Tooth extraction-induced internalization of the substance P receptor in trigeminal nucleus and spinal cord neurons: imaging the neurochemistry of dental pain

Tooth extraction-induced internalization of the substance P receptor in trigeminal nucleus and spinal cord neurons: imaging the neurochemistry of dental pain

Although pains arising from the craniofacial complex can be severe and debilitating, relatively little is known about the peripheral and central mechanisms that generate and maintain orofacial pain. To better understand the neurons in the trigeminal complex and spinal cord that are activated followi...

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Veröffentlicht in:Pain (Amsterdam) 2002, Vol.95 (1), p.175-186
Hauptverfasser: Sabino, Mary Ann C, Honore, Prisca, Rogers, Scott D, Mach, David B, Luger, Nancy M, Mantyh, Patrick W
Format: Artikel
Sprache:eng
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Animals
Male
Medullary dorsal horn
Neurokinin-1 receptor
Neurons - chemistry
Neurons - metabolism
Nociception
Orofacial pain
Pain - metabolism
Rats
Rats, Sprague-Dawley
Receptors, Neurokinin-1 - analysis
Receptors, Neurokinin-1 - metabolism
Spinal Cord - chemistry
Spinal Cord - metabolism
Substance P - analysis
Substance P - metabolism
Tooth Extraction
Trigeminal Nucleus, Spinal - chemistry
Trigeminal Nucleus, Spinal - metabolism
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container_end_page 186
container_issue 1
container_start_page 175
container_title Pain (Amsterdam)
container_volume 95
creator Sabino, Mary Ann C
Honore, Prisca
Rogers, Scott D
Mach, David B
Luger, Nancy M
Mantyh, Patrick W
description Although pains arising from the craniofacial complex can be severe and debilitating, relatively little is known about the peripheral and central mechanisms that generate and maintain orofacial pain. To better understand the neurons in the trigeminal complex and spinal cord that are activated following nociceptive stimuli to the orofacial complex, we examined substance P (SP) induced internalization of substance P receptors (SPR) in neurons following dental extraction in the rat. Unilateral gingival reflection or surgical extraction of a rat maxillary incisor or molar was performed and tissues harvested at various time points post-extraction. Immunohistochemical analysis of brainstem and cervical spinal cord sections was performed using an anti-SPR antibody and confocal imaging. Both the number and location of neurons showing SPR internalization was dependent on the location and extent of tissue injury. Whereas extraction of the incisor induced internalization of SPR in neurons bilaterally in nucleus caudalis and the spinal cord, extraction of the molar induced strictly unilateral internalization of SPR-expressing neurons in the same brain structures. Minor tissue injury (retraction of the gingiva) activated SPR neurons located in lamina I whereas more extensive and severe tissue injury (incisor or molar extraction) induced extensive SPR internalization in neurons located in both laminae I and III–V. The rostrocaudal extent of the SPR internalization was also correlated with the extent of tissue injury. Thus, following relatively minor tissue injury (gingival reflection) neurons showing SPR internalization were confined to the nucleus caudalis while procedures which cause greater tissue injury (incisor or molar extraction), neurons showing SPR internalization extended from the interpolaris/caudalis transition zone through the C7 spinal level. Defining the population of neurons activated in orofacial pain and whether analgesics modify the activation of these neurons should provide insight into the mechanisms that generate and maintain acute and chronic orofacial pain.
doi_str_mv 10.1016/S0304-3959(01)00397-9
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Minor tissue injury (retraction of the gingiva) activated SPR neurons located in lamina I whereas more extensive and severe tissue injury (incisor or molar extraction) induced extensive SPR internalization in neurons located in both laminae I and III–V. The rostrocaudal extent of the SPR internalization was also correlated with the extent of tissue injury. Thus, following relatively minor tissue injury (gingival reflection) neurons showing SPR internalization were confined to the nucleus caudalis while procedures which cause greater tissue injury (incisor or molar extraction), neurons showing SPR internalization extended from the interpolaris/caudalis transition zone through the C7 spinal level. 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source MEDLINE; Journals@Ovid Complete; ScienceDirect Journals (5 years ago - present)
subjects Animals
Male
Medullary dorsal horn
Neurokinin-1 receptor
Neurons - chemistry
Neurons - metabolism
Nociception
Orofacial pain
Pain - metabolism
Rats
Rats, Sprague-Dawley
Receptors, Neurokinin-1 - analysis
Receptors, Neurokinin-1 - metabolism
Spinal Cord - chemistry
Spinal Cord - metabolism
Substance P - analysis
Substance P - metabolism
Tooth Extraction
Trigeminal Nucleus, Spinal - chemistry
Trigeminal Nucleus, Spinal - metabolism
title Tooth extraction-induced internalization of the substance P receptor in trigeminal nucleus and spinal cord neurons: imaging the neurochemistry of dental pain
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