AI Article Synopsis
- Dystonia is a movement disorder marked by involuntary muscle contractions, with various genetic and phenotypic forms, raising questions about shared causing mechanisms among them.
- Mutations in the THAP1 gene are linked to a specific type of dystonia (DYT6), yet the gene's neural targets and how it leads to dystonia remain largely unexplored.
- Using RNA-Seq in mouse models, researchers found that mutations lead to dysregulation in key biological pathways related to neuronal function, suggesting that these pathways could be common factors in different inherited dystonia types.
Article Abstract
Dystonia is characterized by involuntary muscle contractions. Its many forms are genetically, phenotypically and etiologically diverse and it is unknown whether their pathogenesis converges on shared pathways. Mutations in THAP1 [THAP (Thanatos-associated protein) domain containing, apoptosis associated protein 1], a ubiquitously expressed transcription factor with DNA binding and protein-interaction domains, cause dystonia, DYT6. There is a unique, neuronal 50-kDa Thap1-like immunoreactive species, and Thap1 levels are auto-regulated on the mRNA level. However, THAP1 downstream targets in neurons, and the mechanism via which it causes dystonia are largely unknown. We used RNA-Seq to assay the in vivo effect of a heterozygote Thap1 C54Y or ΔExon2 allele on the gene transcription signatures in neonatal mouse striatum and cerebellum. Enriched pathways and gene ontology terms include eIF2α Signaling, Mitochondrial Dysfunction, Neuron Projection Development, Axonal Guidance Signaling, and Synaptic LongTerm Depression, which are dysregulated in a genotype and tissue-dependent manner. Electrophysiological and neurite outgrowth assays were consistent with those enrichments, and the plasticity defects were partially corrected by salubrinal. Notably, several of these pathways were recently implicated in other forms of inherited dystonia, including DYT1. We conclude that dysfunction of these pathways may represent a point of convergence in the pathophysiology of several forms of inherited dystonia.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5798844 | PMC |
| http://dx.doi.org/10.1371/journal.pgen.1007169 | DOI Listing |
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