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Sex‐dependent pronociceptive role of spinal α<sub>5</sub>‐GABA<sub>A</sub> receptor and its epigenetic regulation in neuropathic rodents

Úrzula Franco‐Enzástiga, Guadalupe García, Janet Murbartián, Rodrigo González‐Barrios, Ana Belen Salinas-Abarca, Beatríz Sánchez-Hernández, Diana Tavares‐Ferreira, Luis A. Herrera, Paulino Barragán‐Iglesias, Rodolfo Delgado‐Lezama, Theodore J. Price, Vinicio Granados‐Soto

2020Journal of Neurochemistry45 citationsDOIOpen Access PDF

Abstract

Abstract Extrasynaptic α 5 ‐subunit containing GABA A (α 5 ‐GABA A ) receptors participate in chronic pain. Previously, we reported a sex difference in the action of α 5 ‐GABA A receptors in dysfunctional pain. However, the underlying mechanisms remain unknown. The aim of this study was to examine this sexual dimorphism in neuropathic rodents and the mechanisms involved. Female and male Wistar rats or ICR mice were subjected to nerve injury followed by α 5 ‐GABA A receptor inverse agonist intrathecal administration, L‐655,708. The drug produced an antiallodynic effect in nerve‐injured female rats and mice, and a lower effect in males. We hypothesized that changes in α 5 ‐GABA A receptor, probably influenced by hormonal and epigenetic status, might underlie this sex difference. Thus, we performed qPCR and western blot. Nerve injury increased α 5 ‐GABA A mRNA and protein in female dorsal root ganglia (DRG) and decreased them in DRG and spinal cord of males. To investigate the hormonal influence over α 5 ‐GABA A receptor actions, we performed nerve injury to ovariectomized rats and reconstituted them with 17β‐estradiol (E2). Ovariectomy abrogated L‐655,708 antiallodynic effect and E2 restored it. Ovariectomy decreased α 5 ‐GABA A receptor and estrogen receptor α protein in DRG of neuropathic female rats, while E2 enhanced them. Since DNA methylation might contribute to α 5 ‐GABA A receptor down‐regulation in males, we examined CpG island DNA methylation of α 5 ‐GABA A receptor coding gene through pyrosequencing. Nerve injury increased methylation in male, but not female rats. Pharmacological inhibition of DNA methyltransferases increased α 5 ‐GABA A receptor and enabled L‐655,708 antinociceptive effect in male rats. These results suggest that α 5 ‐GABA A receptor is a suitable target to treat chronic pain in females. image

Topics & Concepts

Internal medicineEndocrinologyNeuropathic painReceptorAllodyniaEstrogen receptorAgonistGABAB receptorDNA methylationOvariectomized ratNerve injuryGABAA receptorBiologyMedicineEstrogenNociceptionPharmacologyNeuroscienceGene expressionHyperalgesiaBreast cancerCancerGeneBiochemistryPain Mechanisms and TreatmentsNeuroscience and Neuropharmacology ResearchNeuroendocrine regulation and behavior