Abstract

Trigeminal afferents containing glutamate and/or substance P (SP) convey noxious input from orofacial regions to the dorsal horn of trigeminal nucleus caudalis (Vc). The postsynaptic effects of glutamate released from these terminals are partially mediated through the NMDA receptor and can be inhibited by ligands of the mu opiate receptor (muOR).
Three specific aims of this proposal will examine the cellular substrates for potential function of the NMDA and muORs in the rat trigeminal dorsal horn using electron microscopic immunocytochemistry.
Aim 1 a will test the hypothesis that NMDA receptors are located within neurons postsynaptic to SP terminals, supporting the notion that agonists of the NMDA receptor facilitate the postsynaptic effects of SP on second-order neurons.
Aim 1 b will determine if muORs are contained within SP terminals, which would imply that the antinociceptive effects of muOR ligands can be attributed to direct modulation of SP release rather than to actions on interneurons.
Aim 2 will examine the localization of NMDA receptors and muORs relative to trigeminothalamic and trigeminoparabrachial neurons that are known to be critical for the perception of head pain. These studies will use retrograde tracing from selected regions combined with immunocytochemical receptor localization. These experiments will test the hypotheses that: (a) NMDA receptors located on the plasma membranes of trigeminothalamic neurons are a substrate for glutamatergic excitation of these neurons; and (b) muORs on these cells are a potential substrate for antinociception. Preferential localization of receptors on cells projecting to thalamus may suggest models for targeted modulation of nociceptive transmission.
Aim 3 will compare the subcellular localization of these receptors (NMDA and muOR) in normal and morphine tolerant rats. The muOR is critical for both the analgesia and tolerance produced by morphine and antagonists of the NMDA receptor can block morphine tolerance. These studies will determine if there is a change in receptor density and/or subcellular redistribution (e.g. shift of receptor from membrane to intracellular sites) that may be a mechanism for morphine tolerance. The experiments outlined in this proposal will demonstrate the subcellular localization of NMDA receptors and muORs in trigeminal nociceptive pathways which may be used as targets for new therapeutic strategies to control trigeminal pain, including tooth pain and headache.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Research Project (R01)
Project #
5R01DE012640-02
Application #
6150539
Study Section
Special Emphasis Panel (ZRG1-IFCN-4 (01))
Program Officer
Kousvelari, Eleni
Project Start
1999-02-01
Project End
2000-10-14
Budget Start
2000-02-01
Budget End
2000-10-14
Support Year
2
Fiscal Year
2000
Total Cost
$86,688
Indirect Cost

  Institution

Name
Weill Medical College of Cornell University
Department
Neurology
Type
Schools of Medicine
DUNS #
201373169
City
New York
State
NY
Country
United States
Zip Code
10065

  Publications

Hegarty, Deborah M; David, Larry L; Aicher, Sue A (2018) Lacrimal Gland Denervation Alters Tear Protein Composition and Impairs Ipsilateral Eye Closures and Corneal Nociception. Invest Ophthalmol Vis Sci 59:5217-5224
Winters, Bryony L; Gregoriou, Gabrielle C; Kissiwaa, Sarah A et al. (2017) Endogenous opioids regulate moment-to-moment neuronal communication and excitability. Nat Commun 8:14611
Aicher, Sue A; Hermes, Sam M; Hegarty, Deborah M (2015) Denervation of the Lacrimal Gland Leads to Corneal Hypoalgesia in a Novel Rat Model of Aqueous Dry Eye Disease. Invest Ophthalmol Vis Sci 56:6981-9
Hegarty, Deborah M; Hermes, Sam M; Largent-Milnes, Tally M et al. (2014) Capsaicin-responsive corneal afferents do not contain TRPV1 at their central terminals in trigeminal nucleus caudalis in rats. J Chem Neuroanat 61-62:1-12
Largent-Milnes, Tally M; Hegarty, Deborah M; Aicher, Sue A et al. (2014) Physiological temperatures drive glutamate release onto trigeminal superficial dorsal horn neurons. J Neurophysiol 111:2222-31
Aicher, Sue A; Hegarty, Deborah M; Hermes, Sam M (2014) Corneal pain activates a trigemino-parabrachial pathway in rats. Brain Res 1550:18-26
Aicher, Sue A; Hermes, Sam M; Whittier, Kelsey L et al. (2012) Descending projections from the rostral ventromedial medulla (RVM) to trigeminal and spinal dorsal horns are morphologically and neurochemically distinct. J Chem Neuroanat 43:103-11
Wilson-Poe, A R; Morgan, M M; Aicher, S A et al. (2012) Distribution of CB1 cannabinoid receptors and their relationship with mu-opioid receptors in the rat periaqueductal gray. Neuroscience 213:191-200
Aicher, S A; Hermes, S M; Hegarty, D M (2012) Corneal afferents differentially target thalamic- and parabrachial-projecting neurons in spinal trigeminal nucleus caudalis. Neuroscience :
Macey, T A; Ingram, S L; Bobeck, E N et al. (2010) Opioid receptor internalization contributes to dermorphin-mediated antinociception. Neuroscience 168:543-50

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