Literature DB >> 33555256

Loss of cortical control over the descending pain modulatory system determines the development of the neuropathic pain state in rats.

Robert Ar Drake1, Kenneth A Steel2, Richard Apps1, Bridget M Lumb1, Anthony E Pickering1,3.   

Abstract

The loss of descending inhibitory control is thought critical to the development of chronic pain but what causes this loss in function is not well understood. We have investigated the dynamic contribution of prelimbic cortical neuronal projections to the periaqueductal grey (PrL-P) to the development of neuropathic pain in rats using combined opto- and chemogenetic approaches. We found PrL-P neurons to exert a tonic inhibitory control on thermal withdrawal thresholds in uninjured animals. Following nerve injury, ongoing activity in PrL-P neurons masked latent hypersensitivity and improved affective state. However, this function is lost as the development of sensory hypersensitivity emerges. Despite this loss of tonic control, opto-activation of PrL-P neurons at late post-injury timepoints could restore the anti-allodynic effects by inhibition of spinal nociceptive processing. We suggest that the loss of cortical drive to the descending pain modulatory system underpins the expression of neuropathic sensitisation after nerve injury.
© 2021, Drake et al.

Entities:  

Keywords:  descending pain modulation; neuropathic; neuroscience; pain; periaquductal gray; prefrontal cortex; rat

Mesh:

Year:  2021        PMID: 33555256      PMCID: PMC7895525          DOI: 10.7554/eLife.65156

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


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