Cell environment shapes TDP-43 function with implications in neuronal and muscle disease

NYGC ALS Consortium

doi:10.1038/s42003-022-03253-8

Cell environment shapes TDP-43 function with implications in neuronal and muscle disease

NYGC ALS Consortium

School of Medicine

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

Abstract

TDP-43 (TAR DNA-binding protein 43) aggregation and redistribution are recognised as a hallmark of amyotrophic lateral sclerosis and frontotemporal dementia. As TDP-43 inclusions have recently been described in the muscle of inclusion body myositis patients, this highlights the need to understand the role of TDP-43 beyond the central nervous system. Using RNA-seq, we directly compare TDP-43-mediated RNA processing in muscle (C2C12) and neuronal (NSC34) mouse cells. TDP-43 displays a cell-type-characteristic behaviour targeting unique transcripts in each cell-type, which is due to characteristic expression of RNA-binding proteins, that influence TDP-43’s performance and define cell-type specific splicing. Among splicing events commonly dysregulated in both cell lines, we identify some that are TDP-43-dependent also in human cells. Inclusion levels of these alternative exons are altered in tissues of patients suffering from FTLD and IBM. We therefore propose that TDP-43 dysfunction contributes to disease development either in a common or a tissue-specific manner.

Original language	English (US)
Article number	314
Journal	Communications biology
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/s42003-022-03253-8
State	Published - Dec 2022

ASJC Scopus subject areas

General Agricultural and Biological Sciences
General Biochemistry, Genetics and Molecular Biology
Medicine (miscellaneous)

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10.1038/s42003-022-03253-8

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@article{11868d21f1a740cdbc53bbc64a7098f1,

title = "Cell environment shapes TDP-43 function with implications in neuronal and muscle disease",

abstract = "TDP-43 (TAR DNA-binding protein 43) aggregation and redistribution are recognised as a hallmark of amyotrophic lateral sclerosis and frontotemporal dementia. As TDP-43 inclusions have recently been described in the muscle of inclusion body myositis patients, this highlights the need to understand the role of TDP-43 beyond the central nervous system. Using RNA-seq, we directly compare TDP-43-mediated RNA processing in muscle (C2C12) and neuronal (NSC34) mouse cells. TDP-43 displays a cell-type-characteristic behaviour targeting unique transcripts in each cell-type, which is due to characteristic expression of RNA-binding proteins, that influence TDP-43{\textquoteright}s performance and define cell-type specific splicing. Among splicing events commonly dysregulated in both cell lines, we identify some that are TDP-43-dependent also in human cells. Inclusion levels of these alternative exons are altered in tissues of patients suffering from FTLD and IBM. We therefore propose that TDP-43 dysfunction contributes to disease development either in a common or a tissue-specific manner.",

author = "{NYGC ALS Consortium} and Ur{\v s}a {\v S}u{\v s}njar and Neva {\v S}krabar and Brown, {Anna Leigh} and Yasmine Abbassi and Hemali Phatnani and H. Phatnani and P. Fratta and J. Kwan and D. Sareen and Broach, {J. R.} and Z. Simmons and X. Arcila-Londono and Lee, {E. B.} and {Van Deerlin}, {V. M.} and Shneider, {N. A.} and E. Fraenkel and Ostrow, {L. W.} and F. Baas and Berry, {J. D.} and O. Butovsky and Baloh, {R. H.} and Ophir Shalem and T. Heiman-Patterson and L. Stefanis and S. Chandran and S. Pal and C. Smith and A. Malaspina and Hammell, {M. G.} and Patsopoulos, {N. A.} and J. Dubnau and M. Poss and B. Zhang and N. Zaitlen and E. Hornstein and Miller, {T. M.} and E. Dardiotis and R. Bowser and V. Menon and M. Harms and N. Atassi and Lange, {D. J.} and MacGowan, {D. J.} and C. McMillan and E. Aronica and B. Harris and J. Ravits and J. Crary and Thompson, {L. M.} and T. Raj",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s42003-022-03253-8",

language = "English (US)",

volume = "5",

journal = "Communications biology",

issn = "2399-3642",

publisher = "Springer Nature",

number = "1",

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T1 - Cell environment shapes TDP-43 function with implications in neuronal and muscle disease

AU - NYGC ALS Consortium

AU - Šušnjar, Urša

AU - Škrabar, Neva

AU - Brown, Anna Leigh

AU - Abbassi, Yasmine

AU - Phatnani, Hemali

AU - Phatnani, H.

AU - Fratta, P.

AU - Kwan, J.

AU - Sareen, D.

AU - Broach, J. R.

AU - Simmons, Z.

AU - Arcila-Londono, X.

AU - Lee, E. B.

AU - Van Deerlin, V. M.

AU - Shneider, N. A.

AU - Fraenkel, E.

AU - Ostrow, L. W.

AU - Baas, F.

AU - Berry, J. D.

AU - Butovsky, O.

AU - Baloh, R. H.

AU - Shalem, Ophir

AU - Heiman-Patterson, T.

AU - Stefanis, L.

AU - Chandran, S.

AU - Pal, S.

AU - Smith, C.

AU - Malaspina, A.

AU - Hammell, M. G.

AU - Patsopoulos, N. A.

AU - Dubnau, J.

AU - Poss, M.

AU - Zhang, B.

AU - Zaitlen, N.

AU - Hornstein, E.

AU - Miller, T. M.

AU - Dardiotis, E.

AU - Bowser, R.

AU - Menon, V.

AU - Harms, M.

AU - Atassi, N.

AU - Lange, D. J.

AU - MacGowan, D. J.

AU - McMillan, C.

AU - Aronica, E.

AU - Harris, B.

AU - Ravits, J.

AU - Crary, J.

AU - Thompson, L. M.

AU - Raj, T.

PY - 2022/12

Y1 - 2022/12

N2 - TDP-43 (TAR DNA-binding protein 43) aggregation and redistribution are recognised as a hallmark of amyotrophic lateral sclerosis and frontotemporal dementia. As TDP-43 inclusions have recently been described in the muscle of inclusion body myositis patients, this highlights the need to understand the role of TDP-43 beyond the central nervous system. Using RNA-seq, we directly compare TDP-43-mediated RNA processing in muscle (C2C12) and neuronal (NSC34) mouse cells. TDP-43 displays a cell-type-characteristic behaviour targeting unique transcripts in each cell-type, which is due to characteristic expression of RNA-binding proteins, that influence TDP-43’s performance and define cell-type specific splicing. Among splicing events commonly dysregulated in both cell lines, we identify some that are TDP-43-dependent also in human cells. Inclusion levels of these alternative exons are altered in tissues of patients suffering from FTLD and IBM. We therefore propose that TDP-43 dysfunction contributes to disease development either in a common or a tissue-specific manner.

AB - TDP-43 (TAR DNA-binding protein 43) aggregation and redistribution are recognised as a hallmark of amyotrophic lateral sclerosis and frontotemporal dementia. As TDP-43 inclusions have recently been described in the muscle of inclusion body myositis patients, this highlights the need to understand the role of TDP-43 beyond the central nervous system. Using RNA-seq, we directly compare TDP-43-mediated RNA processing in muscle (C2C12) and neuronal (NSC34) mouse cells. TDP-43 displays a cell-type-characteristic behaviour targeting unique transcripts in each cell-type, which is due to characteristic expression of RNA-binding proteins, that influence TDP-43’s performance and define cell-type specific splicing. Among splicing events commonly dysregulated in both cell lines, we identify some that are TDP-43-dependent also in human cells. Inclusion levels of these alternative exons are altered in tissues of patients suffering from FTLD and IBM. We therefore propose that TDP-43 dysfunction contributes to disease development either in a common or a tissue-specific manner.

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AN - SCOPUS:85127682262

SN - 2399-3642

VL - 5

JO - Communications biology

JF - Communications biology

IS - 1

M1 - 314

ER -

Cell environment shapes TDP-43 function with implications in neuronal and muscle disease

Abstract

ASJC Scopus subject areas

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