo, C., Ciobanu, A., Haddad, P., Oife, I., Bernardo, M., Stan, R., Jarema, M., Rujescu, D., Ustohal, L., Mayfield, N., Dazzan, P., Valevski, A., Libiger, J., Kohler, R., Mohr, P., Pappa, S., Drosos, P., Barnes, T., Declercq, E., Wagner, E., Bucci, P., Mucci, A., Rabinowitz, Y., Adamopoulous, A., Draiman, B., Montemagni, C., Greslechner, M., Herlihy, H., Bolyos, C., Kraepelin-Schmidt, C., True, J., Alvarez Garcia, L., Walla, B., Sabbe, B., Emese, L., Mather, S., Skoczen, N., Parnanzone, S., Bjarke, J., Karacsonyi, K., Lankshear, S., Garriga, M., Wichniak, A., Baumbach, H., Willebrands, L., Nasib, L., Okhuijsen-Pfeifer, C., and Huijsman, E.

Subjects

Psychiatry and Mental health, 1ST-EPISODE SCHIZOPHRENIA, RISPERIDONE, DRUGS, TOLERABILITY, ddc:610, MAINTENANCE TREATMENT, RELAPSE, Biological Psychiatry

Abstract

Background: Schizophrenia is a severe psychiatric disorder with periods of remission and relapse. As discontinuation of antipsychotic medication is the most important reason for relapse, long-term maintenance treatment is key. Whether intramuscular long-acting (depot) antipsychotics are more efficacious than oral medication in preventing medication discontinuation is still unresolved. We aimed to compare time to all-cause discontinuation in patients randomly allocated to long-acting injectable (LAI) versus oral medication. Methods: EULAST was a pragmatic, randomised, open-label trial conducted at 50 general hospitals and psychiatric specialty clinics in 15 European countries and Israel. Patients aged 18 years and older, with DSM-IV schizophrenia (as confirmed by the Mini International Neuropsychiatric Interview 5 plus) and having experienced their first psychotic episode from 6 months to 7 years before screening, were randomly allocated (1:1:1:1) using block randomisation to LAI paliperidone, LAI aripiprazole, or the respective oral formulations of these antipsychotics. Randomisation was stratified by country and duration of illness (6 months up to 3 years vs 4 to 7 years). Patients were followed up for up to 19 months. The primary endpoint was discontinuation, regardless of the reason, during 19 months of treatment. We used survival analysis to assess the time until all-cause discontinuation in the intention-to-treat (ITT) group, and per protocol analyses were also done. This trial is registered with ClinicalTrials.gov, NCT02146547, and is complete. Findings: Between Feb 24, 2015, and Dec 15, 2018, 533 individuals were recruited and assessed for eligibility. The ITT population included 511 participants, with 171 (33%) women and 340 (67%) men, and a mean age of 30·5 (SD 9·6) years. 410 (80%) of 511 participants were White, 35 (7%) were Black, 20 (4%) were Asian, and 46 (9%) were other ethnicity. In the combined oral antipsychotics treatment group of 247 patients, 72 (29%) patients completed the study and 175 (71%) met all-cause discontinuation criteria. In the combined LAI treatment arm of 264 patients, 95 (36%) completed the study and 169 (64%) met the all-cause discontinuation criteria. Cox regression analyses showed that treatment discontinuation for any cause did not differ between the two combined treatment groups (hazard ration [HR] 1·16, 95% CI 0·94–1·43, p=0·18). No significant difference was found in the time to all-cause discontinuation between the combined oral and combined LAI treatment groups (log rank test χ 2=1·87 [df 1]; p=0·17). During the study, 121 psychiatric hospitalisations occurred in 103 patients, and one patient from each of the LAI groups died; the death of the patient assigned to paliperidone was assessed to be unrelated to the medication, but the cause of other patient's death was not shared with the study team. 86 (25%) of 350 participants with available data met akathisia criteria and 70 (20%) met parkinsonism criteria at some point during the study. Interpretation: We found no substantial advantage for LAI antipsychotic treatment over oral treatment regarding time to discontinuation in patients with early-phase schizophrenia, indicating that there is no reason to prescribe LAIs instead of oral antipsychotics if the goal is to prevent discontinuation of antipsychotic medication in daily clinical practice. Funding: Lundbeck and Otsuka.

Published

2023

3. Assembly-dependent translation of subunits 6 (Atp6) and 9 (Atp9) of ATP synthase in yeast mitochondria.

Author

Kabala AM, Binko K, Godard F, Charles C, Dautant A, Baranowska E, Skoczen N, Gombeau K, Bouhier M, Becker HD, Ackerman SH, Steinmetz LM, Tribouillard-Tanvier D, Kucharczyk R, and di Rago JP

Subjects

Adenosine Triphosphate metabolism, Mitochondria genetics, Mitochondria metabolism, Mitochondrial Proton-Translocating ATPases genetics, Protein Subunits genetics, Protein Subunits metabolism, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins metabolism

Abstract

The yeast mitochondrial ATP synthase is an assembly of 28 subunits of 17 types of which 3 (subunits 6, 8, and 9) are encoded by mitochondrial genes, while the 14 others have a nuclear genetic origin. Within the membrane domain (FO) of this enzyme, the subunit 6 and a ring of 10 identical subunits 9 transport protons across the mitochondrial inner membrane coupled to ATP synthesis in the extra-membrane structure (F1) of ATP synthase. As a result of their dual genetic origin, the ATP synthase subunits are synthesized in the cytosol and inside the mitochondrion. How they are produced in the proper stoichiometry from two different cellular compartments is still poorly understood. The experiments herein reported show that the rate of translation of the subunits 9 and 6 is enhanced in strains with mutations leading to specific defects in the assembly of these proteins. These translation modifications involve assembly intermediates interacting with subunits 6 and 9 within the final enzyme and cis-regulatory sequences that control gene expression in the organelle. In addition to enabling a balanced output of the ATP synthase subunits, these assembly-dependent feedback loops are presumably important to limit the accumulation of harmful assembly intermediates that have the potential to dissipate the mitochondrial membrane electrical potential and the main source of chemical energy of the cell., (© The Author(s) 2022. Published by Oxford University Press on behalf of Genetics Society of America.)

Published

2022

4. Yeast as a system for modeling mitochondrial disease mechanisms and discovering therapies.

Author

Lasserre JP, Dautant A, Aiyar RS, Kucharczyk R, Glatigny A, Tribouillard-Tanvier D, Rytka J, Blondel M, Skoczen N, Reynier P, Pitayu L, Rötig A, Delahodde A, Steinmetz LM, Dujardin G, Procaccio V, and di Rago JP

Subjects

Animals, DNA, Fungal metabolism, Humans, Mitochondria metabolism, Models, Biological, Translational Research, Biomedical, Mitochondrial Diseases metabolism, Mitochondrial Diseases therapy, Saccharomyces cerevisiae metabolism

Abstract

Mitochondrial diseases are severe and largely untreatable. Owing to the many essential processes carried out by mitochondria and the complex cellular systems that support these processes, these diseases are diverse, pleiotropic, and challenging to study. Much of our current understanding of mitochondrial function and dysfunction comes from studies in the baker's yeast Saccharomyces cerevisiae. Because of its good fermenting capacity, S. cerevisiae can survive mutations that inactivate oxidative phosphorylation, has the ability to tolerate the complete loss of mitochondrial DNA (a property referred to as 'petite-positivity'), and is amenable to mitochondrial and nuclear genome manipulation. These attributes make it an excellent model system for studying and resolving the molecular basis of numerous mitochondrial diseases. Here, we review the invaluable insights this model organism has yielded about diseases caused by mitochondrial dysfunction, which ranges from primary defects in oxidative phosphorylation to metabolic disorders, as well as dysfunctions in maintaining the genome or in the dynamics of mitochondria. Owing to the high level of functional conservation between yeast and human mitochondrial genes, several yeast species have been instrumental in revealing the molecular mechanisms of pathogenic human mitochondrial gene mutations. Importantly, such insights have pointed to potential therapeutic targets, as have genetic and chemical screens using yeast., (© 2015. Published by The Company of Biologists Ltd.)

Published

2015