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1. An ANXA11 P93S variant dysregulates TDP‐43 and causes corticobasal syndrome

Author

Snyder, Allison, Ryan, Veronica H, Hawrot, James, Lawton, Sydney, Ramos, Daniel M, Qi, Y Andy, Johnson, Kory R, Reed, Xylena, Johnson, Nicholas L, Kollasch, Aaron W, Duffy, Megan F, VandeVrede, Lawren, Cochran, J Nicholas, Miller, Bruce L, Toro, Camilo, Bielekova, Bibiana, Marks, Debora S, Yokoyama, Jennifer S, Kwan, Justin Y, Cookson, Mark R, and Ward, Michael E

Subjects
Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Brain Disorders, Genetics, Rare Diseases, Neurodegenerative, 2.1 Biological and endogenous factors, Neurological, Humans, DNA-Binding Proteins, Annexins, Male, Mutation, Female, Amyotrophic Lateral Sclerosis, Neurons, Frontotemporal Dementia, Middle Aged, Aged, ANXA11, corticobasal syndrome, TDP-43, variant of uncertain significance, TDP‐43, Geriatrics, Clinical sciences, Biological psychology
Abstract

IntroductionVariants of uncertain significance (VUS) surged with affordable genetic testing, posing challenges for determining pathogenicity. We examine the pathogenicity of a novel VUS P93S in Annexin A11 (ANXA11) - an amyotrophic lateral sclerosis/frontotemporal dementia-associated gene - in a corticobasal syndrome kindred. Established ANXA11 mutations cause ANXA11 aggregation, altered lysosomal-RNA granule co-trafficking, and transactive response DNA binding protein of 43 kDa (TDP-43) mis-localization.MethodsWe described the clinical presentation and explored the phenotypic diversity of ANXA11 variants. P93S's effect on ANXA11 function and TDP-43 biology was characterized in induced pluripotent stem cell-derived neurons alongside multiomic neuronal and microglial profiling.ResultsANXA11 mutations were linked to corticobasal syndrome cases. P93S led to decreased lysosome colocalization, neuritic RNA, and nuclear TDP-43 with cryptic exon expression. Multiomic microglial signatures implicated immune dysregulation and interferon signaling pathways.DiscussionThis study establishes ANXA11 P93S pathogenicity, broadens the phenotypic spectrum of ANXA11 mutations, underscores neuronal and microglial dysfunction in ANXA11 pathophysiology, and demonstrates the potential of cellular models to determine variant pathogenicity.HighlightsANXA11 P93S is a pathogenic variant. Corticobasal syndrome is part of the ANXA11 phenotypic spectrum. Hybridization chain reaction fluorescence in situ hybridization (HCR FISH) is a new tool for the detection of cryptic exons due to TDP-43-related loss of splicing regulation. Microglial ANXA11 and related immune pathways are important drivers of disease. Cellular models are powerful tools for adjudicating variants of uncertain significance.

Published
2024

3. The Foundational Data Initiative for Parkinson Disease: Enabling efficient translation from genetic maps to mechanism

Author

Bressan, Elisangela, Reed, Xylena, Bansal, Vikas, Hutchins, Elizabeth, Cobb, Melanie M, Webb, Michelle G, Alsop, Eric, Grenn, Francis P, Illarionova, Anastasia, Savytska, Natalia, Violich, Ivo, Broeer, Stefanie, Fernandes, Noémia, Sivakumar, Ramiyapriya, Beilina, Alexandra, Billingsley, Kimberley J, Berghausen, Joos, Pantazis, Caroline B, Pitz, Vanessa, Patel, Dhairya, Daida, Kensuke, Meechoovet, Bessie, Reiman, Rebecca, Courtright-Lim, Amanda, Logemann, Amber, Antone, Jerry, Barch, Mariya, Kitchen, Robert, Li, Yan, Dalgard, Clifton L, Center, The American Genome, Rizzu, Patrizia, Hernandez, Dena G, Hjelm, Brooke E, Nalls, Mike, Gibbs, J Raphael, Finkbeiner, Steven, Cookson, Mark R, Van Keuren-Jensen, Kendall, Craig, David W, Singleton, Andrew B, Heutink, Peter, and Blauwendraat, Cornelis

Subjects
Biological Sciences, Genetics, Stem Cell Research - Induced Pluripotent Stem Cell - Human, Stem Cell Research - Induced Pluripotent Stem Cell, Neurosciences, Stem Cell Research, Aging, Parkinson's Disease, Neurodegenerative, Brain Disorders, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Neurological, American Genome Center, Parkinson disease, dopaminergic neurons, genetic risk, induced pluripotent stem cell, omics single-cell RNA sequencing single-cell ATAC sequencing SNCA LRRK2 GBA1
Abstract

The Foundational Data Initiative for Parkinson Disease (FOUNDIN-PD) is an international collaboration producing fundamental resources for Parkinson disease (PD). FOUNDIN-PD generated a multi-layered molecular dataset in a cohort of induced pluripotent stem cell (iPSC) lines differentiated to dopaminergic (DA) neurons, a major affected cell type in PD. The lines were derived from the Parkinson's Progression Markers Initiative study, which included participants with PD carrying monogenic PD variants, variants with intermediate effects, and variants identified by genome-wide association studies and unaffected individuals. We generated genetic, epigenetic, regulatory, transcriptomic, and longitudinal cellular imaging data from iPSC-derived DA neurons to understand molecular relationships between disease-associated genetic variation and proximate molecular events. These data reveal that iPSC-derived DA neurons provide a valuable cellular context and foundational atlas for modeling PD genetic risk. We have integrated these data into a FOUNDIN-PD data browser as a resource for understanding the molecular pathogenesis of PD.

Published
2023

5. Transcriptional signatures in iPSC-derived neurons are reproducible across labs when differentiation protocols are closely matched

Author

Reed, Xylena, Cobb, Melanie M, Skinbinski, Gaia, Roosen, Dorien, Kaganovich, Alice, Ding, Jinhui, Finkbeiner, Steve, and Cookson, Mark R

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Genetics, Stem Cell Research, Stem Cell Research - Induced Pluripotent Stem Cell, Stem Cell Research - Induced Pluripotent Stem Cell - Human, Neurosciences, Cell Differentiation, Gene Expression, Induced Pluripotent Stem Cells, Neurons, Reproducibility of Results, Biological Sciences, Medical and Health Sciences, Developmental Biology, Medical biotechnology, Oncology and carcinogenesis
Abstract

Reproducibility of expression patterns in iPSC-derived cells from different labs is an important first step in ensuring replication of biochemical or functional assays that are performed in different labs. Here we show that reproducible gene expression patterns from iPSCs and iPSC-derived neurons matured and collected at two separate laboratory locations can be achieved by closely matching protocols and reagents. While there are significant differences in gene expression between iPSCs and differentiated neurons, as well as between different donor lines of the same cell type, transcriptional changes that vary with laboratory sites are relatively small. These results suggest that making great efforts to match protocols, reagents and technical methods between labs may improve the reproducibility of iPSC-derived cell models.

Published
2021

8. Identification of novel risk loci, causal insights, and heritable risk for Parkinson's disease: a meta-analysis of genome-wide association studies

Author

Nalls, Mike A, Blauwendraat, Cornelis, Vallerga, Costanza L, Heilbron, Karl, Bandres-Ciga, Sara, Chang, Diana, Tan, Manuela, Kia, Demis A, Noyce, Alastair J, Xue, Angli, Bras, Jose, Young, Emily, von Coelln, Rainer, Simón-Sánchez, Javier, Schulte, Claudia, Sharma, Manu, Krohn, Lynne, Pihlstrøm, Lasse, Siitonen, Ari, Iwaki, Hirotaka, Leonard, Hampton, Faghri, Faraz, Gibbs, J Raphael, Hernandez, Dena G, Scholz, Sonja W, Botia, Juan A, Martinez, Maria, Corvol, Jean-Christophe, Lesage, Suzanne, Jankovic, Joseph, Shulman, Lisa M, Sutherland, Margaret, Tienari, Pentti, Majamaa, Kari, Toft, Mathias, Andreassen, Ole A, Bangale, Tushar, Brice, Alexis, Yang, Jian, Gan-Or, Ziv, Gasser, Thomas, Heutink, Peter, Shulman, Joshua M, Wood, Nicholas W, Hinds, David A, Hardy, John A, Morris, Huw R, Gratten, Jacob, Visscher, Peter M, Graham, Robert R, Singleton, Andrew B, Team, 23andMe Research, Consortium, System Genomics of Parkinson's Disease, Consortium, International Parkinson's Disease Genomics, Adarmes-Gómez, Astrid D, Aguilar, Miquel, Aitkulova, Akbota, Akhmetzhanov, Vadim, Alcalay, Roy N, Alvarez, Ignacio, Alvarez, Victoria, Barrero, Francisco Javier, Yarza, Jesús Alberto Bergareche, Bernal-Bernal, Inmaculada, Billingsley, Kimberley, Blazquez, Marta, Bonilla-Toribio, Marta, Botía, Juan A, Boungiorno, María Teresa, Brockmann, Kathrin, Bubb, Vivien, Buiza-Rueda, Dolores, Cámara, Ana, Carrillo, Fátima, Carrión-Claro, Mario, Cerdan, Debora, Chelban, Viorica, Clarimón, Jordi, Clarke, Carl, Compta, Yaroslau, Cookson, Mark R, Craig, David W, Danjou, Fabrice, Diez-Fairen, Monica, Dols-Icardo, Oriol, Duarte, Jacinto, Duran, Raquel, Escamilla-Sevilla, Francisco, Escott-Price, Valentina, Ezquerra, Mario, Feliz, Cici, Fernández, Manel, Fernández-Santiago, Rubén, and Finkbeiner, Steven

Subjects
Neurosciences, Parkinson's Disease, Brain Disorders, Aging, Biotechnology, Prevention, Genetics, Human Genome, Neurodegenerative, 2.1 Biological and endogenous factors, Aetiology, Neurological, Databases, Genetic, Genetic Loci, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Parkinson Disease, Risk Factors, 23andMe Research Team, System Genomics of Parkinson's Disease Consortium, International Parkinson's Disease Genomics Consortium, Clinical Sciences, Neurology & Neurosurgery
Abstract

BackgroundGenome-wide association studies (GWAS) in Parkinson's disease have increased the scope of biological knowledge about the disease over the past decade. We aimed to use the largest aggregate of GWAS data to identify novel risk loci and gain further insight into the causes of Parkinson's disease.MethodsWe did a meta-analysis of 17 datasets from Parkinson's disease GWAS available from European ancestry samples to nominate novel loci for disease risk. These datasets incorporated all available data. We then used these data to estimate heritable risk and develop predictive models of this heritability. We also used large gene expression and methylation resources to examine possible functional consequences as well as tissue, cell type, and biological pathway enrichments for the identified risk factors. Additionally, we examined shared genetic risk between Parkinson's disease and other phenotypes of interest via genetic correlations followed by Mendelian randomisation.FindingsBetween Oct 1, 2017, and Aug 9, 2018, we analysed 7·8 million single nucleotide polymorphisms in 37 688 cases, 18 618 UK Biobank proxy-cases (ie, individuals who do not have Parkinson's disease but have a first degree relative that does), and 1·4 million controls. We identified 90 independent genome-wide significant risk signals across 78 genomic regions, including 38 novel independent risk signals in 37 loci. These 90 variants explained 16-36% of the heritable risk of Parkinson's disease depending on prevalence. Integrating methylation and expression data within a Mendelian randomisation framework identified putatively associated genes at 70 risk signals underlying GWAS loci for follow-up functional studies. Tissue-specific expression enrichment analyses suggested Parkinson's disease loci were heavily brain-enriched, with specific neuronal cell types being implicated from single cell data. We found significant genetic correlations with brain volumes (false discovery rate-adjusted p=0·0035 for intracranial volume, p=0·024 for putamen volume), smoking status (p=0·024), and educational attainment (p=0·038). Mendelian randomisation between cognitive performance and Parkinson's disease risk showed a robust association (p=8·00 × 10-7).InterpretationThese data provide the most comprehensive survey of genetic risk within Parkinson's disease to date, to the best of our knowledge, by revealing many additional Parkinson's disease risk loci, providing a biological context for these risk factors, and showing that a considerable genetic component of this disease remains unidentified. These associations derived from European ancestry datasets will need to be followed-up with more diverse data.FundingThe National Institute on Aging at the National Institutes of Health (USA), The Michael J Fox Foundation, and The Parkinson's Foundation (see appendix for full list of funding sources).

Published
2019

9. The endocytic membrane trafficking pathway plays a major role in the risk of Parkinson's disease

Author

Bandres‐Ciga, Sara, Saez‐Atienzar, Sara, Bonet‐Ponce, Luis, Billingsley, Kimberley, Vitale, Dan, Blauwendraat, Cornelis, Gibbs, Jesse Raphael, Pihlstrøm, Lasse, Gan‐Or, Ziv, Noyce, Alastair J, Kaiyrzhanov, Rauan, Middlehurst, Ben, Kia, Demis A, Tan, Manuela, Houlden, Henry, Morris, Huw R, Plun‐Favreau, Helene, Holmans, Peter, Hardy, John, Trabzuni, Daniah, Bras, Jose, Quinn, John, Mok, Kin Y, Kinghorn, Kerri J, Wood, Nicholas W, Lewis, Patrick, Schreglmann, Sebastian, Guerreiro, Rita, Lovering, Ruth, RņBibo, Lea, Manzoni, Claudia, Rizig, Mie, Ryten, Mina, Guelfi, Sebastian, Escott‐Price, Valentina, Chelban, Viorica, Foltynie, Thomas, Williams, Nigel, Morrison, Karen E, Brice, Alexis, Danjou, Fabrice, Lesage, Suzanne, Corvol, Jean‐Christophe, Martinez, Maria, Schulte, Claudia, Brockmann, Kathrin, SimɃn‐Sȥnchez, Javier, Heutink, Peter, Rizzu, Patrizia, Sharma, Manu, Gasser, Thomas, Nicolas, Aude, Cookson, Mark R, Craig, David W, Faghri, Faraz, Gibbs, J Raphael, Hernandez, Dena G, Van Keuren‐Jensen, Kendall, Shulman, Joshua M, Iwaki, Hirotaka, Leonard, Hampton L, Nalls, Mike A, Robak, Laurie, Lubbe, Steven, Finkbeiner, Steven, Mencacci, Niccolo E, Lungu, Codrin, Singleton, Andrew B, Scholz, Sonja W, Reed, Xylena, Alcalay, Roy N, Rouleau, Guy A, Hilten, Jacobus J, Marinus, Johan, Adarmes‐GɃmez, Astrid D, Aguilar, Miquel, Alvarez, Ignacio, Alvarez, Victoria, Barrero, Francisco Javier, Yarza, Jesɐs Alberto Bergareche, Bernal‐Bernal, Inmaculada, Blazquez, Marta, Bonilla‐Toribio, Marta, Botȷa, Juan A, Boungiorno, Marȷa Teresa, Buiza‐Rueda, Dolores, Cȥmara, Ana, Carrillo, Fȥtima, CarriɃn‐Claro, Mario, Cerdan, Debora, ClarimɃn, Jordi, Compta, Yaroslau, Casa, Beatrȷz, Diez‐Fairen, Monica, Dols‐Icardo, Oriol, and Duarte, Jacinto

Subjects
Parkinson's Disease, Human Genome, Genetics, Neurosciences, Brain Disorders, Prevention, Neurodegenerative, Genetic Testing, 2.3 Psychological, social and economic factors, 2.1 Biological and endogenous factors, Aetiology, Decent Work and Economic Growth, Endocytosis, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Mendelian Randomization Analysis, Parkinson Disease, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Risk Factors, International Parkinson's Disease Genomics Consortium, Parkinson's disease, endocytosis, genetic risk, heritability, polygenic risk score, Clinical Sciences, Human Movement and Sports Sciences, Neurology & Neurosurgery
Abstract

BackgroundPD is a complex polygenic disorder. In recent years, several genes from the endocytic membrane-trafficking pathway have been suggested to contribute to disease etiology. However, a systematic analysis of pathway-specific genetic risk factors is yet to be performed.ObjectivesTo comprehensively study the role of the endocytic membrane-trafficking pathway in the risk of PD.MethodsLinkage disequilibrium score regression was used to estimate PD heritability explained by 252 genes involved in the endocytic membrane-trafficking pathway including genome-wide association studies data from 18,869 cases and 22,452 controls. We used pathway-specific single-nucleotide polymorphisms to construct a polygenic risk score reflecting the cumulative risk of common variants. To prioritize genes for follow-up functional studies, summary-data based Mendelian randomization analyses were applied to explore possible functional genomic associations with expression or methylation quantitative trait loci.ResultsThe heritability estimate attributed to endocytic membrane-trafficking pathway was 3.58% (standard error = 1.17). Excluding previously nominated PD endocytic membrane-trafficking pathway genes, the missing heritability was 2.21% (standard error = 0.42). Random heritability simulations were estimated to be 1.44% (standard deviation = 0.54), indicating that the unbiased total heritability explained by the endocytic membrane-trafficking pathway was 2.14%. Polygenic risk score based on endocytic membrane-trafficking pathway showed a 1.25 times increase of PD risk per standard deviation of genetic risk. Finally, Mendelian randomization identified 11 endocytic membrane-trafficking pathway genes showing functional consequence associated to PD risk.ConclusionsWe provide compelling genetic evidence that the endocytic membrane-trafficking pathway plays a relevant role in disease etiology. Further research on this pathway is warranted given that critical effort should be made to identify potential avenues within this biological process suitable for therapeutic interventions. © 2019 International Parkinson and Movement Disorder Society.

Published
2019

11. LRRK2 kinase activity regulates GCase level and enzymatic activity differently depending on cell type in Parkinson’s disease

Author

Kedariti, Maria, Frattini, Emanuele, Baden, Pascale, Cogo, Susanna, Civiero, Laura, Ziviani, Elena, Zilio, Gianluca, Bertoli, Federico, Aureli, Massimo, Kaganovich, Alice, Cookson, Mark R., Stefanis, Leonidas, Surface, Matthew, Deleidi, Michela, Di Fonzo, Alessio, Alcalay, Roy N., Rideout, Hardy, Greggio, Elisa, and Plotegher, Nicoletta

Published
2022
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12. How Parkinson's Disease-Linked LRRK2 Mutations Affect Different CNS Cell Types.

Author

Bailey, Hannah M. and Cookson, Mark R.

Subjects
*DARDARIN, *PROTEIN genetics, *PARKINSON'S disease, *CELL communication, *CYTOLOGY
Abstract

LRRK2 is a relatively common genetic risk factor for Parkinson's disease (PD), with six coding variants known to cause familial PD. Non-coding variation at the same locus is also associated with sporadic PD. LRRK2 plays a role in many different intracellular signaling cascades including those involved in endolysosomal function, cytoskeletal dynamics, and Ca2+ homeostasis. PD-causing LRRK2 mutations cause hyperactive LRRK2 kinase activity, resulting in altered cellular signaling. Importantly, LRRK2 is lowly expressed in neurons and prominently expressed in non-neuronal cells in the brain. In this review, we will summarize recent and novel findings on the effects of PD-causing LRRK2 mutations in different nervous system cell types. This review will also provide novel insight into future areas of research at the intersection of LRRK2 cell biology, cell type specificity, and PD. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Genetic determinants of survival in progressive supranuclear palsy: a genome-wide association study

Author

Mok, Kin Y., Murphy, David P., Al-Sarraj, Safa, Troakes, Claire, Gentleman, Steve M., Allinson, Kieren S.J., Jaunmuktane, Zane, Holton, Janice L., Lees, Andrew J., Morris, Christopher M., Compta, Yaroslau, Gelpi, Ellen, van Swieten, John C., Rajput, Alex, Ferguson, Leslie, Cookson, Mark R., Gibbs, J. Raphael, Blauwendraat, Cornelis, Ding, Jinhui, Chia, Ruth, Traynor, Bryan J., Pantelyat, Alexander, Viollet, Coralie, Pletnikova, Olga, Troncoso, Juan C., Rosenthal, Liana S., Boxer, Adam L., Respondek, Gesine, Arzberger, Thomas, Roeber, Sigrun, Giese, Armin, Burn, David J., Pavese, Nicola, Gerhard, Alexander, Kobylecki, Christopher, Leigh, P. Nigel, Church, Alistair, T.M. Hu, Michele, Jabbari, Edwin, Koga, Shunsuke, Valentino, Rebecca R, Reynolds, Regina H, Ferrari, Raffaele, Tan, Manuela M X, Rowe, James B, Dalgard, Clifton L, Scholz, Sonja W, Dickson, Dennis W, Warner, Thomas T, Revesz, Tamas, Höglinger, Günter U, Ross, Owen A, Ryten, Mina, Hardy, John, Shoai, Maryam, and Morris, Huw R

Published
2021
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16. Mechanisms of lysosomal tubulation and sorting driven by LRRK2.

Author

Bonet-Ponce, Luis, Kluss, Jillian H., and Cookson, Mark R.

Subjects
DARDARIN, PARKINSON'S disease, GAIN-of-function mutations, CELL anatomy, GENETIC variation, LYSOSOMES
Abstract

Lysosomes are dynamic cellular structures that adaptively remodel their membrane in response to stimuli, including membrane damage. Lysosomal dysfunction plays a central role in the pathobiology of Parkinson's disease (PD). Gain-of-function mutations in Leucine-rich repeat kinase 2 (LRRK2) cause familial PD and genetic variations in its locus increase the risk of developing the sporadic form of the disease. We previously uncovered a process we term LYTL (LYsosomal Tubulation/sorting driven by LRRK2), wherein membrane-damaged lysosomes generate tubules sorted into mobile vesicles. Subsequently, these vesicles interact with healthy lysosomes. LYTL is orchestrated by LRRK2 kinase activity, via the recruitment and phosphorylation of a subset of RAB GTPases. Here, we summarize the current understanding of LYTL and its regulation, as well as the unknown aspects of this process. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Twelve Years of Drug Prioritization to Help Accelerate Disease Modification Trials in Parkinson's Disease: The International Linked Clinical Trials Initiative.

Author

Wyse, Richard K., Isaacs, Tom, Barker, Roger A., Cookson, Mark R., Dawson, Ted M., Devos, David, Dexter, David T., Duffen, Joy, Federoff, Howard, Fiske, Brian, Foltynie, Thomas, Fox, Susan, Greenamyre, J. Timothy, Kieburtz, Karl, Kordower, Jeffrey H., Krainc, Dimitri, Matthews, Helen, Moore, Darren J., Mursaleen, Leah, and Schwarzschild, Michael A.

Subjects
PARKINSON'S disease, CLINICAL trials, MEDICAL charities, MOVEMENT disorders, MEDICAL research
Abstract

In 2011, the UK medical research charity Cure Parkinson's set up the international Linked Clinical Trials (iLCT) committee to help expedite the clinical testing of potentially disease modifying therapies for Parkinson's disease (PD). The first committee meeting was held at the Van Andel Institute in Grand Rapids, Michigan in 2012. This group of PD experts has subsequently met annually to assess and prioritize agents that may slow the progression of this neurodegenerative condition, using a systematic approach based on preclinical, epidemiological and, where possible, clinical data. Over the last 12 years, 171 unique agents have been evaluated by the iLCT committee, and there have been 21 completed clinical studies and 20 ongoing trials associated with the initiative. In this review, we briefly outline the iLCT process as well as the clinical development and outcomes of some of the top prioritized agents. We also discuss a few of the lessons that have been learnt, and we conclude with a perspective on what the next decade may bring, including the introduction of multi-arm, multi-stage clinical trial platforms and the possibility of combination therapies for PD. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Caspase-1 causes truncation and aggregation of the Parkinson’s disease-associated protein α-synuclein

Author

Wang, Wei, Nguyen, Linh TT, Burlak, Christopher, Chegini, Fariba, Guo, Feng, Chataway, Tim, Ju, Shulin, Fisher, Oriana S, Miller, David W, Datta, Debajyoti, Wu, Fang, Wu, Chun-Xiang, Landeru, Anuradha, Wells, James A, Cookson, Mark R, Boxer, Matthew B, Thomas, Craig J, Gai, Wei Ping, Ringe, Dagmar, Petsko, Gregory A, and Hoang, Quyen Q

Subjects
Aging, Neurodegenerative, Brain Disorders, Parkinson's Disease, Acquired Cognitive Impairment, Dementia, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Neurological, Alum Compounds, Caspase 1, Cell Line, Tumor, Cell Survival, Dipeptides, Gene Expression Regulation, Humans, Inflammasomes, Interleukin-1beta, Lewy Bodies, Lipopolysaccharides, Neurons, Nigericin, Protein Aggregates, RNA, Small Interfering, Signal Transduction, Vitamin K 3, alpha-Synuclein, para-Aminobenzoates, synuclein, Parkinson's disease, caspase, inflammasome, aggregation
Abstract

The aggregation of α-synuclein (aSyn) leading to the formation of Lewy bodies is the defining pathological hallmark of Parkinson's disease (PD). Rare familial PD-associated mutations in aSyn render it aggregation-prone; however, PD patients carrying wild type (WT) aSyn also have aggregated aSyn in Lewy bodies. The mechanisms by which WT aSyn aggregates are unclear. Here, we report that inflammation can play a role in causing the aggregation of WT aSyn. We show that activation of the inflammasome with known stimuli results in the aggregation of aSyn in a neuronal cell model of PD. The insoluble aggregates are enriched with truncated aSyn as found in Lewy bodies of the PD brain. Inhibition of the inflammasome enzyme caspase-1 by chemical inhibition or genetic knockdown with shRNA abated aSyn truncation. In vitro characterization confirmed that caspase-1 directly cleaves aSyn, generating a highly aggregation-prone species. The truncation-induced aggregation of aSyn is toxic to neuronal culture, and inhibition of caspase-1 by shRNA or a specific chemical inhibitor improved the survival of a neuronal PD cell model. This study provides a molecular link for the role of inflammation in aSyn aggregation, and perhaps in the pathogenesis of sporadic PD as well.

Published
2016

19. Differential LRRK2 Signalling and Gene Expression in WT-LRRK2 and G2019S-LRRK2 Mouse Microglia Treated with Zymosan and MLi2

Author

Nazish, Iqra, primary, Mamais, Adamantios, additional, Mallach, Anna, additional, Bettencourt, Conceicao, additional, Kaganovich, Alice, additional, Warner, Thomas, additional, Hardy, John, additional, Lewis, Patrick A., additional, Pocock, Jennifer, additional, Cookson, Mark R., additional, and Bandopadhyay, Rina, additional

Published
2023
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20. ProtPipe: A Multifunctional Data Analysis Pipeline for Proteomics and Peptidomics

Author

Li, Ziyi, primary, Weller, Cory A., additional, Shah, Syed, additional, Johnson, Nicholas, additional, Hao, Ying, additional, Roberts, Jessica, additional, Bereda, Colleen, additional, Klaisner, Sydney, additional, Machado, Pedro, additional, Fratta, Pietro, additional, Petrucelli, Leonard, additional, Prudencio, Mercedes, additional, Oskarsson, Björn, additional, Staff, Nathan P., additional, Dickson, Dennis W., additional, Cookson, Mark R., additional, Ward, Michael E., additional, Singleton, Andrew B., additional, Nalls, Mike A., additional, and Qi, Yue A., additional

Published
2023
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24. Identification of novel risk loci, causal insights, and heritable risk for Parkinson's disease: a meta-analysis of genome-wide association studies

Author

Adarmes-Gómez, Astrid D, Aguilar, Miquel, Aitkulova, Akbota, Akhmetzhanov, Vadim, Alcalay, Roy N, Alvarez, Ignacio, Alvarez, Victoria, Bandres-Ciga, Sara, Barrero, Francisco Javier, Bergareche Yarza, Jesús Alberto, Bernal-Bernal, Inmaculada, Billingsley, Kimberley, Blauwendraat, Cornelis, Blazquez, Marta, Bonilla-Toribio, Marta, Botía, Juan A, Boungiorno, María Teresa, Bras, Jose, Brice, Alexis, Brockmann, Kathrin, Bubb, Vivien, Buiza-Rueda, Dolores, Cámara, Ana, Carrillo, Fátima, Carrión-Claro, Mario, Cerdan, Debora, Chelban, Viorica, Clarimón, Jordi, Clarke, Carl, Compta, Yaroslau, Cookson, Mark R, Corvol, Jean-Christophe, Craig, David W, Danjou, Fabrice, Diez-Fairen, Monica, Dols-Icardo, Oriol, Duarte, Jacinto, Duran, Raquel, Escamilla-Sevilla, Francisco, Escott-Price, Valentina, Ezquerra, Mario, Faghri, Faraz, Feliz, Cici, Fernández, Manel, Fernández-Santiago, Rubén, Finkbeiner, Steven, Foltynie, Thomas, Gan-Or, Ziv, Garcia, Ciara, García-Ruiz, Pedro, Gasser, Thomas, Gibbs, J Raphael, Gomez Heredia, Maria Jose, Gómez-Garre, Pilar, González, Manuel Menéndez, Gonzalez-Aramburu, Isabel, Guelfi, Sebastian, Guerreiro, Rita, Hardy, John, Hassin-Baer, Sharon, Hernandez, Dena G, Heutink, Peter, Hoenicka, Janet, Holmans, Peter, Houlden, Henry, Infante, Jon, Iwaki, Hirotaka, Jesús, Silvia, Jimenez-Escrig, Adriano, Kaishybayeva, Gulnaz, Kaiyrzhanov, Rauan, Karimova, Altynay, Kia, Demis A, Kinghorn, Kerri J, Koks, Sulev, Krohn, Lynne, Kulisevsky, Jaime, Labrador-Espinosa, Miguel A, Leonard, Hampton L, Lesage, Suzanne, Lewis, Patrick, Lopez-Sendon, Jose Luis, Lovering, Ruth, Lubbe, Steven, Lungu, Codrin, Macias, Daniel, Majamaa, Kari, Manzoni, Claudia, Marín, Juan, Marinus, Johan, Marti, Maria Jose, Martinez, Maria, Martínez Torres, Irene, Martínez-Castrillo, Juan Carlos, Mata, Marina, Mencacci, Niccolo E, Méndez-del-Barrio, Carlota, Middlehurst, Ben, Mínguez, Adolfo, Mir, Pablo, Mok, Kin Y, Morris, Huw R, Muñoz, Esteban, Nalls, Mike A, Narendra, Derek, Noyce, Alastair J, Ojo, Oluwadamilola O, Okubadejo, Njideka U, Pagola, Ana Gorostidi, Pastor, Pau, Perez Errazquin, Francisco, Periñán-Tocino, Teresa, Pihlstrom, Lasse, Plun-Favreau, Helene, Quinn, John, R'Bibo, Lea, Reed, Xylena, Rezola, Elisabet Mondragon, Rizig, Mie, Rizzu, Patrizia, Robak, Laurie, Rodriguez, Antonio Sanchez, Rouleau, Guy A, Ruiz-Martínez, Javier, Ruz, Clara, Ryten, Mina, Sadykova, Dinara, Scholz, Sonja W, Schreglmann, Sebastian, Schulte, Claudia, Sharma, Manu, Shashkin, Chingiz, Shulman, Joshua M, Sierra, María, Siitonen, Ari, Simón-Sánchez, Javier, Singleton, Andrew B, Suarez-Sanmartin, Esther, Taba, Pille, Tabernero, Cesar, Tan, Manuela X, Tartari, Juan Pablo, Tejera-Parrado, Cristina, Toft, Mathias, Tolosa, Eduard, Trabzuni, Daniah, Valldeoriola, Francesc, van Hilten, Jacobus J, Van Keuren-Jensen, Kendall, Vargas-González, Laura, Vela, Lydia, Vives, Francisco, Williams, Nigel, Wood, Nicholas W, Zharkinbekova, Nazira, Zharmukhanov, Zharkyn, Zholdybayeva, Elena, Zimprich, Alexander, Ylikotila, Pauli, Shulman, Lisa M., von Coelln, Rainer, Reich, Stephen, Savitt, Joseph, Agee, Michelle, Alipanahi, Babak, Auton, Adam, Bell, Robert K., Bryc, Katarzyna, Elson, Sarah L., Fontanillas, Pierre, Furlotte, Nicholas A., Huber, Karen E., Hicks, Barry, Jewett, Ethan M., Jiang, Yunxuan, Kleinman, Aaron, Lin, Keng-Han, Litterman, Nadia K., McCreight, Jennifer C., McIntyre, Matthew H., McManus, Kimberly F., Mountain, Joanna L., Noblin, Elizabeth S., Northover, Carrie A.M., Pitts, Steven J., Poznik, G. David, Sathirapongsasuti, J. Fah, Shelton, Janie F., Shringarpure, Suyash, Tian, Chao, Tung, Joyce, Vacic, Vladimir, Wang, Xin, Wilson, Catherine H., Anderson, Tim, Bentley, Steven, Dalrymple-Alford, John, Fowdar, Javed, Gratten, Jacob, Halliday, Glenda, Henders, Anjali K., Hickie, Ian, Kassam, Irfahan, Kennedy, Martin, Kwok, John, Lewis, Simon, Mellick, George, Montgomery, Grant, Pearson, John, Pitcher, Toni, Sidorenko, Julia, Silburn, Peter A., Vallerga, Costanza L., Visscher, Peter M., Wallace, Leanne, Wray, Naomi R., Xue, Angli, Yang, Jian, Zhang, Futao, Vallerga, Costanza L, Heilbron, Karl, Chang, Diana, Tan, Manuela, Young, Emily, Pihlstrøm, Lasse, Leonard, Hampton, Botia, Juan A, Jankovic, Joseph, Shulman, Lisa M, Sutherland, Margaret, Tienari, Pentti, Andreassen, Ole A, Bangale, Tushar, Hinds, David A, Hardy, John A, Visscher, Peter M, and Graham, Robert R

Published
2019
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26. Mutant LRRK2 Toxicity in Neurons Depends on LRRK2 Levels and Synuclein But Not Kinase Activity or Inclusion Bodies

Author

Skibinski, Gaia, Nakamura, Ken, Cookson, Mark R, and Finkbeiner, Steven

Subjects
Biomedical and Clinical Sciences, Neurosciences, Neurodegenerative, Parkinson's Disease, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Neurological, Blotting, Western, Enzyme Activation, HEK293 Cells, Humans, Immunohistochemistry, Inclusion Bodies, Leucine-Rich Repeat Serine-Threonine Protein Kinase-2, Models, Neurological, Mutation, Nerve Degeneration, Neurons, Parkinson Disease, Phosphotransferases, Protein Serine-Threonine Kinases, Synucleins, Transfection, LRRK2, mechanisms, Parkinson's disease, single cell, synuclein, Protein-Serine-Threonine Kinases, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery
Abstract

By combining experimental neuron models and mathematical tools, we developed a "systems" approach to deconvolve cellular mechanisms of neurodegeneration underlying the most common known cause of Parkinson's disease (PD), mutations in leucine-rich repeat kinase 2 (LRRK2). Neurons ectopically expressing mutant LRRK2 formed inclusion bodies (IBs), retracted neurites, accumulated synuclein, and died prematurely, recapitulating key features of PD. Degeneration was predicted from the levels of diffuse mutant LRRK2 that each neuron contained, but IB formation was neither necessary nor sufficient for death. Genetic or pharmacological blockade of its kinase activity destabilized LRRK2 and lowered its levels enough to account for the moderate reduction in LRRK2 toxicity that ensued. By contrast, targeting synuclein, including neurons made from PD patient-derived induced pluripotent cells, dramatically reduced LRRK2-dependent neurodegeneration and LRRK2 levels. These findings suggest that LRRK2 levels are more important than kinase activity per se in predicting toxicity and implicate synuclein as a major mediator of LRRK2-induced neurodegeneration.

Published
2014

27. An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome

Author

Snyder, Allison, primary, Ryan, Veronica H, additional, Hawrot, James, additional, Lawton, Sydney, additional, Ramos, Daniel M, additional, Qi, Y Andy, additional, Johnson, Kory, additional, Reed, Xylena, additional, Johnson, Nicholas L, additional, Kollasch, Aaron W, additional, Duffy, Megan, additional, VandeVrede, Lawren, additional, Cochran, J Nicholas, additional, Miller, Bruce L, additional, Toro, Camilo, additional, Bielekova, Bibiana, additional, Yokoyama, Jennifer S, additional, Marks, Debora S, additional, Kwan, Justin Y, additional, Cookson, Mark R, additional, and Ward, Michael E, additional

Published
2023
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28. LRRK2 negatively regulates glucose tolerance via regulation of membrane translocation of GLUT4 in adipocytes

Author

Kawakami, Fumitaka, primary, Imai, Motoki, additional, Isaka, Yuki, additional, Cookson, Mark R., additional, Maruyama, Hiroko, additional, Kubo, Makoto, additional, Farrer, Matthew J., additional, Kanzaki, Makoto, additional, Kawashima, Rei, additional, Maekawa, Tatsunori, additional, Tamaki, Shun, additional, Kurosaki, Yoshifumi, additional, Kojima, Fumiaki, additional, Ohba, Kenichi, additional, and Ichikawa, Takafumi, additional

Published
2023
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31. Gene Linkage and Systems Biology

Author

Cookson, Mark R., Schousboe, Arne, Series editor, Beart, Philip, editor, Robinson, Michael, editor, Rattray, Marcus, editor, and Maragakis, Nicholas J., editor

Published
2017
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34. Identification of common variants influencing risk of the tauopathy progressive supranuclear palsy

Author

Höglinger, Günter U, Melhem, Nadine M, Dickson, Dennis W, Sleiman, Patrick MA, Wang, Li-San, Klei, Lambertus, Rademakers, Rosa, de Silva, Rohan, Litvan, Irene, Riley, David E, van Swieten, John C, Heutink, Peter, Wszolek, Zbigniew K, Uitti, Ryan J, Vandrovcova, Jana, Hurtig, Howard I, Gross, Rachel G, Maetzler, Walter, Goldwurm, Stefano, Tolosa, Eduardo, Borroni, Barbara, Pastor, Pau, Cantwell, Laura B, Han, Mi Ryung, Dillman, Allissa, van der Brug, Marcel P, Gibbs, J Raphael, Cookson, Mark R, Hernandez, Dena G, Singleton, Andrew B, Farrer, Matthew J, Yu, Chang-En, Golbe, Lawrence I, Revesz, Tamas, Hardy, John, Lees, Andrew J, Devlin, Bernie, Hakonarson, Hakon, Müller, Ulrich, and Schellenberg, Gerard D

Subjects
Biological Sciences, Genetics, Pediatric, Prevention, Cerebral Palsy, Rare Diseases, Neurodegenerative, Brain Disorders, Acquired Cognitive Impairment, Human Genome, Perinatal Period - Conditions Originating in Perinatal Period, Frontotemporal Dementia (FTD), Dementia, Neurosciences, Aetiology, 2.1 Biological and endogenous factors, Neurological, Case-Control Studies, Chromosomes, Human, Cohort Studies, Genetic Loci, Genetic Predisposition to Disease, Genetic Variation, Genome-Wide Association Study, Humans, Polymorphism, Single Nucleotide, Prognosis, Risk Factors, Supranuclear Palsy, Progressive, Tauopathies, tau Proteins, PSP Genetics Study Group, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Progressive supranuclear palsy (PSP) is a movement disorder with prominent tau neuropathology. Brain diseases with abnormal tau deposits are called tauopathies, the most common of which is Alzheimer's disease. Environmental causes of tauopathies include repetitive head trauma associated with some sports. To identify common genetic variation contributing to risk for tauopathies, we carried out a genome-wide association study of 1,114 individuals with PSP (cases) and 3,247 controls (stage 1) followed by a second stage in which we genotyped 1,051 cases and 3,560 controls for the stage 1 SNPs that yielded P ≤ 10(-3). We found significant previously unidentified signals (P < 5 × 10(-8)) associated with PSP risk at STX6, EIF2AK3 and MOBP. We confirmed two independent variants in MAPT affecting risk for PSP, one of which influences MAPT brain expression. The genes implicated encode proteins for vesicle-membrane fusion at the Golgi-endosomal interface, for the endoplasmic reticulum unfolded protein response and for a myelin structural component.

Published
2011

37. Divergent patterns of healthy aging across human brain regions at single-cell resolution reveal links to neurodegenerative disease

Author

Duffy, Megan F., primary, Ding, Jinhui, additional, Langston, Rebekah G., additional, Shah, Syed I., additional, Nalls, Mike A., additional, Scholz, Sonja W., additional, Whitaker, D. Thad, additional, Auluck, Pavan K., additional, Marenco, Stefano, additional, Gibbs, J. Raphael, additional, and Cookson, Mark R., additional

Published
2023
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40. Differential LRRK2 Signalling and Gene Expression in WT-LRRK2 and G2019S-LRRK2 Mouse Microglia Treated with Zymosan and MLi2.

Author

Nazish, Iqra, Mamais, Adamantios, Mallach, Anna, Bettencourt, Conceicao, Kaganovich, Alice, Warner, Thomas, Hardy, John, Lewis, Patrick A., Pocock, Jennifer, Cookson, Mark R., and Bandopadhyay, Rina

Subjects
DARDARIN, GENE expression, ZYMOSAN, RECESSIVE genes, MICROGLIA, GENE expression profiling, PROGRAMMED cell death 1 receptors
Abstract

Mutations in the leucine-rich repeat kinase 2 (LRRK2) gene cause autosomal dominant Parkinson's disease (PD), with the most common causative mutation being the LRRK2 p.G2019S within the kinase domain. LRRK2 protein is highly expressed in the human brain and also in the periphery, and high expression of dominant PD genes in immune cells suggests involvement of microglia and macrophages in inflammation related to PD. LRRK2 is known to respond to extracellular signalling including TLR4, resulting in alterations in gene expression, with the response to TLR2 signalling through zymosan being less known. Here, we investigated the effects of zymosan, a TLR2 agonist and the potent and specific LRRK2 kinase inhibitor MLi-2 on gene expression in microglia from LRRK2-WT and LRRK2 p.G2019S knock-in mice by RNA-sequencing analysis. We observed both overlapping and distinct zymosan and MLi-2 mediated gene expression profiles in microglia. At least two candidate genome-wide association (GWAS) hits for PD, CathepsinB (Ctsb) and Glycoprotein-nmb (Gpnmb), were notably downregulated by zymosan treatment. Genes involved in inflammatory response and nervous system development were up and downregulated, respectively, with zymosan treatment, while MLi-2 treatment particularly exhibited upregulated genes for ion transmembrane transport regulation. Furthermore, we observed that the top twenty most significantly differentially expressed genes in LRRK2 p.G2019S microglia show enriched biological processes in iron transport and response to oxidative stress. Overall, these results suggest that microglial LRRK2 may contribute to PD pathogenesis through altered inflammatory pathways. Our findings should encourage future investigations of these putative avenues in the context of PD pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Hallmarks of neurodegenerative diseases

Author

Wilson III, David M., Cookson, Mark R., Van Den Bosch , Ludo, Zetterberg, Henrik, Holtzman, David M., DEWACHTER, Ilse, Wilson III, David M., Cookson, Mark R., Van Den Bosch , Ludo, Zetterberg, Henrik, Holtzman, David M., and DEWACHTER, Ilse

Subjects
proteostasis, Cell Death, neurodegeneration, hallmarks, Neurodegenerative Diseases, DNA and RNA defects, synaptic and neuronal network dysfunction, Protein Aggregation, Pathological, protein aggregation, cytoskeletal defects, neurodegenerative disease, inflammation, Humans, energy homeostasis, Cytoskeleton
Abstract

Decades of research have identified genetic factors and biochemical pathways involved in neurodegenera-tive diseases (NDDs). We present evidence for the following eight hallmarks of NDD: pathological protein ag-gregation, synaptic and neuronal network dysfunction, aberrant proteostasis, cytoskeletal abnormalities, altered energy homeostasis, DNA and RNA defects, inflammation, and neuronal cell death. We describe the hallmarks, their biomarkers, and their interactions as a framework to study NDDs using a holistic approach. The framework can serve as a basis for defining pathogenic mechanisms, categorizing different NDDs based on their primary hallmarks, stratifying patients within a specific NDD, and designing multi-tar-geted, personalized therapies to effectively halt NDDs. This work was supported in part by the National Institutes of Health, National Institute on Aging, Intramural Research Program (M.R.C.). Research from L.V.D.B. is supported by VIB, the KU Leuven, the Fund for Scientific Research Flanders (FWO-Vlaanderen), the Agency for Innovation by Science and Technology (IWT; SBO-iPSCAF), the Thierry Latran Foundation, the Muscular Dystrophy Association (MDA), the ALS Association (ALSA), the Association Franc¸ aise contre les Myopathies (AFM), the Association Belge contre les Maladies Neuro-Musculaires (ABMM), Target ALS, and the ALS Liga Belgie¨ (A Cure for ALS). D.M.W. is supported by Stichting Alzheimer Onderzoek (SAO-FRA Belgium). H.Z. is a Wallenberg Scholar supported by grants from the Swedish Research Council (#2018-02532), the European Research Council (#681712), Swedish State Support for Clinical Research (#ALFGBG-720931), the Alzheimer’s Drug Discovery Foundation (ADDF), USA (#201809-2016862), the AD Strategic Fund and the Alzheimer’s Association (#ADSF-21-831376-C, #ADSF-21-831381-C, and #ADSF-21-831377-C), the Olav Thon Foundation, the Erling-Persson Family Foundation, Stiftelsen fo¨ r Gamla Tja¨ narinnor, Hja¨rnfonden, Sweden (#FO2019-0228), the European Union’s Horizon 2020 research and innovation programme under the Marie Sk1odowska-Curie grant agreement no 860197 (MIRIADE), the European Union Joint Programme – Neurodegenerative Disease Research (JPND2021-00694), and the UK Dementia Research Institute at UCL (UKDRI-1003). D.M.H. is supported by NIH grants RF1AG047644, RF1NS090934, RF1AG061776, and U19AG069701, the Cure Alzheimer’s Fund, and the JPB Foundation. I.D.W. is supported by Stichting Alzheimer Onderzoek (SAO-FRA Belgium) and Fonds Wetenschappelijk Onderzoek - Vlaanderen (FWO)—research project no. G0C6819N and BOF funding UHasselt (Methusalem). We apologize for omission of key-publications in the field. Many elegant studies have directed the field, and although we would have liked to refer to all these publications, this was not possible, due to the breadth of the topic and the limitations in number of references. This article is dedicated to all that have been or are affected by NDDs and to their caregivers, who are combating NDDs daily, hourly. This article aims at joining their fight against NDDs.

Published
2023

44. Inhibition of p38α MAPK restores neuronal p38γ MAPK and ameliorates synaptic degeneration in a mouse model of DLB/PD

Author

Iba, Michiyo, primary, Kim, Changyoun, additional, Kwon, Somin, additional, Szabo, Marcell, additional, Horan-Portelance, Liam, additional, Peer, Cody J., additional, Figg, William D., additional, Reed, Xylena, additional, Ding, Jinhui, additional, Lee, Seung-Jae, additional, Rissman, Robert A., additional, Cookson, Mark R., additional, Overk, Cassia, additional, Wrasidlo, Wolf, additional, and Masliah, Eliezer, additional

Published
2023
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