Your search keyword '"Scekic-Zahirovic, Jelena"' showing total 29 results

1. Loss of hypothalamic MCH decreases food intake in amyotrophic lateral sclerosis

Author

Bolborea, Matei, Vercruysse, Pauline, Daria, Tselmen, Reiners, Johanna C., Alami, Najwa Ouali, Guillot, Simon J., Dieterlé, Stéphane, Sinniger, Jérôme, Scekic-Zahirovic, Jelena, Londo, Amela, Arcay, Hippolyte, Goy, Marc-Antoine, de Tapia, Claudia Nelson, Thal, Dietmar R., Shibuya, Kazumoto, Otani, Ryo, Arai, Kimihito, Kuwabara, Satoshi, Ludolph, Albert C., Roselli, Francesco, Yilmazer-Hanke, Deniz, and Dupuis, Luc

Published

2023

2. Evidence that corticofugal propagation of ALS pathology is not mediated by prion-like mechanism

Author

Scekic-Zahirovic, Jelena, Fischer, Mathieu, Stuart-Lopez, Geoffrey, Burg, Thibaut, Gilet, Johan, Dirrig-Grosch, Sylvie, Marques, Christine, Birling, Marie-Christine, Kessler, Pascal, and Rouaux, Caroline

Published

2021

3. Cortical hyperexcitability in mouse models and patients with amyotrophic lateral sclerosis is linked to noradrenaline deficiency

Author

Scekic-Zahirovic, Jelena, primary, Benetton, Cristina, additional, Brunet, Aurore, additional, Ye, XiaoQian, additional, Logunov, Evgeny, additional, Douchamps, Vincent, additional, Megat, Salim, additional, Andry, Virginie, additional, Kan, Vanessa Wing Yin, additional, Stuart-Lopez, Geoffrey, additional, Gilet, Johan, additional, Guillot, Simon J., additional, Dirrig-Grosch, Sylvie, additional, Gorin, Charlotte, additional, Trombini, Margaux, additional, Dieterle, Stéphane, additional, Sinniger, Jérôme, additional, Fischer, Mathieu, additional, René, Frédérique, additional, Gunes, Zeynep, additional, Kessler, Pascal, additional, Dupuis, Luc, additional, Pradat, Pierre-François, additional, Goumon, Yannick, additional, Goutagny, Romain, additional, Marchand-Pauvert, Véronique, additional, Liebscher, Sabine, additional, and Rouaux, Caroline, additional

Published

2024

4. Toxic gain of function from mutant FUS protein is crucial to trigger cell autonomous motor neuron loss

Author

Scekic-Zahirovic, Jelena, Sendscheid, Oliver, El Oussini, Hajer, Jambeau, Mélanie, Sun, Ying, Mersmann, Sina, Wagner, Marina, Dieterlé, Stéphane, Sinniger, Jérome, Dirrig-Grosch, Sylvie, Drenner, Kevin, Birling, Marie-Christine, Qiu, Jinsong, Zhou, Yu, Li, Hairi, Fu, Xiang-Dong, Rouaux, Caroline, Shelkovnikova, Tatyana, Witting, Anke, Ludolph, Albert C, Kiefer, Friedemann, Storkebaum, Erik, Lagier-Tourenne, Clotilde, and Dupuis, Luc

Subjects

Neurosciences, Brain Disorders, Genetics, Dementia, Neurodegenerative, Rare Diseases, Acquired Cognitive Impairment, ALS, 2.1 Biological and endogenous factors, Aetiology, Neurological, Animals, Brain, Cytoplasm, Mice, Inbred C57BL, Mice, Transgenic, Motor Neurons, Mutation, RNA-Binding Protein FUS, Spinal Cord, amyotrophic lateral sclerosis, frontotemporal dementia, FUS, motor neuron degeneration, PY-NLS, PY‐NLS, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Developmental Biology

Abstract

FUS is an RNA-binding protein involved in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Cytoplasmic FUS-containing aggregates are often associated with concomitant loss of nuclear FUS Whether loss of nuclear FUS function, gain of a cytoplasmic function, or a combination of both lead to neurodegeneration remains elusive. To address this question, we generated knockin mice expressing mislocalized cytoplasmic FUS and complete FUS knockout mice. Both mouse models display similar perinatal lethality with respiratory insufficiency, reduced body weight and length, and largely similar alterations in gene expression and mRNA splicing patterns, indicating that mislocalized FUS results in loss of its normal function. However, FUS knockin mice, but not FUS knockout mice, display reduced motor neuron numbers at birth, associated with enhanced motor neuron apoptosis, which can be rescued by cell-specific CRE-mediated expression of wild-type FUS within motor neurons. Together, our findings indicate that cytoplasmic FUS mislocalization not only leads to nuclear loss of function, but also triggers motor neuron death through a toxic gain of function within motor neurons.

Published

2016

5. Cytoplasmic FUS triggers early behavioral alterations linked to cortical neuronal hyperactivity and inhibitory synaptic defects

Author

Scekic-Zahirovic, Jelena, Sanjuan-Ruiz, Inmaculada, Kan, Vanessa, Megat, Salim, De Rossi, Pierre, Dieterlé, Stéphane, Cassel, Raphaelle, Jamet, Marguerite, Kessler, Pascal, Wiesner, Diana, Tzeplaeff, Laura, Demais, Valérie, Sahadevan, Sonu, Hembach, Katharina M., Muller, Hans-Peter, Picchiarelli, Gina, Mishra, Nibha, Antonucci, Stefano, Dirrig-Grosch, Sylvie, Kassubek, Jan, Rasche, Volker, Ludolph, Albert, Boutillier, Anne-Laurence, Roselli, Francesco, Polymenidou, Magdalini, Lagier-Tourenne, Clotilde, Liebscher, Sabine, and Dupuis, Luc

Published

2021

6. FUS-mediated regulation of acetylcholine receptor transcription at neuromuscular junctions is compromised in amyotrophic lateral sclerosis

Author

Picchiarelli, Gina, Demestre, Maria, Zuko, Amila, Been, Marije, Higelin, Julia, Dieterlé, Stéphane, Goy, Marc-Antoine, Mallik, Moushami, Sellier, Chantal, Scekic-Zahirovic, Jelena, Zhang, Li, Rosenbohm, Angela, Sijlmans, Céline, Aly, Amr, Mersmann, Sina, Sanjuan-Ruiz, Inmaculada, Hübers, Annemarie, Messaddeq, Nadia, Wagner, Marina, van Bakel, Nick, Boutillier, Anne-Laurence, Ludolph, Albert, Lagier-Tourenne, Clotilde, Boeckers, Tobias M., Dupuis, Luc, and Storkebaum, Erik

Published

2019

7. Motor neuron intrinsic and extrinsic mechanisms contribute to the pathogenesis of FUS-associated amyotrophic lateral sclerosis

Author

Scekic-Zahirovic, Jelena, Oussini, Hajer El, Mersmann, Sina, Drenner, Kevin, Wagner, Marina, Sun, Ying, Allmeroth, Kira, Dieterlé, Stéphane, Sinniger, Jérôme, Dirrig-Grosch, Sylvie, René, Frédérique, Dormann, Dorothee, Haass, Christian, Ludolph, Albert C., Lagier-Tourenne, Clotilde, Storkebaum, Erik, and Dupuis, Luc

Published

2017

8. Serotonin 2B receptor slows disease progression and prevents degeneration of spinal cord mononuclear phagocytes in amyotrophic lateral sclerosis

Author

El Oussini, Hajer, Bayer, Hanna, Scekic-Zahirovic, Jelena, Vercruysse, Pauline, Sinniger, Jérôme, Dirrig-Grosch, Sylvie, Dieterlé, Stéphane, Echaniz-Laguna, Andoni, Larmet, Yves, Müller, Kathrin, Weishaupt, Jochen H., Thal, Dietmar R., van Rheenen, Wouter, van Eijk, Kristel, Lawson, Roland, Monassier, Laurent, Maroteaux, Luc, Roumier, Anne, Wong, Philip C., van den Berg, Leonard H., Ludolph, Albert C., Veldink, Jan H., Witting, Anke, and Dupuis, Luc

Published

2016

9. Degeneration of serotonin neurons triggers spasticity in amyotrophic lateral sclerosis

Author

El Oussini, Hajer, Scekic‐Zahirovic, Jelena, Vercruysse, Pauline, Marques, Christine, Dirrig‐Grosch, Sylvie, Dieterlé, Stéphane, Picchiarelli, Gina, Sinniger, Jérôme, Rouaux, Caroline, and Dupuis, Luc

Published

2017

10. Alterations in the hypothalamic melanocortin pathway in amyotrophic lateral sclerosis

Author

Vercruysse, Pauline, Sinniger, Jérôme, El Oussini, Hajer, Scekic-Zahirovic, Jelena, Dieterlé, Stéphane, Dengler, Reinhard, Meyer, Thomas, Zierz, Stephan, Kassubek, Jan, Fischer, Wilhelm, Dreyhaupt, Jens, Grehl, Torsten, Hermann, Andreas, Grosskreutz, Julian, Witting, Anke, Van Den Bosch, Ludo, Spreux-Varoquaux, Odile, Ludolph, Albert C., and Dupuis, Luc

Published

2016

11. Absence of Subcerebral Projection Neurons Is Beneficial in a Mouse Model of Amyotrophic Lateral Sclerosis

Author

Burg, Thibaut, Bichara, Charlotte, Scekic‐Zahirovic, Jelena, Fischer, Mathieu, Stuart‐Lopez, Geoffrey, Brunet, Aurore, Lefebvre, François, Cordero‐Erausquin, Matilde, Rouaux, Caroline, Institut des Neurosciences Cellulaires et Intégratives (INCI), and Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Sciences du Vivant [q-bio]/Neurosciences [q-bio.NC], pathology, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], ComputingMilieux_MISCELLANEOUS

Abstract

Objective Recent studies carried out on amyotrophic lateral sclerosis patients suggest that the disease might initiate in the motor cortex and spread to its targets along the corticofugal tracts. In this study, we aimed to test the corticofugal hypothesis of amyotrophic lateral sclerosis experimentally. Methods Sod1G86R and Fezf2 knockout mouse lines were crossed to generate a model that expresses a mutant of the murine Sod1 gene ubiquitously, a condition sufficient to induce progressive motor symptoms and premature death, but genetically lacks corticospinal neurons and other subcerebral projection neurons, one of the main populations of corticofugal neurons. Disease onset and survival were recorded, and weight and motor behavior were followed longitudinally. Hyper-reflexia and spasticity were monitored using electromyographic recordings. Neurodegeneration and gliosis were assessed by histological techniques. Results Absence of subcerebral projection neurons delayed disease onset, reduced weight loss and motor impairment, and increased survival without modifying disease duration. Absence of corticospinal neurons also limited presymptomatic hyper-reflexia, a typical component of the upper motoneuron syndrome. Interpretation Major corticofugal tracts are crucial to the onset and progression of amyotrophic lateral sclerosis. In the context of the disease, subcerebral projection neurons might carry detrimental signals to their downstream targets. In its entirety, this study provides the first experimental arguments in favor of the corticofugal hypothesis of amyotrophic lateral sclerosis. journal article research support, non-u.s. gov't 2020 10 2020 07 11 imported

Published

2020

12. Cortical Circuit Dysfunction as a Potential Driver of Amyotrophic Lateral Sclerosis

Author

Brunet, Aurore, Stuart-Lopez, Geoffrey, Burg, Thibaut, Scekic-Zahirovic, Jelena, Rouaux, Caroline, Mécanismes Centraux et Périphériques de la Neurodégénérescence, Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM), and Dieterle, Stéphane

Subjects

[SDV] Life Sciences [q-bio], intrinsic, amyotrophic lateral sclerosis, [SDV]Life Sciences [q-bio], hyperexcitability, cerebral cortex, network dysfunction, extrinsic, Review, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, lcsh:RC321-571, Neuroscience

Abstract

International audience; Amyotrophic lateral sclerosis (ALS) is a devastating neurodegenerative disease that affects selected cortical and spinal neuronal populations, leading to progressive paralysis and death. A growing body of evidences suggests that the disease may originate in the cerebral cortex and propagate in a corticofugal manner. In particular, transcranial magnetic stimulation studies revealed that ALS patients present with early cortical hyperexcitability arising from a combination of increased excitability and decreased inhibition. Here, we discuss the possibility that initial cortical circuit dysfunction might act as the main driver of ALS onset and progression, and review recent functional, imaging and transcriptomic studies conducted on ALS patients, along with electrophysiological, pathological and transcriptomic studies on animal and cellular models of the disease, in order to evaluate the potential cellular and molecular origins of cortical hyperexcitability in ALS.

Published

2020

13. Cytoplasmic accumulation of FUS triggers early behavioral alterations linked to cortical neuronal hyperactivity and defects in inhibitory synapses

Author

Scekic-Zahirovic, Jelena, Sanjuan-Ruiz, Inmaculada, Kan, Vanessa, Megat, Salim, De Rossi, Pierre, Dieterlé, Stéphane, Cassel, Raphaelle, Kessler, Pascal, Wiesner, Diana, Tzeplaeff, Laura, Demais, Valérie, Muller, Hans-Peter, Picchiarelli, Gina, Mishra, Nibha, Dirrig-Grosch, Sylvie, Kassubek, Jan, Rasche, Volker, Ludolph, Albert, Boutillier, Anne-Laurence, Polymenidou, Magdalini, Lagier-Tourenne, Clotilde, Liebscher, Sabine, Dupuis, Luc, Scekic-Zahirovic, Jelena, Sanjuan-Ruiz, Inmaculada, Kan, Vanessa, Megat, Salim, De Rossi, Pierre, Dieterlé, Stéphane, Cassel, Raphaelle, Kessler, Pascal, Wiesner, Diana, Tzeplaeff, Laura, Demais, Valérie, Muller, Hans-Peter, Picchiarelli, Gina, Mishra, Nibha, Dirrig-Grosch, Sylvie, Kassubek, Jan, Rasche, Volker, Ludolph, Albert, Boutillier, Anne-Laurence, Polymenidou, Magdalini, Lagier-Tourenne, Clotilde, Liebscher, Sabine, and Dupuis, Luc

Abstract

Gene mutations causing cytoplasmic mislocalization of the RNA-binding protein FUS, lead to severe forms of amyotrophic lateral sclerosis (ALS). Cytoplasmic accumulation of FUS is also observed in other diseases, with unknown consequences. Here, we show that cytoplasmic mislocalization of FUS drives behavioral abnormalities in knock-in mice, including locomotor hyperactivity and alterations in social interactions, in the absence of widespread neuronal loss. Mechanistically, we identified a profound increase in neuronal activity in the frontal cortex of Fus knock-in mice in vivo. Importantly, RNAseq analysis suggested involvement of defects in inhibitory neurons, that was confirmed by ultrastructural and morphological defects of inhibitory synapses and increased synaptosomal levels of mRNAs involved in inhibitory neurotransmission. Thus, cytoplasmic FUS triggers inhibitory synaptic deficits, leading to increased neuronal activity and behavioral phenotypes. FUS mislocalization may trigger deleterious phenotypes beyond motor neuron impairment in ALS, but also in other neurodegenerative diseases with FUS mislocalization.

Published

2020

14. Upper and Lower Motor Neuron Degenerations Are Somatotopically Related and Temporally Ordered in the Sod1 Mouse Model of Amyotrophic Lateral Sclerosis

Author

Marques, Christine, primary, Burg, Thibaut, additional, Scekic-Zahirovic, Jelena, additional, Fischer, Mathieu, additional, and Rouaux, Caroline, additional

Published

2021

15. Cytoplasmic accumulation of FUS triggers early behavioral alterations linked to cortical neuronal hyperactivity and defects in inhibitory synapses

Author

Scekic-Zahirovic, Jelena, primary, Sanjuan-Ruiz, Inmaculada, additional, Kan, Vanessa, additional, Megat, Salim, additional, De Rossi, Pierre, additional, Dieterlé, Stéphane, additional, Cassel, Raphaelle, additional, Kessler, Pascal, additional, Wiesner, Diana, additional, Tzeplaeff, Laura, additional, Demais, Valérie, additional, Muller, Hans-Peter, additional, Picchiarelli, Gina, additional, Mishra, Nibha, additional, Dirrig-Grosch, Sylvie, additional, Kassubek, Jan, additional, Rasche, Volker, additional, Ludolph, Albert, additional, Boutillier, Anne-Laurence, additional, Polymenidou, Magdalini, additional, Lagier-Tourenne, Clotilde, additional, Liebscher, Sabine, additional, and Dupuis, Luc, additional

Published

2020

16. Genetic ablation of SOD1G37R selectively from corticofugal projection neurons protects corticospinal neurons from degeneration without affecting ALS onset and progression

Author

Scekic-Zahirovic, Jelena, primary, Fischer, Mathieu, additional, Lopez, Geoffrey Stuart, additional, Burg, Thibaut, additional, Birling, Marie-Christine, additional, Kessler, Pascal, additional, and Rouaux, Caroline, additional

Published

2020

17. FUS-mediated transcriptional regulation of acetylcholine receptor at neuromuscular junctions is compromised in amyotrophic lateral sclerosis

Author

Picchiarelli, Gina, Demestre, Maria, Zuko, A., Been, M., Higelin, Julia, Dieterle, S., Goy, Marc-Antoine, Mallik, M., Sellier, Chantal, Scekic-Zahirovic, Jelena, Zhang, L., Rosenbohm, Angela, Sijlmans, Céline, Aly, A., Mersmann, Sina, Sanjuan-Ruiz, Inmaculada, Hubers, A., Messaddeq, N., Wagner, M., Bakel, N. van, Boutillier, Anne-Laurence, Ludolph, A., Lagier-Tourenne, C., Boeckers, T.M., Dupuis, L., Storkebaum, E.J.M., Picchiarelli, Gina, Demestre, Maria, Zuko, A., Been, M., Higelin, Julia, Dieterle, S., Goy, Marc-Antoine, Mallik, M., Sellier, Chantal, Scekic-Zahirovic, Jelena, Zhang, L., Rosenbohm, Angela, Sijlmans, Céline, Aly, A., Mersmann, Sina, Sanjuan-Ruiz, Inmaculada, Hubers, A., Messaddeq, N., Wagner, M., Bakel, N. van, Boutillier, Anne-Laurence, Ludolph, A., Lagier-Tourenne, C., Boeckers, T.M., Dupuis, L., and Storkebaum, E.J.M.

Abstract

Contains fulltext : 219189.pdf (publisher's version ) (Closed access)

Published

2019

18. Absence of subcerebral projection neurons delays disease onset and extends survival in a mouse model of ALS

Author

Burg, Thibaut, primary, Bichara, Charlotte, additional, Scekic-Zahirovic, Jelena, additional, Fischer, Mathieu, additional, Stuart-Lopez, Geoffrey, additional, Lefebvre, François, additional, Cordero-Erausquin, Matilde, additional, and Rouaux, Caroline, additional

Published

2019

19. Early alterations of RNA metabolism and splicing from adult corticospinal neurons in an ALS mouse model

Author

Marques, Christine, primary, Fischer, Mathieu, additional, Keime, Céline, additional, Burg, Thibaut, additional, Brunet, Aurore, additional, Scekic-Zahirovic, Jelena, additional, and Rouaux, Caroline, additional

Published

2019

20. The VAMP‐associated protein VAPB is required for cardiac and neuronal pacemaker channel function

Author

Silbernagel, Nicole, primary, Walecki, Magdalena, additional, Schäfer, Martin K.-H., additional, Kessler, Mirjam, additional, Zobeiri, Mehrnoush, additional, Rinné, Susanne, additional, Kiper, Aytug K., additional, Komadowski, Marlene A., additional, Vowinkel, Kirsty S., additional, Wemhöner, Konstantin, additional, Fortmüller, Lisa, additional, Schewe, Marcus, additional, Dolga, Amalia M., additional, Scekic-Zahirovic, Jelena, additional, Matschke, Lina A., additional, Culmsee, Carsten, additional, Baukrowitz, Thomas, additional, Monassier, Laurent, additional, Ullrich, Nina D., additional, Dupuis, Luc, additional, Just, Steffen, additional, Budde, Thomas, additional, Fabritz, Larissa, additional, and Decher, Niels, additional

Published

2018

21. Conditional truncation of the FUS protein in mice : a new animal model of the ALS/FTD continuum

Author

Scekic-Zahirovic, Jelena, Mécanismes Centraux et Périphériques de la Neurodégénérescence, Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM), Université de Strasbourg, Universität Basel, Université de Fribourg (Fribourg, Suisse), Luc Dupuis, Marlene Bartos, Pico Caroni, and STAR, ABES

Subjects

Cytoplasmic mislocalization, SLA/DFT, Cytoplasmique localisation, ALS/FTLD, Toxic gain of function, Gain de fonction, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], FUS

Abstract

Amyotrophic lateral sclerosis (ALS) and Frontotemporal dementia (FTLD) are now considered as a unique clinicopathological spectrum referred to as ALS/FTLD. Cytoplasmic aggregation of the physiologically nuclear FUS protein is a hallmark feature of a subset of ALS/FTLD. It remains unknonwn whether the critical pathogenic event relies on a loss of FUS normal nuclear functions, a toxic gain of function of FUS in the cytoplasm, or a combination of both.To answer this question we have generated a conditional mouse model expressing truncated FUS without nuclear localization signal - FusΔNLS. Our data showed that complete cytoplasmic mislocalization of truncated FUS protein within spinal motor neurons is a major determinant of motor neuron degeneration via toxic gain of function. A partial mislocalization of truncated FUS protein was sufficient to trigger key features of ALS and of FTLD.These studies allowed the elucidation of mechanisms underlying FUS role in ALS/FTLD, and will hopefully lead to development of therapies for these devastating diseases., La sclérose latérale amyotrophique (SLA) et la démence fronto-temporale (DFT) sont deux maladies qui constituent un continuum clinico-pathologique. La mutation de FUS, une protéine nucléaire à fonctions multiples, provoque des cas familaux de SLA, et ces mutations provoquent une redistribution sub-cellulaire de FUS, du noyau vers le cytoplasme. Certains cas de DFT présentent une telles distribution anormale en l’absence de mutations de FUS. Il n’est pas connu si la maladie est provoquée par une perte de la fonction nucléaire de FUS et/ou un gain de fonction cytoplasmique.Nous avons généré et caractérisé une lignée de souris exprimant une forme cytoplasmique de FUS (Fus-ΔNLS). La localisation exclusive de FUS dans le cytoplasme provoque la mort des motoneurones via un gain de fonction dans les motoneurones eux-mêmes. Une localisation cytoplasmique partielle de FUS est suffisante pour développer un phénotype de la SLA et de DFT. Les mécanismes élucidés permettront de comprendre les bases des SLA/DFT.

Published

2016

22. Alterations in the hypothalamic melanocortin pathway in amyotrophic lateral sclerosis

Author

Vercruysse, Pauline, Sinniger, Jérôme, Dreyhaupt, Jens, Grehl, Torsten, Hermann, Andreas, Grosskreutz, Julian, Witting, Anke, Van Den Bosch, Ludo, Spreux-Varoquaux, Odile, Group, GERP ALS Study, Ludolph, Albert C, Dupuis, Luc, El Oussini, Hajer, Borisow, Nadja, Holm, Theresa, Maier, Andre, Meyer, Thomas, Budde, Paula, Gruhn, Kai, Bewersdorff, Malte, Heneka, Michael, Storch, Alexander, Scekic-Zahirovic, Jelena, Frank, Tobias, Göricke, Bettina, Weishaupt, Jochen, Eger, Katharina, Hanisch, Frank, Zierz, Stephan, Boeck, Anna-Lena, Dengler, Reinhard, Koerner, Sonja, Kollewe, Katja, Dieterlé, Stéphane, Petri, Susanne, Prell, Tino, Ringer, Thomas, Zinke, Jan, Anneser, Johanna, Borasio, Gian Domenico, Chahli, Christine, Winkler, Andrea S, Boentert, Matthias, Stubbe-Draeger, Bianca, Young, Peter, Bogdahn, Ulrich, Franz, Steffen, Haringer, Verena, Weidner, Norbert, Benecke, Reiner, Meister, Stefanie, Prudlo, Johannes, Wittstock, Matthias, Dorst, Johannes, Hendrich, Corinna, Sperfeld, Anne-Dorte, Weiland, Ulrike, Neidhardt, Sabine, Schrank, Berthold, Beck, Marcus, Kraft, Peter, Toyka, Klaus, Ulzheimer, Jochen, Wessig, Carsten, Kassubek, Jan, Fischer, Wilhelm, Mécanismes Centraux et Périphériques de la Neurodégénérescence, Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM), Hannover Medical School [Hannover] (MHH), Charité - UniversitätsMedizin = Charité - University Hospital [Berlin], Martin-Luther-University Halle-Wittenberg, University of Ulm (UUlm), Ruhr-Universität Bochum [Bochum], Technische Universität Dresden = Dresden University of Technology (TU Dresden), German Research Center for Neurodegenerative Diseases - Deutsches Zentrum für Neurodegenerative Erkrankungen (DZNE), Jena University Hospital [Jena], Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), GERP ALS Study Group: Nadja Borisow, Theresa Holm, Andre Maier, Thomas Meyer, Paula Budde, Torsten Grehl, Kai Gruhn, Malte Bewersdorff, Michael Heneka, Andreas Hermann, Alexander Storch, Tobias Frank, Bettina Göricke, Jochen Weishaupt, Katharina Eger, Frank Hanisch, Stephan Zierz, Anna-Lena Boeck, Reinhard Dengler, Sonja Koerner, Katja Kollewe, Susanne Petri, Julian Grosskreutz, Tino Prell, Thomas Ringer, Jan Zinke, Johanna Anneser, Gian Domenico Borasio, Christine Chahli, Andrea S Winkler, Matthias Boentert, Bianca Stubbe-Draeger, Peter Young, Ulrich Bogdahn, Steffen Franz, Verena Haringer, Norbert Weidner, Reiner Benecke, Stefanie Meister, Johannes Prudlo, Matthias Wittstock, Johannes Dorst, Corinna Hendrich, Albert C Ludolph, Anne-Dorte Sperfeld, Ulrike Weiland, Sabine Neidhardt, Berthold Schrank, Marcus Beck, Peter Kraft, Klaus Toyka, Jochen Ulzheimer, Carsten Wessig., and Dieterle, Stéphane

Subjects

MESH: Signal Transduction, 0301 basic medicine, Male, Pro-Opiomelanocortin, calorie intake, [SDV]Life Sciences [q-bio], MESH: Thiazolidinediones, MESH: Synapses, MESH: Spatial Memory, [SCCO]Cognitive science, Mice, MESH: Riluzole, 0302 clinical medicine, Superoxide Dismutase-1, MESH: Transcription Factor RelA, Sod1 protein, mouse, thiazolinediones, genetics [Superoxide Dismutase], MESH: Pro-Opiomelanocortin, MESH: Animals, Amyotrophic lateral sclerosis, MESH: Superoxide Dismutase, therapeutic use [Riluzole], MESH: Superoxide Dismutase-1, 2. Zero hunger, Riluzole, Leptin, digestive, oral, and skin physiology, SOD1 protein, human, metabolism [Hypothalamus], 3. Good health, [SDV] Life Sciences [q-bio], genetics [Amyotrophic Lateral Sclerosis], Female, Melanocortin, hormones, hormone substitutes, and hormone antagonists, medicine.drug, Signal Transduction, medicine.medical_specialty, drug effects [Signal Transduction], MESH: Mice, Transgenic, MESH: Pioglitazone, metabolism [Superoxide Dismutase], SOD1, Hypothalamus, Mice, Transgenic, drug effects [Hypothalamus], pharmacology [Thiazolidinediones], Biology, TARDBP, pathology [Hypothalamus], 03 medical and health sciences, Proopiomelanocortin, MESH: Mice, Inbred C57BL, MESH: Rats, Long-Evans, Internal medicine, physiology [Signal Transduction], medicine, metabolism [Pro-Opiomelanocortin], Animals, Humans, ddc:610, weight loss, MESH: Mice, MESH: Humans, therapeutic use [Thiazolidinediones], drug therapy [Amyotrophic Lateral Sclerosis], Pioglitazone, genetics [Pro-Opiomelanocortin], Superoxide Dismutase, metabolism [Amyotrophic Lateral Sclerosis], Amyotrophic Lateral Sclerosis, pharmacology [Riluzole], [SCCO] Cognitive science, medicine.disease, MESH: Hypothalamus, MESH: Male, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, biology.protein, Thiazolidinediones, Neurology (clinical), MESH: Female, 030217 neurology & neurosurgery

Abstract

International audience; Amyotrophic lateral sclerosis, the most common adult-onset motor neuron disease, leads to death within 3 to 5 years after onset. Beyond progressive motor impairment, patients with amyotrophic lateral sclerosis suffer from major defects in energy metabolism, such as weight loss, which are well correlated with survival. Indeed, nutritional intervention targeting weight loss might improve survival of patients. However, the neural mechanisms underlying metabolic impairment in patients with amyotrophic lateral sclerosis remain elusive, in particular due to the lack of longitudinal studies. Here we took advantage of samples collected during the clinical trial of pioglitazone (GERP-ALS), and characterized longitudinally energy metabolism of patients with amyotrophic lateral sclerosis in response to pioglitazone, a drug with well-characterized metabolic effects. As expected, pioglitazone decreased glycaemia, decreased liver enzymes and increased circulating adiponectin in patients with amyotrophic lateral sclerosis, showing its efficacy in the periphery. However, pioglitazone did not increase body weight of patients with amyotrophic lateral sclerosis independently of bulbar involvement. As pioglitazone increases body weight through a direct inhibition of the hypothalamic melanocortin system, we studied hypothalamic neurons producing proopiomelanocortin (POMC) and the endogenous melanocortin inhibitor agouti-related peptide (AGRP), in mice expressing amyotrophic lateral sclerosis-linked mutant SOD1(G86R). We observed lower Pomc but higher Agrp mRNA levels in the hypothalamus of presymptomatic SOD1(G86R) mice. Consistently, numbers of POMC-positive neurons were decreased, whereas AGRP fibre density was elevated in the hypothalamic arcuate nucleus of SOD1(G86R) mice. Consistent with a defect in the hypothalamic melanocortin system, food intake after short term fasting was increased in SOD1(G86R) mice. Importantly, these findings were replicated in two other amyotrophic lateral sclerosis mouse models based on TDP-43 (Tardbp) and FUS mutations. Finally, we demonstrate that the melanocortin defect is primarily caused by serotonin loss in mutant SOD1(G86R) mice. Altogether, the current study combined clinical evidence and experimental studies in rodents to provide a mechanistic explanation for abnormalities in food intake and weight control observed in patients with amyotrophic lateral sclerosis. Importantly, these results also show that amyotrophic lateral sclerosis progression impairs responsiveness to classical drugs leading to weight gain. This has important implications for pharmacological management of weight loss in amyotrophic lateral sclerosis.

Published

2015

23. Serotonin 2B receptor slows disease progression and prevents degeneration of spinal cord mononuclear phagocytes in amyotrophic lateral sclerosis

Author

Opleiding Neurologie, Brain, Projectafdeling ALS, Regenerative Medicine and Stem Cells, ZL Neuromusculaire Ziekten Medisch, Neurogenetica, El Oussini, Hajer, Bayer, Hanna, Scekic-Zahirovic, Jelena, Vercruysse, Pauline, Sinniger, Jérôme, Dirrig-Grosch, Sylvie, Dieterlé, Stéphane, Echaniz-Laguna, Andoni, Larmet, Yves, Müller, Kathrin, Weishaupt, Jochen H, Thal, Dietmar R, van Rheenen, Wouter, van Eijk, Kristel, Lawson, Roland, Monassier, Laurent, Maroteaux, Luc, Roumier, Anne, Wong, Philip C, van den Berg, Leonard H, Ludolph, Albert C, Veldink, Jan H, Witting, Anke, Dupuis, Luc, Opleiding Neurologie, Brain, Projectafdeling ALS, Regenerative Medicine and Stem Cells, ZL Neuromusculaire Ziekten Medisch, Neurogenetica, El Oussini, Hajer, Bayer, Hanna, Scekic-Zahirovic, Jelena, Vercruysse, Pauline, Sinniger, Jérôme, Dirrig-Grosch, Sylvie, Dieterlé, Stéphane, Echaniz-Laguna, Andoni, Larmet, Yves, Müller, Kathrin, Weishaupt, Jochen H, Thal, Dietmar R, van Rheenen, Wouter, van Eijk, Kristel, Lawson, Roland, Monassier, Laurent, Maroteaux, Luc, Roumier, Anne, Wong, Philip C, van den Berg, Leonard H, Ludolph, Albert C, Veldink, Jan H, Witting, Anke, and Dupuis, Luc

Published

2016

24. VAPB/ALS8 MSP Ligands Regulate Striated Muscle Energy Metabolism Critical for Adult Survival in Caenorhabditis elegans

Author

Han, Sung Min, primary, El Oussini, Hajer, additional, Scekic-Zahirovic, Jelena, additional, Vibbert, Jack, additional, Cottee, Pauline, additional, Prasain, Jeevan K., additional, Bellen, Hugo J., additional, Dupuis, Luc, additional, and Miller, Michael A., additional

Published

2013

25. Toxic gain of function from mutant FUS protein is crucial to trigger cell autonomous motor neuron loss

Author

Scekic‐Zahirovic, Jelena, Sendscheid, Oliver, El Oussini, Hajer, Jambeau, Mélanie, Sun, Ying, Mersmann, Sina, Wagner, Marina, Dieterlé, Stéphane, Sinniger, Jérome, Dirrig‐Grosch, Sylvie, Drenner, Kevin, Birling, Marie‐Christine, Qiu, Jinsong, Zhou, Yu, Li, Hairi, Fu, Xiang‐Dong, Rouaux, Caroline, Shelkovnikova, Tatyana, Witting, Anke, Ludolph, Albert C, Kiefer, Friedemann, Storkebaum, Erik, Lagier‐Tourenne, Clotilde, and Dupuis, Luc

Subjects

Article, amyotrophic lateral sclerosis, frontotemporal dementia, FUS, motor neuron degeneration, PY‐NLS, Molecular Biology of Disease, Neuroscience

Abstract

FUS is an RNA‐binding protein involved in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Cytoplasmic FUS‐containing aggregates are often associated with concomitant loss of nuclear FUS. Whether loss of nuclear FUS function, gain of a cytoplasmic function, or a combination of both lead to neurodegeneration remains elusive. To address this question, we generated knockin mice expressing mislocalized cytoplasmic FUS and complete FUS knockout mice. Both mouse models display similar perinatal lethality with respiratory insufficiency, reduced body weight and length, and largely similar alterations in gene expression and mRNA splicing patterns, indicating that mislocalized FUS results in loss of its normal function. However, FUS knockin mice, but not FUS knockout mice, display reduced motor neuron numbers at birth, associated with enhanced motor neuron apoptosis, which can be rescued by cell‐specific CRE‐mediated expression of wild‐type FUS within motor neurons. Together, our findings indicate that cytoplasmic FUS mislocalization not only leads to nuclear loss of function, but also triggers motor neuron death through a toxic gain of function within motor neurons.

Published

2016

26. VAPB/ALS8 MSP Ligands Regulate Striated Muscle Energy Metabolism Critical for Adult Survival in Caenorhabditis elegans.

Author

Han, Sung Min, El Oussini, Hajer, Scekic-Zahirovic, Jelena, Vibbert, Jack, Cottee, Pauline, Prasain, Jeevan K., Bellen, Hugo J., Dupuis, Luc, and Miller, Michael A.

Subjects

GENETIC mutation, AMYOTROPHIC lateral sclerosis, SPINAL muscular atrophy, MOTOR neuron diseases, DROSOPHILA

Abstract

Mutations in VAPB/ALS8 are associated with amyotrophic lateral sclerosis (ALS) and spinal muscular atrophy (SMA), two motor neuron diseases that often include alterations in energy metabolism. We have shown that C. elegans and Drosophila neurons secrete a cleavage product of VAPB, the N-terminal major sperm protein domain (vMSP). Secreted vMSPs signal through Roundabout and Lar-like receptors expressed on striated muscle. The muscle signaling pathway localizes mitochondria to myofilaments, alters their fission/fusion balance, and promotes energy production. Here, we show that neuronal loss of the C. elegans VAPB homolog triggers metabolic alterations that appear to compensate for muscle mitochondrial dysfunction. When vMSP levels drop, cytoskeletal or mitochondrial abnormalities in muscle induce elevated DAF-16, the Forkhead Box O (FoxO) homolog, transcription factor activity. DAF-16 promotes muscle triacylglycerol accumulation, increases ATP levels in adults, and extends lifespan, despite reduced muscle mitochondria electron transport chain activity. Finally, Vapb knock-out mice exhibit abnormal muscular triacylglycerol levels and FoxO target gene transcriptional responses to fasting and refeeding. Our data indicate that impaired vMSP signaling to striated muscle alters FoxO activity, which affects energy metabolism. Abnormalities in energy metabolism of ALS patients may thus constitute a compensatory mechanism counterbalancing skeletal muscle mitochondrial dysfunction. [ABSTRACT FROM AUTHOR]

Published

2013

27. Evidence that corticofugal propagation of ALS pathology is not mediated by prion-like mechanism

Author

Scekic-Zahirovic, Jelena, Fischer, Mathieu, Stuart-Lopez, Geoffrey, Burg, Thibaut, Gilet, Johan, Dirrig-Grosch, Sylvie, Marques, Christine, Birling, Marie-Christine, Kessler, Pascal, and Rouaux, Caroline

Subjects

REHABILITATION, Science & Technology, SPASTICITY, Corticofugal hypothesis, TDP-43, Neurosciences, SOD1, Cell-autonomous mechanism, DEGENERATION, Amyotrophic lateral sclerosis, Corticospinal neurons, AMYOTROPHIC-LATERAL-SCLEROSIS, MODEL, ONSET, SURVIVAL, MOTOR-NEURONS, Prion-like propagation, Neurosciences & Neurology, CORTICAL HYPEREXCITABILITY, Life Sciences & Biomedicine

Abstract

Amyotrophic lateral sclerosis (ALS) arises from the combined degeneration of motor neurons (MN) and corticospinal neurons (CSN). Recent clinical and pathological studies suggest that ALS might start in the motor cortex and spread along the corticofugal axonal projections (including the CSN), either via altered cortical excitability and activity or via prion-like propagation of misfolded proteins. Using mouse genetics, we recently provided the first experimental arguments in favour of the corticofugal hypothesis, but the mechanism of propagation remained an open question. To gain insight into this matter, we tested here the possibility that the toxicity of the corticofugal projection neurons (CFuPN) to their targets could be mediated by their cell autonomous-expression of an ALS causing transgene and possible diffusion of toxic misfolded proteins to their spinal targets. We generated a Crym-CreERT2 mouse line to ablate the SOD1G37R transgene selectively in CFuPN. This was sufficient to fully rescue the CSN and to limit spasticity, but had no effect on the burden of misfolded SOD1 protein in the spinal cord, MN survival, disease onset and progression. The data thus indicate that in ALS corticofugal propagation is likely not mediated by prion-like mechanisms, but could possibly rather rely on cortical hyperexcitability. ispartof: PROGRESS IN NEUROBIOLOGY vol:200 ispartof: location:England status: published

28. VAPB/ALS8 MSP Ligands Regulate Striated Muscle Energy Metabolism Critical for Adult Survival in Caenorhabditis elegans.

Author

Han, Sung Min, El Oussini, Hajer, Scekic-Zahirovic, Jelena, Vibbert, Jack, Cottee, Pauline, Prasain, Jeevan K., Bellen, Hugo J., Dupuis, Luc, and Miller, Michael A.

Subjects

*GENETIC mutation, *AMYOTROPHIC lateral sclerosis, *SPINAL muscular atrophy, *MOTOR neuron diseases, *DROSOPHILA

Abstract

Mutations in VAPB/ALS8 are associated with amyotrophic lateral sclerosis (ALS) and spinal muscular atrophy (SMA), two motor neuron diseases that often include alterations in energy metabolism. We have shown that C. elegans and Drosophila neurons secrete a cleavage product of VAPB, the N-terminal major sperm protein domain (vMSP). Secreted vMSPs signal through Roundabout and Lar-like receptors expressed on striated muscle. The muscle signaling pathway localizes mitochondria to myofilaments, alters their fission/fusion balance, and promotes energy production. Here, we show that neuronal loss of the C. elegans VAPB homolog triggers metabolic alterations that appear to compensate for muscle mitochondrial dysfunction. When vMSP levels drop, cytoskeletal or mitochondrial abnormalities in muscle induce elevated DAF-16, the Forkhead Box O (FoxO) homolog, transcription factor activity. DAF-16 promotes muscle triacylglycerol accumulation, increases ATP levels in adults, and extends lifespan, despite reduced muscle mitochondria electron transport chain activity. Finally, Vapb knock-out mice exhibit abnormal muscular triacylglycerol levels and FoxO target gene transcriptional responses to fasting and refeeding. Our data indicate that impaired vMSP signaling to striated muscle alters FoxO activity, which affects energy metabolism. Abnormalities in energy metabolism of ALS patients may thus constitute a compensatory mechanism counterbalancing skeletal muscle mitochondrial dysfunction. [ABSTRACT FROM AUTHOR]

Published

2013

29. Absence of Subcerebral Projection Neurons Is Beneficial in a Mouse Model of Amyotrophic Lateral Sclerosis.

Author

Burg T, Bichara C, Scekic-Zahirovic J, Fischer M, Stuart-Lopez G, Brunet A, Lefebvre F, Cordero-Erausquin M, and Rouaux C

Subjects

Animals, Disease Models, Animal, Mice, Mice, Transgenic, Motor Neurons pathology, Amyotrophic Lateral Sclerosis pathology, Brain pathology, Interneurons pathology, Spinal Cord pathology

Abstract

Objective: Recent studies carried out on amyotrophic lateral sclerosis patients suggest that the disease might initiate in the motor cortex and spread to its targets along the corticofugal tracts. In this study, we aimed to test the corticofugal hypothesis of amyotrophic lateral sclerosis experimentally., Methods: Sod1 G86R and Fezf2 knockout mouse lines were crossed to generate a model that expresses a mutant of the murine Sod1 gene ubiquitously, a condition sufficient to induce progressive motor symptoms and premature death, but genetically lacks corticospinal neurons and other subcerebral projection neurons, one of the main populations of corticofugal neurons. Disease onset and survival were recorded, and weight and motor behavior were followed longitudinally. Hyper-reflexia and spasticity were monitored using electromyographic recordings. Neurodegeneration and gliosis were assessed by histological techniques., Results: Absence of subcerebral projection neurons delayed disease onset, reduced weight loss and motor impairment, and increased survival without modifying disease duration. Absence of corticospinal neurons also limited presymptomatic hyper-reflexia, a typical component of the upper motoneuron syndrome., Interpretation: Major corticofugal tracts are crucial to the onset and progression of amyotrophic lateral sclerosis. In the context of the disease, subcerebral projection neurons might carry detrimental signals to their downstream targets. In its entirety, this study provides the first experimental arguments in favor of the corticofugal hypothesis of amyotrophic lateral sclerosis. ANN NEUROL 2020;88:688-702., (© 2020 The Authors. Annals of Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2020