Mechanism of STMN2 cryptic splice-polyadenylation and its correction for TDP-43 proteinopathies | Zendy

Michael W. Baughn | Zendy; Ze’ev Melamed | Zendy; Jone LópezErauskin | Zendy; Melinda S. Beccari | Zendy; Karen Ling | Zendy; Aamir Zuberi | Zendy; Maximiliano Presa | Zendy; Elena Gonzalo-Gil | Zendy; Roy Maimon | Zendy; Sonia Vázquez-Sánchez | Zendy; Som Chaturvedi | Zendy; Mariana BravoHernández | Zendy; Vanessa Taupin | Zendy; Stephen Moore | Zendy; Jonathan W. Artates | Zendy; Eitan Acks | Zendy; I. Sandra Ndayambaje | Zendy; Ana Rita Agra de Almeida Quadros | Zendy; Paayman Jafar-nejad | Zendy; Frank Rigo | Zendy; C. Frank Bennett | Zendy; Cathleen Lutz | Zendy; Clotilde LagierTourenne | Zendy; Don W. Cleveland | Zendy

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Mechanism of STMN2 cryptic splice-polyadenylation and its correction for TDP-43 proteinopathies

Author(s) -

Michael W. Baughn,

Ze’ev Melamed,

Jone LópezErauskin,

Melinda S. Beccari,

Karen Ling,

Aamir Zuberi,

Maximiliano Presa,

Elena Gonzalo-Gil,

Roy Maimon,

Sonia Vázquez-Sánchez,

Som Chaturvedi,

Mariana BravoHernández,

Vanessa Taupin,

Stephen Moore,

Jonathan W. Artates,

Eitan Acks,

I. Sandra Ndayambaje,

Ana Rita Agra de Almeida Quadros,

Paayman Jafar-nejad,

Frank Rigo,

C. Frank Bennett,

Cathleen Lutz,

Clotilde LagierTourenne,

Don W. Cleveland

Publication year - 2023

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.abq5622

Subject(s) - polyadenylation , rna splicing , stathmin , biology , neurodegeneration , microbiology and biotechnology , messenger rna , frontotemporal dementia , alternative splicing , amyotrophic lateral sclerosis , gene , genetics , rna , medicine , phosphorylation , dementia , disease

Loss of nuclear TDP-43 is a hallmark of neurodegeneration in TDP-43 proteinopathies, including amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). TDP-43 mislocalization results in cryptic splicing and polyadenylation of pre-messenger RNAs (pre-mRNAs) encoding stathmin-2 (also known as SCG10), a protein that is required for axonal regeneration. We found that TDP-43 binding to a GU-rich region sterically blocked recognition of the cryptic 3' splice site in STMN2 pre-mRNA. Targeting dCasRx or antisense oligonucleotides (ASOs) suppressed cryptic splicing, which restored axonal regeneration and stathmin-2-dependent lysosome trafficking in TDP-43-deficient human motor neurons. In mice that were gene-edited to contain human STMN2 cryptic splice-polyadenylation sequences, ASO injection into cerebral spinal fluid successfully corrected Stmn2 pre-mRNA misprocessing and restored stathmin-2 expression levels independently of TDP-43 binding.

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