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

Sahba Seddighi; Yue A. Qi; Anna Leigh Brown; Oscar G. Wilkins; Colleen Bereda; Cedric Belair; Yong Jie Zhang; Mercedes Prudencio; Matthew J. Keuss; Aditya Khandeshi; Sarah Pickles; Sarah E. Kargbo-Hill; James Hawrot; Daniel M. Ramos; Hebao Yuan; Jessica Roberts; Erika Kelmer Sacramento; Syed I. Shah; Mike A. Nalls; Jennifer M. Colón-Mercado; Joel F. Reyes; Veronica H. Ryan; Matthew P. Nelson; Casey N. Cook; Ziyi Li; Laurel Screven; Justin Y. Kwan; Puja R. Mehta; Matteo Zanovello; Martina Hallegger; Anantharaman Shantaraman; Lingyan Ping; Yuka Koike; Björn Oskarsson; Nathan P. Staff; Duc M. Duong; Aisha Ahmed; Maria Secrier; Jernej Ule; Steven Jacobson; Daniel S. Reich; Jonathan D. Rohrer; Andrea Malaspina; Dennis W. Dickson; Jonathan D. Glass; Alessandro Ori; Nicholas T. Seyfried; Manolis Maragkakis; Leonard Petrucelli; Pietro Fratta; Michael E. Ward

doi:10.1126/scitranslmed.adg7162

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

Sahba Seddighi, Yue A. Qi, Anna Leigh Brown, Oscar G. Wilkins, Colleen Bereda, Cedric Belair, Yong Jie Zhang, Mercedes Prudencio, Matthew J. Keuss, Aditya Khandeshi, Sarah Pickles, Sarah E. Kargbo-Hill, James Hawrot, Daniel M. Ramos, Hebao Yuan, Jessica Roberts, Erika Kelmer Sacramento, Syed I. Shah, Mike A. Nalls, Jennifer M. Colón-MercadoJoel F. Reyes, Veronica H. Ryan, Matthew P. Nelson, Casey N. Cook, Ziyi Li, Laurel Screven, Justin Y. Kwan, Puja R. Mehta, Matteo Zanovello, Martina Hallegger, Anantharaman Shantaraman, Lingyan Ping, Yuka Koike, Björn Oskarsson, Nathan P. Staff, Duc M. Duong, Aisha Ahmed, Maria Secrier, Jernej Ule, Steven Jacobson, Daniel S. Reich, Jonathan D. Rohrer, Andrea Malaspina, Dennis W. Dickson, Jonathan D. Glass, Alessandro Ori, Nicholas T. Seyfried, Manolis Maragkakis, Leonard Petrucelli, Pietro Fratta, Michael E. Ward

Research output: Contribution to journal › Article › peer-review

Abstract

Functional loss of TDP-43, an RNA binding protein genetically and pathologically linked to amyotrophic lateral sclerosis (Als) and frontotemporal dementia (FTD), leads to the inclusion of cryptic exons in hundreds of transcripts during disease. Cryptic exons can promote the degradation of affected transcripts, deleteriously altering cellular function through loss-of-function mechanisms. Here, we show that mRNA transcripts harboring cryptic exons generated de novo proteins in TDP-43–depleted human iPsC–derived neurons in vitro, and de novo peptides were found in cerebrospinal fluid (CsF) samples from patients with Als or FTD. using coordinated transcriptomic and proteomic studies of TDP-43–depleted human iPsC–derived neurons, we identified 65 peptides that mapped to 12 cryptic exons. Cryptic exons identified in TDP-43–depleted human iPsC–derived neurons were predictive of cryptic exons expressed in postmortem brain tissue from patients with TDP-43 proteinopathy. These cryptic exons produced transcript variants that generated de novo proteins. We found that the inclusion of cryptic peptide sequences in proteins altered their interactions with other proteins, thereby likely altering their function. last, we showed that 18 de novo peptides across 13 genes were present in CsF samples from patients with Als/FTD spectrum disorders. The demonstration of cryptic exon translation suggests new mechanisms for Als/FTD pathophysiology downstream of TDP-43 dysfunction and may provide a potential strategy to assay TDP-43 function in patient CsF.

Original language	English (US)
Article number	eadg7162
Journal	Science translational medicine
Volume	16
Issue number	734
DOIs	https://doi.org/10.1126/scitranslmed.adg7162
State	Published - 2024

ASJC Scopus subject areas

General Medicine

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10.1126/scitranslmed.adg7162

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Seddighi, S., Qi, Y. A., Brown, A. L., Wilkins, O. G., Bereda, C., Belair, C., Zhang, Y. J., Prudencio, M., Keuss, M. J., Khandeshi, A., Pickles, S., Kargbo-Hill, S. E., Hawrot, J., Ramos, D. M., Yuan, H., Roberts, J., Sacramento, E. K., Shah, S. I., Nalls, M. A., ... Ward, M. E. (2024). Mis-spliced transcripts generate de novo proteins in TDP-43–related Als/FTD. Science translational medicine, 16(734), Article eadg7162. https://doi.org/10.1126/scitranslmed.adg7162

Seddighi, S, Qi, YA, Brown, AL, Wilkins, OG, Bereda, C, Belair, C, Zhang, YJ , Prudencio, M, Keuss, MJ, Khandeshi, A, Pickles, S, Kargbo-Hill, SE, Hawrot, J, Ramos, DM, Yuan, H, Roberts, J, Sacramento, EK, Shah, SI, Nalls, MA, Colón-Mercado, JM, Reyes, JF, Ryan, VH, Nelson, MP, Cook, CN, Li, Z, Screven, L, Kwan, JY, Mehta, PR, Zanovello, M, Hallegger, M, Shantaraman, A, Ping, L, Koike, Y, Oskarsson, B , Staff, NP, Duong, DM, Ahmed, A, Secrier, M, Ule, J, Jacobson, S, Reich, DS, Rohrer, JD, Malaspina, A, Dickson, DW, Glass, JD, Ori, A, Seyfried, NT, Maragkakis, M, Petrucelli, L, Fratta, P & Ward, ME 2024, 'Mis-spliced transcripts generate de novo proteins in TDP-43–related Als/FTD', Science translational medicine, vol. 16, no. 734, eadg7162. https://doi.org/10.1126/scitranslmed.adg7162

@article{4968e0462d7f47038e1143a9976995b2,

title = "Mis-spliced transcripts generate de novo proteins in TDP-43–related Als/FTD",

abstract = "Functional loss of TDP-43, an RNA binding protein genetically and pathologically linked to amyotrophic lateral sclerosis (Als) and frontotemporal dementia (FTD), leads to the inclusion of cryptic exons in hundreds of transcripts during disease. Cryptic exons can promote the degradation of affected transcripts, deleteriously altering cellular function through loss-of-function mechanisms. Here, we show that mRNA transcripts harboring cryptic exons generated de novo proteins in TDP-43–depleted human iPsC–derived neurons in vitro, and de novo peptides were found in cerebrospinal fluid (CsF) samples from patients with Als or FTD. using coordinated transcriptomic and proteomic studies of TDP-43–depleted human iPsC–derived neurons, we identified 65 peptides that mapped to 12 cryptic exons. Cryptic exons identified in TDP-43–depleted human iPsC–derived neurons were predictive of cryptic exons expressed in postmortem brain tissue from patients with TDP-43 proteinopathy. These cryptic exons produced transcript variants that generated de novo proteins. We found that the inclusion of cryptic peptide sequences in proteins altered their interactions with other proteins, thereby likely altering their function. last, we showed that 18 de novo peptides across 13 genes were present in CsF samples from patients with Als/FTD spectrum disorders. The demonstration of cryptic exon translation suggests new mechanisms for Als/FTD pathophysiology downstream of TDP-43 dysfunction and may provide a potential strategy to assay TDP-43 function in patient CsF.",

author = "Sahba Seddighi and Qi, {Yue A.} and Brown, {Anna Leigh} and Wilkins, {Oscar G.} and Colleen Bereda and Cedric Belair and Zhang, {Yong Jie} and Mercedes Prudencio and Keuss, {Matthew J.} and Aditya Khandeshi and Sarah Pickles and Kargbo-Hill, {Sarah E.} and James Hawrot and Ramos, {Daniel M.} and Hebao Yuan and Jessica Roberts and Sacramento, {Erika Kelmer} and Shah, {Syed I.} and Nalls, {Mike A.} and Col{\'o}n-Mercado, {Jennifer M.} and Reyes, {Joel F.} and Ryan, {Veronica H.} and Nelson, {Matthew P.} and Cook, {Casey N.} and Ziyi Li and Laurel Screven and Kwan, {Justin Y.} and Mehta, {Puja R.} and Matteo Zanovello and Martina Hallegger and Anantharaman Shantaraman and Lingyan Ping and Yuka Koike and Bj{\"o}rn Oskarsson and Staff, {Nathan P.} and Duong, {Duc M.} and Aisha Ahmed and Maria Secrier and Jernej Ule and Steven Jacobson and Reich, {Daniel S.} and Rohrer, {Jonathan D.} and Andrea Malaspina and Dickson, {Dennis W.} and Glass, {Jonathan D.} and Alessandro Ori and Seyfried, {Nicholas T.} and Manolis Maragkakis and Leonard Petrucelli and Pietro Fratta and Ward, {Michael E.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors, some rights reserved.",

year = "2024",

doi = "10.1126/scitranslmed.adg7162",

language = "English (US)",

volume = "16",

journal = "Science translational medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

number = "734",

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TY - JOUR

T1 - Mis-spliced transcripts generate de novo proteins in TDP-43–related Als/FTD

AU - Seddighi, Sahba

AU - Qi, Yue A.

AU - Brown, Anna Leigh

AU - Wilkins, Oscar G.

AU - Bereda, Colleen

AU - Belair, Cedric

AU - Zhang, Yong Jie

AU - Prudencio, Mercedes

AU - Keuss, Matthew J.

AU - Khandeshi, Aditya

AU - Pickles, Sarah

AU - Kargbo-Hill, Sarah E.

AU - Hawrot, James

AU - Ramos, Daniel M.

AU - Yuan, Hebao

AU - Roberts, Jessica

AU - Sacramento, Erika Kelmer

AU - Shah, Syed I.

AU - Nalls, Mike A.

AU - Colón-Mercado, Jennifer M.

AU - Reyes, Joel F.

AU - Ryan, Veronica H.

AU - Nelson, Matthew P.

AU - Cook, Casey N.

AU - Li, Ziyi

AU - Screven, Laurel

AU - Kwan, Justin Y.

AU - Mehta, Puja R.

AU - Zanovello, Matteo

AU - Hallegger, Martina

AU - Shantaraman, Anantharaman

AU - Ping, Lingyan

AU - Koike, Yuka

AU - Oskarsson, Björn

AU - Staff, Nathan P.

AU - Duong, Duc M.

AU - Ahmed, Aisha

AU - Secrier, Maria

AU - Ule, Jernej

AU - Jacobson, Steven

AU - Reich, Daniel S.

AU - Rohrer, Jonathan D.

AU - Malaspina, Andrea

AU - Dickson, Dennis W.

AU - Glass, Jonathan D.

AU - Ori, Alessandro

AU - Seyfried, Nicholas T.

AU - Maragkakis, Manolis

AU - Petrucelli, Leonard

AU - Fratta, Pietro

AU - Ward, Michael E.

PY - 2024

Y1 - 2024

N2 - Functional loss of TDP-43, an RNA binding protein genetically and pathologically linked to amyotrophic lateral sclerosis (Als) and frontotemporal dementia (FTD), leads to the inclusion of cryptic exons in hundreds of transcripts during disease. Cryptic exons can promote the degradation of affected transcripts, deleteriously altering cellular function through loss-of-function mechanisms. Here, we show that mRNA transcripts harboring cryptic exons generated de novo proteins in TDP-43–depleted human iPsC–derived neurons in vitro, and de novo peptides were found in cerebrospinal fluid (CsF) samples from patients with Als or FTD. using coordinated transcriptomic and proteomic studies of TDP-43–depleted human iPsC–derived neurons, we identified 65 peptides that mapped to 12 cryptic exons. Cryptic exons identified in TDP-43–depleted human iPsC–derived neurons were predictive of cryptic exons expressed in postmortem brain tissue from patients with TDP-43 proteinopathy. These cryptic exons produced transcript variants that generated de novo proteins. We found that the inclusion of cryptic peptide sequences in proteins altered their interactions with other proteins, thereby likely altering their function. last, we showed that 18 de novo peptides across 13 genes were present in CsF samples from patients with Als/FTD spectrum disorders. The demonstration of cryptic exon translation suggests new mechanisms for Als/FTD pathophysiology downstream of TDP-43 dysfunction and may provide a potential strategy to assay TDP-43 function in patient CsF.

AB - Functional loss of TDP-43, an RNA binding protein genetically and pathologically linked to amyotrophic lateral sclerosis (Als) and frontotemporal dementia (FTD), leads to the inclusion of cryptic exons in hundreds of transcripts during disease. Cryptic exons can promote the degradation of affected transcripts, deleteriously altering cellular function through loss-of-function mechanisms. Here, we show that mRNA transcripts harboring cryptic exons generated de novo proteins in TDP-43–depleted human iPsC–derived neurons in vitro, and de novo peptides were found in cerebrospinal fluid (CsF) samples from patients with Als or FTD. using coordinated transcriptomic and proteomic studies of TDP-43–depleted human iPsC–derived neurons, we identified 65 peptides that mapped to 12 cryptic exons. Cryptic exons identified in TDP-43–depleted human iPsC–derived neurons were predictive of cryptic exons expressed in postmortem brain tissue from patients with TDP-43 proteinopathy. These cryptic exons produced transcript variants that generated de novo proteins. We found that the inclusion of cryptic peptide sequences in proteins altered their interactions with other proteins, thereby likely altering their function. last, we showed that 18 de novo peptides across 13 genes were present in CsF samples from patients with Als/FTD spectrum disorders. The demonstration of cryptic exon translation suggests new mechanisms for Als/FTD pathophysiology downstream of TDP-43 dysfunction and may provide a potential strategy to assay TDP-43 function in patient CsF.

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UR - http://www.scopus.com/inward/citedby.url?scp=85185224396&partnerID=8YFLogxK

U2 - 10.1126/scitranslmed.adg7162

DO - 10.1126/scitranslmed.adg7162

M3 - Article

C2 - 38277467

AN - SCOPUS:85185224396

SN - 1946-6234

VL - 16

JO - Science translational medicine

JF - Science translational medicine

IS - 734

M1 - eadg7162

ER -

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

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