Next Generation Sequencing and Electromyography Reveal the Involvement of the P2RX6 Gene in Myopathy.
Mirella VinciGirolamo Aurelio VitelloDonatella GrecoSimone TreccarichiAlda RagalmutoAntonino MusumeciAntonio FalleaConcetta FedericoFrancesco CalìSalvatore SacconeMaurizio EliaPublished in: Current issues in molecular biology (2024)
Ion channelopathies result from impaired ion channel protein function, due to mutations affecting ion transport across cell membranes. Over 40 diseases, including neuropathy, pain, migraine, epilepsy, and ataxia, are associated with ion channelopathies, impacting electrically excitable tissues and significantly affecting skeletal muscle. Gene mutations affecting transmembrane ionic flow are strongly linked to skeletal muscle disorders, particularly myopathies, disrupting muscle excitability and contraction. Electromyography (EMG) analysis performed on a patient who complained of weakness and fatigue revealed the presence of primary muscular damage, suggesting an early-stage myopathy. Whole exome sequencing (WES) did not detect potentially causative variants in known myopathy-associated genes but revealed a novel homozygous deletion of the P2RX6 gene likely disrupting protein function. The P2RX6 gene, predominantly expressed in skeletal muscle, is an ATP-gated ion channel receptor belonging to the purinergic receptors (P2RX) family. In addition, STRING pathways suggested a correlation with more proteins having a plausible role in myopathy. No previous studies have reported the implication of this gene in myopathy. Further studies are needed on patients with a defective ion channel pathway, and the use of in vitro functional assays in suppressing P2RX6 gene expression will be required to validate its functional role.
Keyphrases
- skeletal muscle
- copy number
- genome wide
- gene expression
- late onset
- genome wide identification
- single cell
- early stage
- insulin resistance
- dna methylation
- muscular dystrophy
- oxidative stress
- chronic pain
- early onset
- case report
- high throughput
- mesenchymal stem cells
- adipose tissue
- metabolic syndrome
- physical activity
- radiation therapy
- type diabetes
- protein protein
- amino acid
- depressive symptoms
- pain management
- case control
- cell therapy
- resistance training
- ionic liquid
- duchenne muscular dystrophy
- myasthenia gravis
- high intensity
- transcranial direct current stimulation
- bioinformatics analysis