Article
Biochemistry & Molecular Biology
Elisabetta Babetto, Bogdan Beirowski
Summary: In this article, recent research on pathological axon degeneration (pAxD) is reviewed, demonstrating that pAxD is regulated by an auto-destruction program linked to axonal bioenergetics. The article also highlights the emerging concept of intertwined axonal and glial energy metabolism. These findings are expected to encourage the development of new treatment strategies for neurodegeneration.
BIOCHIMICA ET BIOPHYSICA ACTA-BIOENERGETICS
(2022)
Review
Cell Biology
Greg J. Duncan, Tyrell J. Simkins, Ben Emery
Summary: Oligodendrocytes play a crucial role in myelinating axons, and disruptions in this relationship can lead to axonal dysfunction and neurodegeneration. Understanding the mechanisms behind demyelination and loss of oligodendrocytes is important in developing potential therapeutic strategies for disorders where oligodendrocyte support of axons is compromised.
FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY
(2021)
Article
Multidisciplinary Sciences
Antonio Cadiz Diaz, Natalie A. Schmidt, Mamiko Yamazaki, Chia-Jung Hsieh, Thomas S. Lisse, Sandra Rieger
Summary: Tissue wounding induces axon regeneration through distinct mechanisms involving both neurons and keratinocytes, mediated by H2O2 signaling and matrix remodeling. These processes are essential for the regeneration of cutaneous axons after injury.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
(2022)
Article
Neurosciences
Shuai Wang, Mingxue Song, Hui Yong, Cuiqin Zhang, Kang Kang, Zhidan Liu, Yiyu Yang, Zhengcheng Huang, Shu'e Wang, Haotong Ge, Xiulan Zhao, Fuyong Song
Summary: This study reveals the importance of mitochondrial localization of SARM1 in programmed axon death. Mitochondrial accumulation of SARM1 interferes with mitochondrial dynamics and activates PINK1-mediated mitophagy, contributing to axonal degeneration. Rapamycin intervention eliminates mitochondrial accumulation of SARM1 and partially attenuates neuropathy. The findings suggest that mitochondrial localization of SARM1 plays a role in its clearance through the SARM1-PINK1 mitophagy pathway.
MOLECULAR NEUROBIOLOGY
(2022)
Review
Neurosciences
Hailong Song, Chen Chen, Brian Kelley, Alexandra Tomasevich, Hyoungjoo Lee, Jean-Pierre Dolle, Jianlin Cheng, Benjamin Garcia, David F. Meaney, Douglas H. Smith
Summary: This study found shared changes in axonal microtubule modifications and associated proteins in both developmental processes and traumatic brain injury (TBI). The findings suggest that TBI may reactivate dormant axonal programs that regulate axon degeneration or growth/repair.
PROGRESS IN NEUROBIOLOGY
(2022)
Review
Biochemistry & Molecular Biology
Janneke D. Icso, Paul R. Thompson
Summary: During axon degeneration, NAD+ levels are controlled by NMNAT2 and SARM1. NMNAT2 catalyzes the formation of NAD(+) from NMN and ATP, while SARM1 catalyzes the hydrolysis of NAD(+) to decrease its concentration. SARM1 knockout decreases axon degeneration and shows therapeutic potential.
CURRENT OPINION IN CHEMICAL BIOLOGY
(2022)
Article
Biochemistry & Molecular Biology
Boyoon Choi, Hyeyoung Kim, Jungim Jang, Sihyeon Park, Hosung Jung
Summary: Neurons form long-distance connections through their axons, and the accuracy and stability of these connections are crucial for brain function. Investigating the molecular and cellular mechanisms underlying neuronal circuit assembly and maintenance requires an efficient vertebrate model. Xenopus tropicalis, a diploid amphibian species, is an ideal model for visualizing axonal pathfinding and degeneration of a specific neuronal cell type - the retinal ganglion cell. This study demonstrates that the visual system of X. tropicalis is highly efficient for identifying new molecular mechanisms underlying axon guidance and survival.
MOLECULES AND CELLS
(2022)
Article
Neurosciences
Shilpa Sambashivan, Marc R. Freeman
Summary: Axon degeneration is a major feature in the injured nervous system, driven by the protein SARM1 which actively promotes NAD(+) loss after injury. While SARM1 is believed to act as a sensor for metabolic changes and drive degeneration, its biology is complex and there is still much to learn about its role in governing nervous system responses to injury or disease.
CURRENT OPINION IN NEUROBIOLOGY
(2021)
Review
Genetics & Heredity
Kai Zhang, Mingsheng Jiang, Yanshan Fang
Summary: Significant progress has been made in recent years in identifying the genetic components of Wallerian degeneration, shedding light on the active and dynamic cellular process at molecular and cellular levels. By highlighting the key players and outlining the molecular script of Wallerian degeneration, a useful framework has been provided to understand and develop new therapeutic strategies for axon degeneration in neural injury and neurodegenerative disease.
ANNUAL REVIEW OF GENETICS, VOL 55
(2021)
Article
Cell Biology
Sean Mccracken, Michael J. Fitzpatrick, Allison L. Hall, Zelun Wang, Daniel Kerschensteiner, Josh L. Morgan, Philip R. Williams
Summary: Retinal ganglion cell (RGC) degeneration, caused by axon degeneration, is the main reason for vision loss in blinding conditions. Axonal Ca2+ elevations from optic nerve injury do not reach RGC somas, and baseline Ca2+ levels of RGCs predict their survival after axon injury.
Review
Clinical Neurology
Peter Arthur-Farraj, Michael P. Coleman
Summary: This review summarizes the latest advances in laboratory traumatic peripheral nerve injury studies, focusing on axon degeneration and repair Schwann cell formation at the molecular level. Studies have identified key genes and proteins playing important roles in nerve injury and disease development, providing insights into potential therapeutic approaches for peripheral nerve disorders.
Review
Biochemistry & Molecular Biology
Abhishek Kumar Mishra, Anubhuti Dixit
Summary: Parkinson's disease is characterized by the depletion of dopamine in the striatum due to the loss of nigrostriatal dopaminergic neurons, leading to motor dysfunction and other clinical symptoms. Protecting the substantia nigra neurons is crucial for maintaining dopamine levels. Current strategies for treating PD focus on preventing cell body death but new approaches may target axonal degeneration to prevent loss of synaptic terminals and alleviate symptomatic features.
NEUROCHEMICAL RESEARCH
(2022)
Review
Cell Biology
Satpal Virdee
Summary: This article summarizes the research developments regarding the unusual features of MYCBP2 and proposes therapeutic strategies to prevent neurodegenerative diseases.
NEURAL REGENERATION RESEARCH
(2022)
Article
Medicine, Research & Experimental
Caitlin B. Dingwall, Amy Strickland, Sabrina W. Yum, Aldrin K. Y. Yim, Jian Zhu, Peter L. Wang, Yurie Yamada, Robert E. Schmidt, Yo Sasaki, A. Joseph Bloom, Aaron DiAntonio, Jeffrey Milbrandt
Summary: This study identified rare NMNAT2 gene variants associated with a neuropathy syndrome and demonstrated the importance of SARM1-related neuroimmune mechanisms in disease pathogenesis. Macrophage depletion therapy was shown to block and reverse neuropathic phenotypes in mice with NMNAT2 mutations.
JOURNAL OF CLINICAL INVESTIGATION
(2022)
Review
Biochemistry & Molecular Biology
Ana Rita Costa, Monica Mendes Sousa
Summary: The identification of the membrane periodic skeleton (MPS) using super-resolution microscopy revealed a lattice of actin rings interconnected by spectrin tetramers, bringing a new perspective to neuronal biology. The exquisite cytoskeleton arrangement plays a crucial role in regulating neuronal function, beyond providing axonal mechanical stability. The MPS acts as a signaling platform, regulates axon diameter, participates in assembly and function of the axon initial segment, and controls axon microtubule stability, highlighting its importance in various aspects of neuronal biology.
CELLULAR AND MOLECULAR LIFE SCIENCES
(2021)
Correction
Genetics & Heredity
Wouter van Rheenen, Rick A. A. van der Spek, Mark K. Bakker, Joke J. F. A. van Vugt, Paul J. Hop, Ramona A. J. Zwamborn, Niek de Klein, Harm-Jan Westra, Olivier B. Bakker, Patrick Deelen, Gemma Shireby, Eilis Hannon, Matthieu Moisse, Denis Baird, Restuadi Restuadi, Egor Dolzhenko, Annelot M. Dekker, Klara Gawor, Henk-Jan Westeneng, Gijs H. P. Tazelaar, Kristel R. van Eijk, Maarten Kooyman, Ross P. Byrne, Mark Doherty, Mark Heverin, Ahmad Al Khleifat, Alfredo Iacoangeli, Aleksey Shatunov, Nicola Ticozzi, Johnathan Cooper-Knock, Bradley N. Smith, Marta Gromicho, Siddharthan Chandran, Suvankar Pal, Karen E. Morrison, Pamela J. Shaw, John Hardy, Richard W. Orrell, Michael Sendtner, Thomas Meyer, Nazli Basak, Anneke J. van der Kooi, Antonia Ratti, Isabella Fogh, Cinzia Gellera, Giuseppe Lauria, Stefania Corti, Cristina Cereda, Daisy Sproviero, Sandra D'Alfonso, Gianni Soraru, Gabriele Siciliano, Massimiliano Filosto, Alessandro Padovani, Adriano Chio, Andrea Calvo, Cristina Moglia, Maura Brunetti, Antonio Canosa, Maurizio Grassano, Ettore Beghi, Elisabetta Pupillo, Giancarlo Logroscino, Beatrice Nefussy, Alma Osmanovic, Angelica Nordin, Yossef Lerner, Michal Zabari, Marc Gotkine, Robert H. Baloh, Shaughn Bell, Patrick Vourc'h, Philippe Corcia, Philippe Couratier, Stephanie Millecamps, Vincent Meininger, Francois Salachas, Jesus S. Mora Pardina, Abdelilah Assialioui, Ricardo Rojas-Garcia, Patrick A. Dion, Jay P. Ross, Albert C. Ludolph, Jochen H. Weishaupt, David Brenner, Axel Freischmidt, Gilbert Bensimon, Alexis Brice, Alexandra Durr, Christine A. M. Payan, Safa Saker-Delye, Nicholas W. Wood, Simon Topp, Rosa Rademakers, Lukas Tittmann, Wolfgang Lieb, Andre Franke, Stephan Ripke, Alice Braun, Julia Kraft, David C. Whiteman, Catherine M. Olsen, Andre G. Uitterlinden, Albert Hofman, Marcella Rietschel, Sven Cichon, Markus M. Nothen, Philippe Amouyel, Giancarlo Comi, Nilo Riva, Christian Lunetta, Francesca Gerardi, Maria Sofia Cotelli, Fabrizio Rinaldi, Luca Chiveri, Maria Cristina Guaita, Patrizia Perrone, Mauro Ceroni, Luca Diamanti, Carlo Ferrarese, Lucio Tremolizzo, Maria Luisa Delodovici, Giorgio Bono, Umberto Manera, Rosario Vasta, Alessandro Bombaci, Federico Casale, Giuseppe Fuda, Paolina Salamone, Barbara Iazzolino, Laura Peotta, Paolo Cugnasco, Giovanni De Marco, Maria Claudia Torrieri, Francesca Palumbo, Salvatore Gallone, Marco Barberis, Luca Sbaiz, Salvatore Gentile, Alessandro Mauro, Letizia Mazzini, Fabiola De Marchi, Lucia Corrado, Sandra D'Alfonso, Antonio Bertolotto, Maurizio Gionco, Daniela Leotta, Enrico Odddenino, Daniele Imperiale, Roberto Cavallo, Pietro Pignatta, Marco De Mattei, Claudio Geda, Diego Maria Papurello, Graziano Gusmaroli, Cristoforo Comi, Carmelo Labate, Luigi Ruiz, Delfina Ferrandi, Eugenia Rota, Marco Aguggia, Nicoletta Di Vito, Piero Meineri, Paolo Ghiglione, Nicola Launaro, Michele Dotta, Alessia Di Sapio, Guido Giardini, Cinzia Tiloca, Silvia Peverelli, Franco Taroni, Viviana Pensato, Barbara Castellotti, Giacomo P. Comi, Roberto Del Bo, Mauro Ceroni, Stella Gagliardi, Lucia Corrado, Letizia Mazzini, Flavia Raggi, Costanza Simoncini, Annalisa Lo Gerfo, Maurizio Inghilleri, Alessandra Ferlini, Isabella L. Simone, Bruno Passarella, Vito Guerra, Stefano Zoccolella, Cecilia Nozzoli, Ciro Mundi, Maurizio Leone, Michele Zarrelli, Filippo Tamma, Francesco Valluzzi, Gianluigi Calabrese, Giovanni Boero, Augusto Rini, Bryan J. Traynor, Andrew B. Singleton, Miguel Mitne Neto, Ruben J. Cauchi, Roel A. Ophoff, Martina Wiedau-Pazos, Catherine Lomen-Hoerth, Vivianna M. van Deerlin, Julian Grosskreutz, Annekathrin Roediger, Nayana Gaur, Alexander Joerk, Tabea Barthel, Erik Theele, Benjamin Ilse, Beatrice Stubendorff, Otto W. Witte, Robert Steinbach, Christian A. Huebner, Caroline Graff, Lev Brylev, Vera Fominykh, Vera Demeshonok, Anastasia Ataulina, Boris Rogelj, Blaz Koritnik, Janez Zidar, Metka Ravnik-Glavac, Damjan Glavac, Zorica Stevic, Vivian Drory, Monica Povedano, Ian P. Blair, Matthew C. Kiernan, Beben Benyamin, Robert D. Henderson, Sarah Furlong, Susan Mathers, Pamela A. McCombe, Merrilee Needham, Shyuan T. Ngo, Garth A. Nicholson, Roger Pamphlett, Dominic B. Rowe, Frederik J. Steyn, Kelly L. Williams, Karen A. Mather, Perminder S. Sachdev, Anjali K. Henders, Leanne Wallace, Mamede de Carvalho, Susana Pinto, Susanne Petri, Markus Weber, Guy A. Rouleau, Vincenzo Silani, Charles J. Curtis, Gerome Breen, Jonathan D. Glass, Robert H. Brown, John E. Landers, Christopher E. Shaw, Peter M. Andersen, Ewout J. N. Groen, Michael A. van Es, R. Jeroen Pasterkamp, Dongsheng Fan, Fleur C. Garton, Allan F. McRae, George Davey Smith, Tom R. Gaunt, Michael A. Eberle, Jonathan Mill, Russell L. McLaughlin, Orla Hardiman, Kevin P. Kenna, Naomi R. Wray, Ellen Tsai, Heiko Runz, Lude Franke, Ammar Al-Chalabi, Philip Van Damme, Leonard H. van den Berg, Jan H. Veldink
Article
Neurosciences
Sai Zhang, Johnathan Cooper-Knock, Annika K. Weimer, Minyi Shi, Tobias Moll, Jack N. G. Marshall, Calum Harvey, Helia Ghahremani Nezhad, John Franklin, Cleide dos Santos Souza, Ke Ning, Cheng Wang, Jingjing Li, Allison A. Dilliott, Sali Farhan, Eran Elhaik, Iris Pasniceanu, Matthew R. Livesey, Chen Eitan, Eran Hornstein, Kevin P. Kenna, Jan H. Veldink, Laura Ferraiuolo, Pamela J. Shaw, Michael P. Snyder
Summary: This study developed a machine learning approach called RefMap that successfully identified 690 ALS-associated genes by integrating functional genomics with GWAS summary statistics, resulting in a 5-fold increase in recovered heritability. The study also discovered KANK1 as a new ALS gene and confirmed its role through experiments on human neurons.
Article
Cell Biology
Paul J. Hop, Ramona A. J. Zwamborn, Eilis Hannon, Gemma L. Shireby, Marta F. Nabais, Emma M. Walker, Wouter van Rheenen, Joke J. F. A. van Vugt, Annelot M. Dekker, Henk-Jan Westeneng, Gijs H. P. Tazelaar, Kristel R. van Eijk, Matthieu Moisse, Denis Baird, Ahmad Al Khleifat, Alfredo Iacoangeli, Nicola Ticozzi, Antonia Ratti, Jonathan Cooper-Knock, Karen E. Morrison, Pamela J. Shaw, A. Nazli Basak, Adriano Chio, Andrea Calvo, Cristina Moglia, Antonio Canosa, Maura Brunetti, Maurizio Grassano, Marc Gotkine, Yossef Lerner, Michal Zabari, Patrick Vourc'h, Philippe Corcia, Philippe Couratier, Jesus S. Mora Pardina, Teresa Salas, Patrick Dion, Jay P. Ross, Robert D. Henderson, Susan Mathers, Pamela A. McCombe, Merrilee Needham, Garth Nicholson, Dominic B. Rowe, Roger Pamphlett, Karen A. Mather, Perminder S. Sachdev, Sarah Furlong, Fleur C. Garton, Anjali K. Henders, Tian Lin, Shyuan T. Ngo, Frederik J. Steyn, Leanne Wallace, Kelly L. Williams, Miguel Mitne Neto, Ruben J. Cauchi, Ian P. Blair, Matthew C. Kiernan, Vivian Drory, Monica Povedano, Mamede de Carvalho, Susana Pinto, Markus Weber, Guy A. Rouleau, Vincenzo Silani, John E. Landers, Christopher E. Shaw, Peter M. Andersen, Allan F. McRae, Michael A. van Es, R. Jeroen Pasterkamp, Naomi R. Wray, Russell L. McLaughlin, Orla Hardiman, Kevin P. Kenna, Ellen Tsai, Heiko Runz, Ammar Al-Chalabi, Leonard H. van den Berg, Philip Van Damme, Jonathan Mill, Jan H. Veldink
Summary: This study conducted a blood-based epigenome-wide association study meta-analysis and identified differentially methylated positions (DMPs) and genes associated with ALS. The study also found independent associations between ALS and high-density lipoprotein cholesterol, body mass index, white blood cell proportions, and alcohol intake, with cholesterol biosynthesis potentially causally related to ALS. Additionally, DNA methylation at several DMPs and blood cell proportion estimates were associated with survival rate in patients.
SCIENCE TRANSLATIONAL MEDICINE
(2022)
Article
Genetics & Heredity
Ahmad Al Khleifat, Alfredo Iacoangeli, Joke J. F. A. van Vugt, Harry Bowles, Matthieu Moisse, Ramona A. J. Zwamborn, Rick A. A. van der Spek, Aleksey Shatunov, Johnathan Cooper-Knock, Simon Topp, Ross Byrne, Cinzia Gellera, Victoria Lopez, Ashley R. Jones, Sarah Opie-Martin, Atay Vural, Yolanda Campos, Wouter van Rheenen, Brendan Kenna, Kristel R. Van Eijk, Kevin Kenna, Markus Weber, Bradley Smith, Isabella Fogh, Vincenzo Silani, Karen E. Morrison, Richard Dobson, Michael A. van Es, Russell L. McLaughlin, Patrick Vourc'h, Adriano Chio, Philippe Corcia, Mamede de Carvalho, Marc Gotkine, Monica P. Panades, Jesus S. Mora, Pamela J. Shaw, John E. Landers, Jonathan D. Glass, Christopher E. Shaw, Nazli Basak, Orla Hardiman, Wim Robberecht, Philip Van Damme, Leonard H. van den Berg, Jan H. Veldink, Ammar Al-Chalabi
Summary: There is a strong genetic contribution to the risk of Amyotrophic lateral sclerosis (ALS), with heritability estimates of up to 60%. Variants in ALS genes, including repeat expansion in C9orf72, inversion in VCP, and insertion in ERBB4, have been identified as associated with ALS risk and specific disease phenotypes.
NPJ GENOMIC MEDICINE
(2022)
Article
Clinical Neurology
Jonathan D. Glass, Ramita Dewan, Jinhui Ding, J. Raphael Gibbs, Clifton Dalgard, Pamela J. Keagle, Shankaracharya, Alberto Garcia-Redondo, Bryan J. Traynor, Ruth Chia, John E. Landers
Summary: Intermediate CAG (polyQ) expansions in the ATXN2 gene are associated with amyotrophic lateral sclerosis (ALS). Expansions of >= 31 repeats increase the risk for ALS and even greater risk for ALS with frontotemporal dementia (FTD).
Article
Clinical Neurology
Letizia Straniero, Valeria Rimoldi, Edoardo Monfrini, Salvatore Bonvegna, Giada Melistaccio, Julie Lake, Giulia Solda, Massimo Aureli, Shankaracharya, Pamela Keagle, Tatiana Foroud, John E. Landers, Cornelis Blauwendraat, Anna Zecchinelli, Roberto Cilia, Alessio Di Fonzo, Gianni Pezzoli, Stefano Duga, Rosanna Asselta
Summary: The study evaluated the contribution of rare variants in genes responsible for lysosomal storage disorders (LSDs) to the risk of Parkinson's disease (PD) associated with the GBA gene. It found a significantly increased burden of deleterious variants in LSD genes in PD patients and identified the second variation in GBA and variants in genes causing mucopolysaccharidoses as the strongest modifiers of GBA penetrance.
MOVEMENT DISORDERS
(2022)
Article
Cell Biology
Desiree M. Baron, Adam R. Fenton, Sara Saez-Atienzar, Anthony Giampetruzzi, Aparna Sreeram, Shankaracharya, Pamela J. Keagle, Victoria R. Doocy, Nathan J. Smith, Eric W. Danielson, Megan Andresano, Mary C. McCormack, Jaqueline Garcia, Valerie Bercier, Ludo Van den Bosch, Jonathan R. Brent, Claudia Fallini, Bryan J. Traynor, Erika L. F. Holzbaur, John E. Landers
Summary: Understanding the pathogenic mechanisms of disease mutations is crucial for advancing treatments. This study found that ALS-associated mutations in the gene encoding microtubule motor KIF5A result in the production of a protein with an abnormal C-terminal sequence, leading to motor activity dysregulation and decreased neuronal survival. These findings shed light on the disruptive effects of pathogenic mutations on intracellular trafficking and neuronal homeostasis.
Article
Cell & Tissue Engineering
Dina Simkin, Vasileios Papakis, Bernabe Bustos, Christina M. Ambrosi, Steven J. Ryan, Valeriya Baru, Luis A. Williams, Graham T. Dempsey, Owen B. McManus, John E. Landers, Steven J. Lubbe, Alfred L. George, Evangelos Kiskinis
Summary: Editing iPSC cells using CRISPR/Cas9 may result in on-target genomic defects, but there is currently a lack of effective quality control methods. This study describes a cost-efficient strategy that successfully identifies edited clones with detrimental on-target events.
Article
Genetics & Heredity
Kelsey A. A. Herrmann, Yizhou Liu, Arnau Llobet-Rosell, Colleen N. N. McLaughlin, Lukas J. J. Neukomm, Jaeda C. C. Coutinho-Budd, Heather T. T. Broihier
Summary: This study reveals divergent signaling requirements for dSARM in glial phagocytosis and axon degeneration. The results demonstrate that the NAD(+) hydrolase activity of dSARM is essential for both functions, while SAM domain-mediated multimerization is only important for axon degeneration. In addition, dSARM functions in a genetic pathway with MAP3K Ask1 during development.
Article
Clinical Neurology
Puja R. Mehta, Alfredo Iacoangeli, Sarah Opie-Martin, Joke J. F. A. van Vugt, Ahmad Al Khleifat, Andrea Bredin, Lynn Ossher, Peter M. Andersen, Orla Hardiman, Arpan R. Mehta, Pietro Fratta, Kevin Talbot, Ammar Al-Chalabi
Summary: ALS is a heterogeneous neurodegenerative syndrome with a family history observed in up to 20% of cases. Although genetic testing is often limited to those with familial history or young age of onset, it is important to identify all treatable individuals, regardless of age or family history. Restricting genetic testing based on age or family history results in a significant number of missed clinically actionable test results in ALS.
Article
Developmental Biology
Megan M. Corty, Alexandria L. Hulegaard, Jo Q. Hill, Amy E. Sheehan, Sue A. Aicher, Marc R. Freeman
Summary: This study uses Drosophila wrapping glia to investigate the development and function of non-myelinating axon ensheathment. The selective ablation of these glia severely impairs larval locomotor behavior. Through an RNA interference screen, the conserved receptor tyrosine kinase Discoidin domain receptor (Ddr) is identified as a key regulator in axon ensheathment. Loss of Ddr results in reduced ensheathment of axons and decreased axon caliber, suggesting that Ddr functions as a collagen receptor to drive axon wrapping. In adult nerves, loss of Ddr decreases long-term survival of sensory neurons and significantly reduces axon caliber without overtly affecting ensheathment.
Article
Multidisciplinary Sciences
Sarah Opie-Martin, Alfredo Iacoangeli, Simon D. Topp, Olubunmi Abel, Keith Mayl, Puja R. Mehta, Aleksey Shatunov, Isabella Fogh, Harry Bowles, Naomi Limbachiya, Thomas P. Spargo, Ahmad Al-Khleifat, Kelly L. Williams, Jennifer Jockel-Balsarotti, Taha Bali, Wade Self, Lyndal Henden, Garth A. Nicholson, Nicola Ticozzi, Diane McKenna-Yasek, Lu Tang, Pamela J. Shaw, Adriano Chio, Albert Ludolph, Jochen H. Weishaupt, John E. Landers, Jonathan D. Glass, Jesus S. Mora, Wim Robberecht, Philip Van Damme, Russell McLaughlin, Orla Hardiman, Leonard van den Berg, Jan H. Veldink, Phillippe Corcia, Zorica Stevic, Nailah Siddique, Vincenzo Silani, Ian P. Blair, Dong-sheng Fan, Florence Esselin, Elisa de la Cruz, William Camu, Nazli A. Basak, Teepu Siddique, Timothy Miller, Robert H. Brown, Ammar Al-Chalabi, Christopher E. Shaw
Summary: Superoxide dismutase (SOD1) gene variants can cause amyotrophic lateral sclerosis (ALS) and are associated with distinctive phenotypes and survival trajectories.
NATURE COMMUNICATIONS
(2022)
Article
Biology
Arnau Llobet Rosell, Maria Paglione, Jonathan Gilley, Magdalena Kocia, Giulia Perillo, Massimiliano Gasparrini, Lucia Cialabrini, Nadia Raffaelli, Carlo Angeletti, Giuseppe Orsomando, Pei-Hsuan Wu, Michael P. Coleman, Andrea Loreto, Lukas Jakob Neukomm
Summary: This study demonstrates the critical role of NMN in neurodegeneration in flies, beyond axonal injury, by successfully preserving severed axons through lowering NMN levels.
Article
Multidisciplinary Sciences
Aron Szabo, Virag Vincze, Aishwarya Sanjay Chhatre, Andras Jipa, Sarolta Bognar, Katalin Eszter Varga, Poulami Banik, Adel Harmatos-Urmosi, Lukas J. Neukomm, Gabor Juhasz
Summary: Glial engulfment of neuron-derived debris after trauma, during development, and in neurodegenerative diseases supports nervous system functions. However, mechanisms governing the efficiency of debris degradation in glia have remained largely unexplored. Our study shows that LC3-associated phagocytosis (LAP), an engulfment pathway assisted by certain autophagy factors, promotes glial phagosome maturation and the clearance of neuronal debris, contributing to the recovery of the injured nervous system.
NATURE COMMUNICATIONS
(2023)
Article
Developmental Biology
Clarisse Perron, Pascal Carme, Arnau Llobet Rosell, Eva Minnaert, Salome Ruiz-Demoulin, Heloise Szczkowski, Lukas Jakob Neukomm, Jean-Maurice Dura, Ana Boulanger
Summary: During animal development, neuronal circuits go through a period of refinement, which involves the removal of debris produced by neurons. Glial cells, particularly astrocytes, play a crucial role in phagocytosis and clearing this neuronal debris. Orion, a chemokine-like factor secreted by mushroom body neurons, is involved in the activation and transformation of astrocytes into phagocytes, as well as triggering glial infiltration, engulfment, and phagocytosis.
