The Parabrachial Nucleus Directly Channels Spinal Nociceptive Signals to the Intralaminar Thalamic Nuclei, but Not the Amygdala

Deng, Juan; Zhou, Hua; Lin, Jun-Kai; Shen, Zi-Xuan; Chen, Wenzhen; Wang, Lin-Han; Li, Qing; Mu, Di; Wei, Yichao; Xu, Xiaohong; Sun, Yan-Gang

doi:10.1016/j.neuron.2020.06.017

Cited by 85 publications

(100 citation statements)

References 58 publications

(117 reference statements)

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“…While lamina I AS neurons have been proposed to transmit sensory-discriminative information and are likely to be impaired in Phox2a cKO mice, a lack of motivation to respond to noxious stimuli-likely due to defects in Phox2a lamina V/LSN neurons-prevents us from testing this hypothesis. Our data, together with earlier studies, implicate lamina V/LSN neurons in directing motivated nocifensive behaviors via the spino-pBil-medial thalamus pathway (Bourgeais et al, 2001;Deng et al, 2020). Our observations are also in line with those made in mice with a loss of Tac1 spinal neurons (Huang et al, 2019), in that approximately 20% of Phox2a Deep neurons express Tac1, and so their loss may affect the transmission of motivational nociceptive information from the spinal cord to the brain.…”

Section: Phox2a As Neuron Function In Supraspinal Nociceptionsupporting

confidence: 91%

Phox2a Defines a Developmental Origin of the Anterolateral System in Mice and Humans

et al. 2020

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Section: Phox2a As Neuron Function In Supraspinal Nociceptionsupporting

confidence: 91%

Phox2a Defines a Developmental Origin of the Anterolateral System in Mice and Humans

et al. 2020

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“…Nociceptive information is encoded by spinal cord neurons that send a number of specific projections to the brain (Basbaum et al, 2009; Todd, 2010). One example is spinal projection neurons within the superficial layer of the spinal dorsal horn that express the Tacr1 gene (Barik et al, 2020; Chiang et al, 2020; Choi et al, 2020; Deng et al, 2020). To identify direct spino-recipient areas in the brain, we genetically labeled only the spinal Tacr1 neurons with tdTomato fluorescent protein by the triple crossing of Tacr1 Cre , Cdx2 FlpO , and Ai65 (Rosa-CAG-FrtSTOPFrt-LoxSTOPLox-tdTomato; dsTomato ) mice as described previously (Bourane et al, 2015) (Figure S1A).…”

Section: Resultsmentioning

confidence: 99%

“…Recent studies have shown that the lateral PBN receives direct nociceptive inputs from projection neurons within the spinal dorsal horn (Barik et al, 2020; Chiang et al, 2020; Choi et al, 2020; Deng et al, 2020). The dorsolateral PBN (PBdl) receives predominantly nociceptive inputs from the spinal cord and then projects to multiple limbic structures, such as the PAG, VMH, and ILN, thereby producing emotional and physiological changes in response to pain signals (Chiang et al, 2020; Deng et al, 2020). Although the PBdl does not directly project to the amygdala, it indirectly sends pain signals to the CeA through the PBel (Deng et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

“…The dorsolateral PBN (PBdl) receives predominantly nociceptive inputs from the spinal cord and then projects to multiple limbic structures, such as the PAG, VMH, and ILN, thereby producing emotional and physiological changes in response to pain signals (Chiang et al, 2020; Deng et al, 2020). Although the PBdl does not directly project to the amygdala, it indirectly sends pain signals to the CeA through the PBel (Deng et al, 2020). In particular, CGRP PBel neurons are critical for relaying aversive unconditioned stimuli to the CeA during aversive fear learning (Han et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

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Unified neural pathways that gate affective pain and multisensory innate threat signals to the amygdala

Kang

Liu

et al. 2020

Preprint

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Perception of aversive sensory stimuli such as pain and innate threat cues is essential for animal survival. The amygdala is critical for aversive sensory perception, and it has been suggested that multiple parallel pathways independently relay aversive cues from each sensory modality to the amygdala. However, a convergent pathway that relays multisensory aversive cues to the amygdala has not been identified. Here, we report that neurons expressing calcitonin gene-related peptide (CGRP) in the parvocellular subparafasicular thalamic nucleus (SPFp) are necessary and sufficient for affective-motivational pain perception by forming a spino-thalamo-amygdaloid pain pathway. In addition, we find that this thalamic CGRP pain pathway, together with well-known parabrachio-amygdaloid CGRP pain pathway, is critical for the perception of multisensory innate threat cues. The discovery of unified pathways that collectively gate aversive sensory stimuli from all sensory modalities may provide critical circuit-based insights for developing therapeutic interventions for affective pain- and innate fear-related disorders.

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“…PBN is an important pain relay station, connecting the upward pain conduction and downward pain regulation [26] . Sensory information about harmful stimuli travels from primary sensory neurons to PBN and then to regions of the brain associated with pain [4,27] . And many studies have reported that CGRP plays an important role in inflammatory pain [28][29][30] , the present study was aimed to evaluate the role of CGRP in pain regulation in PBN of inflammatory rats by harmful thermal and mechanical stimulation, and to investigate the involvement of CGRP receptors.…”

Section: Discussionmentioning

confidence: 99%

Effects of calcitonin gene-related peptide and its receptor on pain regulation in parabrachial nucleus of rats with inflammatory pain

2020

JCBSC

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Inflammatory pain is one of the most common types of pain in clinical practice. The parabrachial nucleus (PBN) is involved in the development of inflammatory pain. Many studies have shown that pain is related to neurotransmitters, such as calcitonin gene-related peptide (CGRP). Carrageenan was injected into the left soles of rats to make an inflammatory pain model. CGRP and CGRP8-37 were injected into the PBN of rats. The responses to thermal and mechanical stimulation of rats were measured by hot plate and Randall Selitto tests. The expression of CLR at mRNA and protein levels was detected with RT-PCR and western blotting. Our results found that injection of CGRP resulted in an obvious antinociceptive effect in inflammatory pain rats in a dose-dependent manner. The antinociceptive effect of CGRP is significantly reduced after the injection of CGRP 8-37, suggesting that CGRP receptor is involved in the antinociceptive effect of CGRP in PBN of inflammatory rats. Furthermore, the antinociceptive effect of CGRP in inflammatory pain rats was significantly lower than that of naive rats, the expression of mRNA and protein of CLR in PBN was also decreased in inflammatory pain rats. The results showed that CGRP induced antinociception in PBN of rats with inflammatory pain and CGRP receptor involved in. Inflammatory pain resulted in decreased levels of mRNA and protein expression of CGRP receptor, and the decrease of CGRP-induced antinociception. Effects of … Lin-Lin Wang et al.

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The Parabrachial Nucleus Directly Channels Spinal Nociceptive Signals to the Intralaminar Thalamic Nuclei, but Not the Amygdala

Cited by 85 publications

References 58 publications

Phox2a Defines a Developmental Origin of the Anterolateral System in Mice and Humans

Phox2a Defines a Developmental Origin of the Anterolateral System in Mice and Humans

Unified neural pathways that gate affective pain and multisensory innate threat signals to the amygdala

Effects of calcitonin gene-related peptide and its receptor on pain regulation in parabrachial nucleus of rats with inflammatory pain

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