Caudal Granular Insular Cortex to Somatosensory Cortex I: A Critical Pathway for the Transition of Acute to Chronic Pain, 2026, Ball et al.

[ME/CFS Science Blog]

Abstract​

Allodynia (perceiving touch as painful) is an enduring symptom of neuropathic pain. While acute pain is initiated by afferent signaling from the periphery to spinal cord, pain chronification recruits ongoing activity in supraspinal sites. One such site that has been proposed to be important in pain chronification is the caudal granular insular cortex (CGIC). The present studies of allodynia in response to sciatic nerve injury in male and female rats focus on the role of CGIC in pain chronification by analyzing: circuit-specific mGreenLantern expression to define CGIC-to-somatosensory cortex I (SI) projections; behavioral and electrophysiological effects of chemogenetic (DREADD) excitation and inhibition of CGIC; behavioral and immediate-early gene effects of pathway-specific activation and inhibition of CGIC-to-SI projections; and mGreenLantern expression in dendritic arbors of CGIC-to-SI projection neurons to assess CGIC dendritic spine changes following neuropathic pain. These studies demonstrate that signals from CGIC-to-SI are necessary for neuropathic pain. Nerve injury induces plasticity in CGIC dendritic spine morphology, multiweek chemogenetic inhibition of CGIC or CGIC-to-SI projection neurons produces an enduring reversal of neuropathic pain, and DREADD-induced excitation of this pathway in non-neuropathic rats induces allodynia and increases c-Fos expression in CGIC, SI, and pain responsive laminae in spinal cord dorsal horn. Together with recent findings showing that SI modifies incoming nociceptive and touch information, these data demonstrate that input from CGIC-to-SI input shapes SI gating of nociceptive signals and promotes the transition to chronic pain following peripheral nerve injury.

Link:

Caudal Granular Insular Cortex to Somatosensory Cortex I: A Critical Pathway for the Transition of Acute to Chronic Pain - PubMed

Allodynia (perceiving touch as painful) is an enduring symptom of neuropathic pain. While acute pain is initiated by afferent signaling from the periphery to spinal cord, pain chronification recruits ongoing activity in supraspinal sites. One such site that has been proposed to be important in...

pubmed.ncbi.nlm.nih.gov

 

[Axel]

« L’inhibition chémogénétique sur plusieurs semaines des neurones de projection CGIC ou CGIC-SI produit une inversion durable de la douleur neuropathique. »

This isn’t the first time I’ve come across the observation in studies that a certain amount of time is needed for brain cells to return to normal functioning.
In this case, the aim is to inhibit neuronal activity, which seems to act as an amplifier (or lowers the sensitivity threshold), if I understand correctly, but “several weeks” are required.