A craniofacial-specific monosynaptic circuit enables heightened affective pain

Erica Rodriguez; Katsuyasu Sakurai; Jennie Xu; Yong Chen; Koji Toda; Shengli Zhao; Bao Xia Han; David Ryu; Henry Yin; Wolfgang Liedtke; Fan Wang

doi:10.1038/s41593-017-0012-1

A craniofacial-specific monosynaptic circuit enables heightened affective pain

Erica Rodriguez, Katsuyasu Sakurai, Jennie Xu, Yong Chen, Koji Toda, Shengli Zhao, Bao Xia Han, David Ryu, Henry Yin, Wolfgang Liedtke, Fan Wang

研究成果: Article › 査読

117 被引用数 (Scopus)

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Humans often rank craniofacial pain as more severe than body pain. Evidence suggests that a stimulus of the same intensity induces stronger pain in the face than in the body. However, the underlying neural circuitry for the differential processing of facial versus bodily pain remains unknown. Interestingly, the lateral parabrachial nucleus (PB_L), a critical node in the affective pain circuit, is activated more strongly by noxious stimulation of the face than of the hindpaw. Using a novel activity-dependent technology called CANE developed in our laboratory, we identified and selectively labeled noxious-stimulus-activated PB_L neurons and performed comprehensive anatomical input-output mapping. Surprisingly, we uncovered a hitherto uncharacterized monosynaptic connection between cranial sensory neurons and the PB_L-nociceptive neurons. Optogenetic activation of this monosynaptic craniofacial-to-PB_L projection induced robust escape and avoidance behaviors and stress calls, whereas optogenetic silencing specifically reduced facial nociception. The monosynaptic circuit revealed here provides a neural substrate for heightened craniofacial affective pain.

本文言語	English
ページ（範囲）	1734-1743
ページ数	10
ジャーナル	Nature Neuroscience
巻	20
号	12
DOI	https://doi.org/10.1038/s41593-017-0012-1
出版ステータス	Published - 2017 12月 1
外部発表	はい

ASJC Scopus subject areas

神経科学（全般）

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10.1038/s41593-017-0012-1

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abstract = "Humans often rank craniofacial pain as more severe than body pain. Evidence suggests that a stimulus of the same intensity induces stronger pain in the face than in the body. However, the underlying neural circuitry for the differential processing of facial versus bodily pain remains unknown. Interestingly, the lateral parabrachial nucleus (PBL), a critical node in the affective pain circuit, is activated more strongly by noxious stimulation of the face than of the hindpaw. Using a novel activity-dependent technology called CANE developed in our laboratory, we identified and selectively labeled noxious-stimulus-activated PBL neurons and performed comprehensive anatomical input-output mapping. Surprisingly, we uncovered a hitherto uncharacterized monosynaptic connection between cranial sensory neurons and the PBL-nociceptive neurons. Optogenetic activation of this monosynaptic craniofacial-to-PBL projection induced robust escape and avoidance behaviors and stress calls, whereas optogenetic silencing specifically reduced facial nociception. The monosynaptic circuit revealed here provides a neural substrate for heightened craniofacial affective pain.",

author = "Erica Rodriguez and Katsuyasu Sakurai and Jennie Xu and Yong Chen and Koji Toda and Shengli Zhao and Han, {Bao Xia} and David Ryu and Henry Yin and Wolfgang Liedtke and Fan Wang",

note = "Funding Information: We thank J. Takatoh for helping with a method to quantify axon innervation densities, K. Tschida and T. Gibson for helping with vocalization quantification and analysis, and V. Prevosto for helping with statistics. We also thank T. Gibson, M. Fu, K. Tschida, T. Stanek, V. Prevosto, and R. R. Ji for providing input and support throughout the project, and S. Lisberger and R. Mooney for critical reading of this manuscript. E.R. is supported by a F31 DE025197-03 fellowship. Y.C. is supported by K12DE022793. W.L. is supported by DE018549. This work is supported by NIH Grant DP1MH103908 to F.W. Publisher Copyright: {\textcopyright} 2017 The Author(s).",

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AU - Rodriguez, Erica

AU - Sakurai, Katsuyasu

AU - Xu, Jennie

AU - Chen, Yong

AU - Toda, Koji

AU - Zhao, Shengli

AU - Han, Bao Xia

AU - Ryu, David

AU - Yin, Henry

AU - Liedtke, Wolfgang

AU - Wang, Fan

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PY - 2017/12/1

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N2 - Humans often rank craniofacial pain as more severe than body pain. Evidence suggests that a stimulus of the same intensity induces stronger pain in the face than in the body. However, the underlying neural circuitry for the differential processing of facial versus bodily pain remains unknown. Interestingly, the lateral parabrachial nucleus (PBL), a critical node in the affective pain circuit, is activated more strongly by noxious stimulation of the face than of the hindpaw. Using a novel activity-dependent technology called CANE developed in our laboratory, we identified and selectively labeled noxious-stimulus-activated PBL neurons and performed comprehensive anatomical input-output mapping. Surprisingly, we uncovered a hitherto uncharacterized monosynaptic connection between cranial sensory neurons and the PBL-nociceptive neurons. Optogenetic activation of this monosynaptic craniofacial-to-PBL projection induced robust escape and avoidance behaviors and stress calls, whereas optogenetic silencing specifically reduced facial nociception. The monosynaptic circuit revealed here provides a neural substrate for heightened craniofacial affective pain.

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A craniofacial-specific monosynaptic circuit enables heightened affective pain

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