TDP-43 loss and ALS-risk SNPs drive mis-splicing and depletion of UNC13A

Anna Leigh Brown; Oscar G. Wilkins; Matthew J. Keuss; Sarah E. Hill; Matteo Zanovello; Weaverly Colleen Lee; Alexander Bampton; Flora C.Y. Lee; Laura Masino; Yue A. Qi; Sam Bryce-Smith; Ariana Gatt; Martina Hallegger; Delphine Fagegaltier; Hemali Phatnani; Hemali Phatnani; Justin Kwan; Dhruv Sareen; James R. Broach; Zachary Simmons; Ximena Arcila-Londono; Edward B. Lee; Vivianna M. Van Deerlin; Neil A. Shneider; Ernest Fraenkel; Lyle W. Ostrow; Frank Baas; Noah Zaitlen; James D. Berry; Andrea Malaspina; Pietro Fratta; Gregory A. Cox; Leslie M. Thompson; Steve Finkbeiner; Efthimios Dardiotis; Timothy M. Miller; Siddharthan Chandran; Suvankar Pal; Eran Hornstein; Daniel J. MacGowan; Terry Heiman-Patterson; Molly G. Hammell; Nikolaos A. Patsopoulos; Oleg Butovsky; Joshua Dubnau; Avindra Nath; Robert Bowser; Matthew Harms; Eleonora Aronica; Mary Poss; Jennifer Phillips-Cremins; John Crary; Nazem Atassi; Dale J. Lange; Darius J. Adams; Leonidas Stefanis; Marc Gotkine; Robert H. Baloh; Suma Babu; Towfique Raj; Sabrina Paganoni; Ophir Shalem; Colin Smith; Bin Zhang; Brent Harris; Iris Broce; Vivian Drory; John Ravits; Corey McMillan; Vilas Menon; Lani Wu; Steven Altschuler; Yossef Lerner; Rita Sattler; Kendall Van Keuren-Jensen; Orit Rozenblatt-Rosen; Kerstin Lindblad-Toh; Katharine Nicholson; Peter Gregersen; Jeong Ho Lee; Sulev Kokos; Stephen Muljo; Jia Newcombe; Emil K. Gustavsson; Sahba Seddighi; Joel F. Reyes; Steven L. Coon; Daniel Ramos; Giampietro Schiavo; Elizabeth M.C. Fisher; Towfique Raj; Maria Secrier; Tammaryn Lashley; Jernej Ule; Emanuele Buratti; Jack Humphrey; Michael E. Ward; Pietro Fratta

Journal ArticleOPEN ACCESS

TDP-43 loss and ALS-risk SNPs drive mis-splicing and depletion of UNC13A

Nature (2022) 603(7899) 131-137

DOI: 10.1038/s41586-022-04436-3

192Citations

473Readers

Abstract

Variants of UNC13A, a critical gene for synapse function, increase the risk of amyotrophic lateral sclerosis and frontotemporal dementia1–3, two related neurodegenerative diseases defined by mislocalization of the RNA-binding protein TDP-434,5. Here we show that TDP-43 depletion induces robust inclusion of a cryptic exon in UNC13A, resulting in nonsense-mediated decay and loss of UNC13A protein. Two common intronic UNC13A polymorphisms strongly associated with amyotrophic lateral sclerosis and frontotemporal dementia risk overlap with TDP-43 binding sites. These polymorphisms potentiate cryptic exon inclusion, both in cultured cells and in brains and spinal cords from patients with these conditions. Our findings, which demonstrate a genetic link between loss of nuclear TDP-43 function and disease, reveal the mechanism by which UNC13A variants exacerbate the effects of decreased TDP-43 function. They further provide a promising therapeutic target for TDP-43 proteinopathies.

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APA

Brown, A. L., Wilkins, O. G., Keuss, M. J., Hill, S. E., Zanovello, M., Lee, W. C., … Fratta, P. (2022). TDP-43 loss and ALS-risk SNPs drive mis-splicing and depletion of UNC13A. Nature, 603(7899), 131–137. https://doi.org/10.1038/s41586-022-04436-3

TDP-43 loss and ALS-risk SNPs drive mis-splicing and depletion of UNC13A

Abstract

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