Patient-specific variants of NFU1/NFU-1 disrupt cholinergic signaling in a model of multiple mitochondrial dysfunctions syndrome 1.
Peter A KroppPhilippa RogersSydney E KellyRebecca McWhirterWillow D GoffIan M LevitanDavid M MillerAndy GoldenPublished in: Disease models & mechanisms (2023)
Neuromuscular dysfunction is a common feature of mitochondrial diseases and frequently presents as ataxia, spasticity and/or dystonia, all of which can severely impact individuals with mitochondrial diseases. Dystonia is one of the most common symptoms of multiple mitochondrial dysfunctions syndrome 1 (MMDS1), a disease associated with mutations in the causative gene (NFU1) that impair iron-sulfur cluster biogenesis. We have generated Caenorhabditis elegans strains that recreated patient-specific point variants in the C. elegans ortholog (nfu-1) that result in allele-specific dysfunction. Each of these mutants, Gly147Arg and Gly166Cys, have altered acetylcholine signaling at neuromuscular junctions, but opposite effects on activity and motility. We found that the Gly147Arg variant was hypersensitive to acetylcholine and that knockdown of acetylcholine release rescued nearly all neuromuscular phenotypes of this variant. In contrast, we found that the Gly166Cys variant caused predominantly postsynaptic acetylcholine hypersensitivity due to an unclear mechanism. These results are important for understanding the neuromuscular conditions of MMDS1 patients and potential avenues for therapeutic intervention.
Keyphrases
- oxidative stress
- early onset
- copy number
- end stage renal disease
- deep brain stimulation
- escherichia coli
- chronic kidney disease
- newly diagnosed
- randomized controlled trial
- ejection fraction
- magnetic resonance
- spinal cord injury
- machine learning
- deep learning
- peritoneal dialysis
- gene expression
- prognostic factors
- genome wide
- pseudomonas aeruginosa
- magnetic resonance imaging
- drug induced
- physical activity
- transcription factor
- sleep quality
- climate change
- genome wide analysis