Senescence-associated Cdkn1a (p21) is upregulated in rodent dorsal root ganglion neurons across lesion-based neuropathic pain models

Senescence of peripheral sensory neurons has recently been associated with increased nociceptive signalling and pain chronification. Whether this association is found across pain conditions and independent study settings remains to be investigated. In this study, we made use of publicly available whole-genome transcriptome data sets on rodent dorsal root ganglion (DRG) tissue to investigate pain-related peripheral sensory neuron senescence across pain models and independent study settings. We focused on Cdkn1a (p21) and Cdkn2a (p16) expression levels as two widely-used senescence markers, and to explore their potential role in peripheral sensory neuron senescence. We found that Cdkn1a but not Cdkn2a RNA is significantly increased across different axotomy- and lesion-based neuropathic pain models, but less consistent in other pain models including inflammatory pain. We observed a sex-dependent effect of Cdkn1a upregulation following nerve injury, with significantly increased Cdkn1a RNA levels in DRG cells from female but not male rats. Lastly, Cdkn1a RNA levels are increased among all DRG neuronal subtypes, seem to reach their maximum three to seven days following nerve injury, and afterwards go back to baseline. These data suggest that Cdkn1a upregulation in DRG neurons is a widespread response to nerve injury that is found across independent study settings. SummaryAnalysis of publicly available whole-genome transcriptome data sets shows that senescence-associated Cdkn1a but not Cdkn2a expression is upregulated in DRG neurons across neuropathic pain models.