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

As genetic testing has become more accessible and affordable, variants of uncertain significance (VUS) are increasingly identified, and determining whether these variants play causal roles in disease is a major challenge. The known disease-associated Annexin A11 (ANXA11) mutations result in ANXA11 a...

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Autores principales: Snyder, Allison, Ryan, Veronica H, Hawrot, James, Lawton, Sydney, Ramos, Daniel M, Qi, Y Andy, Johnson, Kory, Reed, Xylena, Johnson, Nicholas L, Kollasch, Aaron W, Duffy, Megan, VandeVrede, Lawren, Cochran, J Nicholas, Miller, Bruce L, Toro, Camilo, Bielekova, Bibiana, Yokoyama, Jennifer S, Marks, Debora S, Kwan, Justin Y, Cookson, Mark R, Ward, Michael E
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Journal Experts 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10602153/
https://www.ncbi.nlm.nih.gov/pubmed/37886540
http://dx.doi.org/10.21203/rs.3.rs-3462973/v1
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author Snyder, Allison
Ryan, Veronica H
Hawrot, James
Lawton, Sydney
Ramos, Daniel M
Qi, Y Andy
Johnson, Kory
Reed, Xylena
Johnson, Nicholas L
Kollasch, Aaron W
Duffy, Megan
VandeVrede, Lawren
Cochran, J Nicholas
Miller, Bruce L
Toro, Camilo
Bielekova, Bibiana
Yokoyama, Jennifer S
Marks, Debora S
Kwan, Justin Y
Cookson, Mark R
Ward, Michael E
author_facet Snyder, Allison
Ryan, Veronica H
Hawrot, James
Lawton, Sydney
Ramos, Daniel M
Qi, Y Andy
Johnson, Kory
Reed, Xylena
Johnson, Nicholas L
Kollasch, Aaron W
Duffy, Megan
VandeVrede, Lawren
Cochran, J Nicholas
Miller, Bruce L
Toro, Camilo
Bielekova, Bibiana
Yokoyama, Jennifer S
Marks, Debora S
Kwan, Justin Y
Cookson, Mark R
Ward, Michael E
author_sort Snyder, Allison
collection PubMed
description As genetic testing has become more accessible and affordable, variants of uncertain significance (VUS) are increasingly identified, and determining whether these variants play causal roles in disease is a major challenge. The known disease-associated Annexin A11 (ANXA11) mutations result in ANXA11 aggregation, alterations in lysosomal-RNA granule co-trafficking, and TDP-43 mis-localization and present as amyotrophic lateral sclerosis or frontotemporal dementia. We identified a novel VUS in ANXA11 (P93S) in a kindred with corticobasal syndrome and unique radiographic features that segregated with disease. We then queried neurodegenerative disorder clinic databases to identify the phenotypic spread of ANXA11 mutations. Multi-modal computational analysis of this variant was performed and the effect of this VUS on ANXA11 function and TDP-43 biology was characterized in iPSC-derived neurons. Single-cell sequencing and proteomic analysis of iPSC-derived neurons and microglia were used to determine the multiomic signature of this VUS. Mutations in ANXA11 were found in association with clinically diagnosed corticobasal syndrome, thereby establishing corticobasal syndrome as part of ANXA11 clinical spectrum. In iPSC-derived neurons expressing mutant ANXA11, we found decreased colocalization of lysosomes and decreased neuritic RNA as well as decreased nuclear TDP-43 and increased formation of cryptic exons compared to controls. Multiomic assessment of the P93S variant in iPSC-derived neurons and microglia indicates that the pathogenic omic signature in neurons is modest compared to microglia. Additionally, omic studies reveal that immune dysregulation and interferon signaling pathways in microglia are central to disease. Collectively, these findings identify a new pathogenic variant in ANXA11, expand the range of clinical syndromes caused by ANXA11 mutations, and implicate both neuronal and microglia dysfunction in ANXA11 pathophysiology. This work illustrates the potential for iPSC-derived cellular models to revolutionize the variant annotation process and provides a generalizable approach to determining causality of novel variants across genes.
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spelling pubmed-106021532023-10-27 An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome Snyder, Allison Ryan, Veronica H Hawrot, James Lawton, Sydney Ramos, Daniel M Qi, Y Andy Johnson, Kory Reed, Xylena Johnson, Nicholas L Kollasch, Aaron W Duffy, Megan VandeVrede, Lawren Cochran, J Nicholas Miller, Bruce L Toro, Camilo Bielekova, Bibiana Yokoyama, Jennifer S Marks, Debora S Kwan, Justin Y Cookson, Mark R Ward, Michael E Res Sq Article As genetic testing has become more accessible and affordable, variants of uncertain significance (VUS) are increasingly identified, and determining whether these variants play causal roles in disease is a major challenge. The known disease-associated Annexin A11 (ANXA11) mutations result in ANXA11 aggregation, alterations in lysosomal-RNA granule co-trafficking, and TDP-43 mis-localization and present as amyotrophic lateral sclerosis or frontotemporal dementia. We identified a novel VUS in ANXA11 (P93S) in a kindred with corticobasal syndrome and unique radiographic features that segregated with disease. We then queried neurodegenerative disorder clinic databases to identify the phenotypic spread of ANXA11 mutations. Multi-modal computational analysis of this variant was performed and the effect of this VUS on ANXA11 function and TDP-43 biology was characterized in iPSC-derived neurons. Single-cell sequencing and proteomic analysis of iPSC-derived neurons and microglia were used to determine the multiomic signature of this VUS. Mutations in ANXA11 were found in association with clinically diagnosed corticobasal syndrome, thereby establishing corticobasal syndrome as part of ANXA11 clinical spectrum. In iPSC-derived neurons expressing mutant ANXA11, we found decreased colocalization of lysosomes and decreased neuritic RNA as well as decreased nuclear TDP-43 and increased formation of cryptic exons compared to controls. Multiomic assessment of the P93S variant in iPSC-derived neurons and microglia indicates that the pathogenic omic signature in neurons is modest compared to microglia. Additionally, omic studies reveal that immune dysregulation and interferon signaling pathways in microglia are central to disease. Collectively, these findings identify a new pathogenic variant in ANXA11, expand the range of clinical syndromes caused by ANXA11 mutations, and implicate both neuronal and microglia dysfunction in ANXA11 pathophysiology. This work illustrates the potential for iPSC-derived cellular models to revolutionize the variant annotation process and provides a generalizable approach to determining causality of novel variants across genes. American Journal Experts 2023-10-19 /pmc/articles/PMC10602153/ /pubmed/37886540 http://dx.doi.org/10.21203/rs.3.rs-3462973/v1 Text en https://creativecommons.org/licenses/by/4.0/This work is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/) , which allows reusers to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use.
spellingShingle Article
Snyder, Allison
Ryan, Veronica H
Hawrot, James
Lawton, Sydney
Ramos, Daniel M
Qi, Y Andy
Johnson, Kory
Reed, Xylena
Johnson, Nicholas L
Kollasch, Aaron W
Duffy, Megan
VandeVrede, Lawren
Cochran, J Nicholas
Miller, Bruce L
Toro, Camilo
Bielekova, Bibiana
Yokoyama, Jennifer S
Marks, Debora S
Kwan, Justin Y
Cookson, Mark R
Ward, Michael E
An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome
title An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome
title_full An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome
title_fullStr An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome
title_full_unstemmed An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome
title_short An ANXA11 P93S variant dysregulates TDP-43 and causes corticobasal syndrome
title_sort anxa11 p93s variant dysregulates tdp-43 and causes corticobasal syndrome
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10602153/
https://www.ncbi.nlm.nih.gov/pubmed/37886540
http://dx.doi.org/10.21203/rs.3.rs-3462973/v1
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