RNA profiling of human dorsal root ganglia reveals sex-differences in mechanisms promoting neuropathic pain.
Pradipta R RayStephanie ShiersJames P CarusoDiana Tavares-FerreiraIshwarya SankaranarayananMegan L UhelskiYan LiRobert Y NorthClaudio TatsuiGregory DussorMichael D D BurtonPatrick M DoughertyTheodore John PricePublished in: Brain : a journal of neurology (2022)
Neuropathic pain is a leading cause of high impact pain, is often disabling and is poorly managed by current therapeutics. Here we focused on a unique group of neuropathic pain patients undergoing thoracic vertebrectomy where the dorsal root ganglia is removed as part of the surgery allowing for molecular characterization and identification of mechanistic drivers of neuropathic pain independently of preclinical models. Our goal was to quantify whole transcriptome RNA abundances using RNA-seq in pain-associated human dorsal root ganglia from these patients, allowing comprehensive identification of molecular changes in these samples by contrasting them with non-pain associated dorsal root ganglia. We sequenced 70 human dorsal root ganglia, and among these 50 met inclusion criteria for sufficient neuronal mRNA signal for downstream analysis. Our expression analysis revealed profound sex differences in differentially expressed genes including increase of IL1B, TNF, CXCL14, and OSM in male and including CCL1, CCL21, PENK and TLR3 in female dorsal root ganglia associated with neuropathic pain. Co-expression modules revealed enrichment in members of JUN-FOS signalling in males, and centromere protein coding genes in females. Neuro-immune signalling pathways revealed distinct cytokine signalling pathways associated with neuropathic pain in males (OSM, LIF, SOCS1) and females (CCL1, CCL19, CCL21). We validated cellular expression profiles of a subset of these findings using RNAscope in situ hybridization. Our findings give direct support for sex differences in underlying mechanisms of neuropathic pain in patient populations.
Keyphrases
- neuropathic pain
- spinal cord
- single cell
- rna seq
- spinal cord injury
- endothelial cells
- liver fibrosis
- patients undergoing
- liver injury
- induced pluripotent stem cells
- genome wide
- pluripotent stem cells
- minimally invasive
- newly diagnosed
- poor prognosis
- binding protein
- immune response
- rheumatoid arthritis
- end stage renal disease
- genome wide identification
- gene expression
- case report
- transcription factor
- stem cells
- genetic diversity
- patient reported outcomes
- coronary artery disease
- amino acid
- pain management
- data analysis
- subarachnoid hemorrhage
- acute coronary syndrome
- single molecule