Optogenetic Activation of Brainstem Serotonergic Neurons Induces Persistent Pain Sensitization

Cai, Yuanheng; Wang, Wei; Hou, Yuan Yuan; Pan, Zhizhong Z.

doi:10.1186/1744-8069-10-70

Cited by 85 publications

(76 citation statements)

References 47 publications

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“…8 Furthermore, activation of at least one subset of neutral cells, serotonergic neurons located within the RVM, produces hyperalgesia. 6,13 Finally, the ability of RVM injections of CoCl 2 to produce analgesia after derm-sap treatment is consistent with a compensatory increase in tonic GABAergic input onto the off-cells. The release from inhibition is likely sufficient to activate off-cells under these experimental conditions because the CoCl 2 treatment would also block synaptic excitatory inputs.…”

Section: Discussionsupporting

confidence: 53%

Alterations in the rostral ventromedial medulla after the selective ablation of μ-opioid receptor expressing neurons

Harasawa

Johansen

Fields

et al. 2016

Pain

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The rostral ventromedial medulla (RVM) exerts both inhibitory and excitatory controls over nociceptive neurons in the spinal cord and medullary dorsal horn. Selective ablation of mu-opioid receptor (MOR)-expressing neurons in the RVM using saporin conjugated to the MOR agonist dermorphin–saporin (derm-sap) attenuates stress and injury–induced behavioral hypersensitivity, yet the effect of RVM derm-sap on the functional integrity of the descending inhibitory system and the properties of RVM neurons remain unknown. Three classes of RVM neurons (on-cells, off-cells, and neutral cells) have been described with distinct responses to noxious stimuli and MOR agonists. Using single unit recording in lightly anesthetized rats, RVM neurons were characterized after microinjections of derm-sap or saporin. Derm-sap treatment resulted in a reduction in on-cells and off-cells when compared to saporin controls (P < 0.05). The number of neutral cells remained unchanged. After derm-sap treatment, RVM microinjections of the glutamate receptor agonist homocysteic acid increased tail-flick latencies, whereas the MOR agonist DAMGO had no effect. Furthermore, electrical stimulation of the periaqueductal gray produced analgesia in both derm-sap and saporin controls with similar thresholds. Microinjection of kynurenic acid, a glutamate receptor antagonist, into the RVM disrupted periaqueductal gray stimulation–produced analgesia in both saporin-treated and derm-sap– treated rats. These results indicate that MOR-expressing neurons in the RVM are not required for analgesia produced by either direct or indirect activation of neurons in the RVM.

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Section: Discussionsupporting

confidence: 53%

Alterations in the rostral ventromedial medulla after the selective ablation of μ-opioid receptor expressing neurons

Harasawa

Johansen

Fields

et al. 2016

Pain

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show abstract

“…This bimodal control occurs via distinct excitatory (on cells) and inhibitory (off cells) neurons residing in the rostral ventromedial medulla, which receive input commands from both the midbrain and the spinal cord, and in turn regulate output to the dorsal horn of the spinal cord where incoming nociceptive signals are first integrated 30. In animal studies, alterations in descending control can induce hyperalgesia in the absence of peripheral injury 31 32. Neural circuit tracing studies provide an anatomical framework for airway sensory pathways innervating the descending pain modulatory system25 33 which in turn regulate medullary brainstem regions that process airway sensory inputs 34.…”

Section: Discussionmentioning

confidence: 99%

Neural correlates of cough hypersensitivity in humans: evidence for central sensitisation and dysfunctional inhibitory control

Ando

Smallwood

McMahon

et al. 2016

Thorax

154

148

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“…One is ascending, involved in affective processing, and is constituted by the dorsal and median raphe nuclei. The other is descending and modulates nociceptive processing in the spinal cord (17,18). To determine whether the ascending serotonergic pathways mediated the aversion, we deleted Ptger3 receptors in the region of the dorsal raphe nucleus.…”

Section: Resultsmentioning

confidence: 99%

Prostaglandin-mediated inhibition of serotonin signaling controls the affective component of inflammatory pain

Singh¹,

Zajdel²,

Mirrasekhian³

et al. 2017

Journal of Clinical Investigation

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Pain is fundamentally unpleasant and induces a negative affective state. The affective component of pain is mediated by circuits that are distinct from those mediating the sensory-discriminative component. Here, we have investigated the role of prostaglandins in the affective dimension of pain using a rodent pain assay based on conditioned place aversion to formalin injection, an inflammatory noxious stimulus. We found that place aversion induced by inflammatory pain depends on prostaglandin E-2 that is synthesized by cyclooxygenase 2 in neural cells. Further, mice lacking the prostaglandin E-2 receptor EP3 selectively on serotonergic cells or selectively in the area of the dorsal raphe nucleus failed to form an aversion to formalininduced pain, as did mice lacking the serotonin transporter. Chemogenetic manipulations revealed that EP3 receptor activation elicited conditioned place aversion to pain via inhibition of serotonergic neurons. In contrast to their role in inflammatory pain aversion, EP3 receptors on serotonergic cells were dispensable for acute nociceptive behaviors and for aversion induced by thermal pain or a kappa opioid receptor agonist. Collectively, our findings show that prostaglandin-mediated modulation of serotonergic transmission controls the affective component of inflammatory pain.

Funding Agencies|European Research Council; Swedish Medical Research Council; Knut and Alice Wallenberg Foundation; Swedish Brain Foundation; County Council of Ostergotland; National Institute of Neurological Disorders and Stroke (NINDS)

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Optogenetic Activation of Brainstem Serotonergic Neurons Induces Persistent Pain Sensitization

Cited by 85 publications

References 47 publications

Alterations in the rostral ventromedial medulla after the selective ablation of μ-opioid receptor expressing neurons

Alterations in the rostral ventromedial medulla after the selective ablation of μ-opioid receptor expressing neurons

Neural correlates of cough hypersensitivity in humans: evidence for central sensitisation and dysfunctional inhibitory control

Prostaglandin-mediated inhibition of serotonin signaling controls the affective component of inflammatory pain

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