Abstract
Nucleotide repeat sequences are prevalent in the genome and expansion of these sequences is associated with more than 40 neuromuscular disorders. To understand the pathogenic mechanisms underlying RNA-repeat toxicity, we performed a genetic screen in a Caenorhabditis elegans model expressing an expanded CUG repeat specifically in the muscle. Here, we show that expression of this RNA repeat impairs motility by mitochondrial dysfunction, disrupting mitochondrial morphology and respiration. The phenotype is dependent on the RNA-binding factor MBL-1 and requires factors from the ribosome-associated protein quality control complex. Furthermore, Coenzyme Q supplementation rescued the motility impairment and all of the mitochondrial phenotypes. Together, our data reveal the importance of mitochondrial dysfunction in the molecular pathogenesis of RNA repeat expansion disorders.
Competing Interest Statement
The authors have declared no competing interest.
Abbreviations
- ctl
- catalase
- CoQ
- Coenzyme Q
- DM1
- myotonic dystrophy type 1
- DMPK
- dystrophia myotonica-protein kinase gene
- Egl phenotype
- egg-laying defective phenotype
- EtOH
- ethanol
- ETC
- electron transport chain
- EV
- empty vector (control RNAi)
- GD
- E. coli [ubiG::Kan, zei::Tn10dTet]
- HT115
- E. coli [F-, mcrA, mcrB, IN(rrnD-rrnE)1, rnc14::Tn10(DE3 lysogen: lacUV5 promoter -T7 polymerase]
- LC-MS
- liquid chromatography coupled to mass spectrometry
- mtDNA
- mitochondrial DNA
- MBL-1
- muscleblind splicing regulator homolog
- MBNL
- muscleblind-like splicing regulator
- NAC
- N-acetylcysteine
- OCR
- oxygen consumption rate
- OP50
- E. coli strain
- RNAi
- RNA interference
- OXPHOS
- oxidative phosphorylation
- ROS
- reactive oxygen species
- RQC
- ribosome-associated quality control
- SOD
- superoxide dismutase
- SRC
- spare respiratory capacity
- UPRmt
- mitochondrial unfolded protein response
