Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD

Functional loss of TDP-43, an RNA-binding protein genetically and pathologically linked to ALS and FTD, leads to inclusion of cryptic exons in hundreds of transcripts during disease. Cryptic exons can promote degradation of affected transcripts, deleteriously altering cellular function through loss-...

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Autores principales: Seddighi, Sahba, Qi, Yue A., Brown, Anna-Leigh, Wilkins, Oscar G., Bereda, Colleen, Belair, Cedric, Zhang, Yongjie, Prudencio, Mercedes, Keuss, Matthew J, Khandeshi, Aditya, Pickles, Sarah, Hill, Sarah E., Hawrot, James, Ramos, Daniel M., Yuan, Hebao, Roberts, Jessica, Kelmer Sacramento, Erika, Shah, Syed I., Nalls, Mike A., Colon-Mercado, Jenn, Reyes, Joel F., Ryan, Veronica H., Nelson, Matthew P., Cook, Casey, Li, Ziyi, Screven, Laurel, Kwan, Justin Y, Shantaraman, Anantharaman, Ping, Lingyan, Koike, Yuka, Oskarsson, Björn, Staff, Nathan, Duong, Duc M., Ahmed, Aisha, Secrier, Maria, Ule, Jerneg, Jacobson, Steven, Rohrer, Jonathan, Malaspina, Andrea, Glass, Jonathan D., Ori, Alessandro, Seyfried, Nicholas T., Maragkakis, Manolis, Petrucelli, Leonard, Fratta, Pietro, Ward, Michael E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9900763/
https://www.ncbi.nlm.nih.gov/pubmed/36747793
http://dx.doi.org/10.1101/2023.01.23.525149
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author Seddighi, Sahba
Qi, Yue A.
Brown, Anna-Leigh
Wilkins, Oscar G.
Bereda, Colleen
Belair, Cedric
Zhang, Yongjie
Prudencio, Mercedes
Keuss, Matthew J
Khandeshi, Aditya
Pickles, Sarah
Hill, Sarah E.
Hawrot, James
Ramos, Daniel M.
Yuan, Hebao
Roberts, Jessica
Kelmer Sacramento, Erika
Shah, Syed I.
Nalls, Mike A.
Colon-Mercado, Jenn
Reyes, Joel F.
Ryan, Veronica H.
Nelson, Matthew P.
Cook, Casey
Li, Ziyi
Screven, Laurel
Kwan, Justin Y
Shantaraman, Anantharaman
Ping, Lingyan
Koike, Yuka
Oskarsson, Björn
Staff, Nathan
Duong, Duc M.
Ahmed, Aisha
Secrier, Maria
Ule, Jerneg
Jacobson, Steven
Rohrer, Jonathan
Malaspina, Andrea
Glass, Jonathan D.
Ori, Alessandro
Seyfried, Nicholas T.
Maragkakis, Manolis
Petrucelli, Leonard
Fratta, Pietro
Ward, Michael E.
author_facet Seddighi, Sahba
Qi, Yue A.
Brown, Anna-Leigh
Wilkins, Oscar G.
Bereda, Colleen
Belair, Cedric
Zhang, Yongjie
Prudencio, Mercedes
Keuss, Matthew J
Khandeshi, Aditya
Pickles, Sarah
Hill, Sarah E.
Hawrot, James
Ramos, Daniel M.
Yuan, Hebao
Roberts, Jessica
Kelmer Sacramento, Erika
Shah, Syed I.
Nalls, Mike A.
Colon-Mercado, Jenn
Reyes, Joel F.
Ryan, Veronica H.
Nelson, Matthew P.
Cook, Casey
Li, Ziyi
Screven, Laurel
Kwan, Justin Y
Shantaraman, Anantharaman
Ping, Lingyan
Koike, Yuka
Oskarsson, Björn
Staff, Nathan
Duong, Duc M.
Ahmed, Aisha
Secrier, Maria
Ule, Jerneg
Jacobson, Steven
Rohrer, Jonathan
Malaspina, Andrea
Glass, Jonathan D.
Ori, Alessandro
Seyfried, Nicholas T.
Maragkakis, Manolis
Petrucelli, Leonard
Fratta, Pietro
Ward, Michael E.
author_sort Seddighi, Sahba
collection PubMed
description Functional loss of TDP-43, an RNA-binding protein genetically and pathologically linked to ALS and FTD, leads to inclusion of cryptic exons in hundreds of transcripts during disease. Cryptic exons can promote degradation of affected transcripts, deleteriously altering cellular function through loss-of-function mechanisms. However, the possibility of de novo protein synthesis from cryptic exon transcripts has not been explored. Here, we show that mRNA transcripts harboring cryptic exons generate de novo proteins both in TDP-43 deficient cellular models and in disease. Using coordinated transcriptomic and proteomic studies of TDP-43 depleted iPSC-derived neurons, we identified numerous peptides that mapped to cryptic exons. Cryptic exons identified in iPSC models were highly predictive of cryptic exons expressed in brains of patients with TDP-43 proteinopathy, including cryptic transcripts that generated de novo proteins. We discovered that inclusion of cryptic peptide sequences in proteins altered their interactions with other proteins, thereby likely altering their function. Finally, we showed that these de novo peptides were present in CSF from patients with ALS. The demonstration of cryptic exon translation suggests new mechanisms for ALS pathophysiology downstream of TDP-43 dysfunction and may provide a strategy for novel biomarker development.
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spelling pubmed-99007632023-02-07 Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD Seddighi, Sahba Qi, Yue A. Brown, Anna-Leigh Wilkins, Oscar G. Bereda, Colleen Belair, Cedric Zhang, Yongjie Prudencio, Mercedes Keuss, Matthew J Khandeshi, Aditya Pickles, Sarah Hill, Sarah E. Hawrot, James Ramos, Daniel M. Yuan, Hebao Roberts, Jessica Kelmer Sacramento, Erika Shah, Syed I. Nalls, Mike A. Colon-Mercado, Jenn Reyes, Joel F. Ryan, Veronica H. Nelson, Matthew P. Cook, Casey Li, Ziyi Screven, Laurel Kwan, Justin Y Shantaraman, Anantharaman Ping, Lingyan Koike, Yuka Oskarsson, Björn Staff, Nathan Duong, Duc M. Ahmed, Aisha Secrier, Maria Ule, Jerneg Jacobson, Steven Rohrer, Jonathan Malaspina, Andrea Glass, Jonathan D. Ori, Alessandro Seyfried, Nicholas T. Maragkakis, Manolis Petrucelli, Leonard Fratta, Pietro Ward, Michael E. bioRxiv Article Functional loss of TDP-43, an RNA-binding protein genetically and pathologically linked to ALS and FTD, leads to inclusion of cryptic exons in hundreds of transcripts during disease. Cryptic exons can promote degradation of affected transcripts, deleteriously altering cellular function through loss-of-function mechanisms. However, the possibility of de novo protein synthesis from cryptic exon transcripts has not been explored. Here, we show that mRNA transcripts harboring cryptic exons generate de novo proteins both in TDP-43 deficient cellular models and in disease. Using coordinated transcriptomic and proteomic studies of TDP-43 depleted iPSC-derived neurons, we identified numerous peptides that mapped to cryptic exons. Cryptic exons identified in iPSC models were highly predictive of cryptic exons expressed in brains of patients with TDP-43 proteinopathy, including cryptic transcripts that generated de novo proteins. We discovered that inclusion of cryptic peptide sequences in proteins altered their interactions with other proteins, thereby likely altering their function. Finally, we showed that these de novo peptides were present in CSF from patients with ALS. The demonstration of cryptic exon translation suggests new mechanisms for ALS pathophysiology downstream of TDP-43 dysfunction and may provide a strategy for novel biomarker development. Cold Spring Harbor Laboratory 2023-01-23 /pmc/articles/PMC9900763/ /pubmed/36747793 http://dx.doi.org/10.1101/2023.01.23.525149 Text en https://creativecommons.org/licenses/by-nd/4.0/This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License (https://creativecommons.org/licenses/by-nd/4.0/) , which allows reusers to copy and distribute the material in any medium or format in unadapted form only, and only so long as attribution is given to the creator. The license allows for commercial use.
spellingShingle Article
Seddighi, Sahba
Qi, Yue A.
Brown, Anna-Leigh
Wilkins, Oscar G.
Bereda, Colleen
Belair, Cedric
Zhang, Yongjie
Prudencio, Mercedes
Keuss, Matthew J
Khandeshi, Aditya
Pickles, Sarah
Hill, Sarah E.
Hawrot, James
Ramos, Daniel M.
Yuan, Hebao
Roberts, Jessica
Kelmer Sacramento, Erika
Shah, Syed I.
Nalls, Mike A.
Colon-Mercado, Jenn
Reyes, Joel F.
Ryan, Veronica H.
Nelson, Matthew P.
Cook, Casey
Li, Ziyi
Screven, Laurel
Kwan, Justin Y
Shantaraman, Anantharaman
Ping, Lingyan
Koike, Yuka
Oskarsson, Björn
Staff, Nathan
Duong, Duc M.
Ahmed, Aisha
Secrier, Maria
Ule, Jerneg
Jacobson, Steven
Rohrer, Jonathan
Malaspina, Andrea
Glass, Jonathan D.
Ori, Alessandro
Seyfried, Nicholas T.
Maragkakis, Manolis
Petrucelli, Leonard
Fratta, Pietro
Ward, Michael E.
Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD
title Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD
title_full Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD
title_fullStr Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD
title_full_unstemmed Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD
title_short Mis-spliced transcripts generate de novo proteins in TDP-43-related ALS/FTD
title_sort mis-spliced transcripts generate de novo proteins in tdp-43-related als/ftd
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9900763/
https://www.ncbi.nlm.nih.gov/pubmed/36747793
http://dx.doi.org/10.1101/2023.01.23.525149
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