CLP1 Founder Mutation Links tRNA Splicing and Maturation to Cerebellar Development and Neurodegeneration
Date
2014Author
ZWEIER, Christiane
SILHAVY, Jennifer L.
XUE, Yuanchao
Kayserili, Hulya
Yasuno, Katsuhito
ABDELLATEEF, Mostafa
Caglar, Caner
KASHER, Paul R.
CAZEMIER, J. Leonie
WETERMAN, Marian A.
CANTAGREL, Vincent
CAI, NA
AKTAR, Fesih
Caksen, Huseyin
Bilguvar, Kaya
FU, Xiang-Dong
TROTTA, Christopher R.
Gabriel, Stacey
REIS, Andre
Gunel, Murat
BAAS, Frank
GLEESON, Joseph G.
SCHAFFER, Ashleigh E.
EGGENS, Veerle R. C.
Caglayan, Ahmet Okay
REUTER, Miriam S.
SCOTT, Eric
COUFAL, Nicole G.
Satkin, N. Bilge
Altunoglu, Umut
Tuysuz, Beyhan
Yalcinkaya, Cengiz
ROSTI, Rasim Özgür
Metadata
Show full item recordAbstract
Neurodegenerative diseases can occur so early as to affect neurodevelopment. From a cohort of more than 2,000 consanguineous families with childhood neurological disease, we identified a founder mutation in four independent pedigrees in cleavage and polyadenylation factor I subunit 1 (CLP1). CLP1 is a multifunctional kinase implicated in tRNA, mRNA, and siRNA maturation. Kinase activity of the CLP1 mutant protein was defective, and the tRNA endonuclease complex (TSEN) was destabilized, resulting in impaired pre-tRNA cleavage. Germline clp1 null zebrafish showed cerebellar neurodegeneration that was rescued by wild-type, but not mutant, human CLP1 expression. Patient-derived induced neurons displayed both depletion of mature tRNAs and accumulation of unspliced pre-tRNAs. Transfection of partially processed tRNA fragments into patient cells exacerbated an oxidative stress-induced reduction in cell survival. Our data link tRNA maturation to neuronal development and neurodegeneration through defective CLP1 function in humans.
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