Literature DB >> 31332509

Splicing repression is a major function of TDP-43 in motor neurons.

Aneesh Donde1,2, Mingkuan Sun1, Jonathan P Ling1,2, Kerstin E Braunstein1, Bo Pang1, Xinrui Wen1, Xueying Cheng1, Liam Chen3, Philip C Wong4,5.   

Abstract

Nuclear depletion of TDP-43, an essential RNA binding protein, may underlie neurodegeneration in amyotrophic lateral sclerosis (ALS). As several functions have been ascribed to this protein, the critical role(s) of TDP-43 in motor neurons that may be compromised in ALS remains unknown. We show here that TDP-43 mediated splicing repression, which serves to protect the transcriptome by preventing aberrant splicing, is central to the physiology of motor neurons. Expression in Drosophila TDP-43 knockout models of a chimeric repressor, comprised of the RNA recognition domain of TDP-43 fused to an unrelated splicing repressor, RAVER1, attenuated motor deficits and extended lifespan. Likewise, AAV9-mediated delivery of this chimeric rescue repressor to mice lacking TDP-43 in motor neurons delayed the onset, slowed the progression of motor symptoms, and markedly extended their lifespan. In treated mice lacking TDP-43 in motor neurons, aberrant splicing was significantly decreased and accompanied by amelioration of axon degeneration and motor neuron loss. This AAV9 strategy allowed long-term expression of the chimeric repressor without any adverse effects. Our findings establish that splicing repression is a major function of TDP-43 in motor neurons and strongly support the idea that loss of TDP-43-mediated splicing fidelity represents a key pathogenic mechanism underlying motor neuron loss in ALS.

Entities:  

Keywords:  Amyotrophic lateral sclerosis; Cryptic exon; Drosophila; Motor neuron; Mouse; TDP-43

Year:  2019        PMID: 31332509      PMCID: PMC6802294          DOI: 10.1007/s00401-019-02042-8

Source DB:  PubMed          Journal:  Acta Neuropathol        ISSN: 0001-6322            Impact factor:   17.088


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