Abstract

Numerous studies on the function of the opioid receptor-like (ORL1) receptor and its endogenous peptide ligand, nociceptin, have been performed in the central nervous system (CNS), yet few studies have focused on their functions in the peripheral nervous system. Our preliminary data show that ORL1 receptors are expressed in peripheral sensory and sympathetic neuronal ganglia and that nociceptin plays an important role in synovial inflammatory and nociceptive processes via effects on peripheral sensory and sympathetic neuron terminals. We have recently shown that the regulation of prepronociceptin gene transcription is regulated by cAMP, glucocorticoids and estrogen. We propose to expand our preliminary studies to perform a comprehensive evaluation of the function of nociceptin and the ORL1 receptor in synovial inflammation and pain. The presence of prepronociceptin mRNA will be determined in peripheral neuronal ganglia and neuronal localization of ORL1 receptor and prepronociceptin mRNA will be identified using in situ hybridization techniques. Changes in neuronal expression of the ORL1 receptor and prepronociceptin mRNA and changes in ORL1 receptor protein and nociceptin peptide levels will be studied in rat models of chronic joint inflammation and nerve injury. The effect of steroid hormone treatment on mRNA and protein expression will be determined. Our preliminary studies demonstrate nociceptin's ability to enhance sympathetically mediated synovial inflammation. Mechanisms underlying this pro-inflammatory effect of nociceptin will be determined using plasma extravasation as a measure of inflammation. Furthermore, the ability of nociceptin to modulate other synovial inflammatory pathways will be studied. Lastly, nociceptin has been shown to produce differing responses on nociceptive pathways in the CNS. Specifically, nociceptin has hyperalgesic properties in brain, whereas intrathecal administration results in an anti-hyperalgesic effect at the spinal cord level. We hypothesize that nociceptin activation of the ORL1 receptor on sensory afferent terminals modulates peripheral nociceptive mechanisms. Our preliminary results indicate that infra-articular nociceptin enhances synovial nociceptive mechanisms as measured by capsaicin-induced dorsal horn c-Fos levels. The functional role of nociceptin in peripheral nociceptive mechanisms will be assessed by using a model of mechanical hyperalgesia in the rat knee joint. Recently, ORL1 receptor antagonists have been developed and these agents will be used to determine the significance of endogenous nociceptin in chronic synovial inflammation and hyperalgesia.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR045570-05
Application #
6649371
Study Section
Special Emphasis Panel (ZRG1-IFCN-4 (01))
Program Officer
Gretz, Elizabeth
Project Start
1999-09-27
Project End
2005-08-31
Budget Start
2003-09-01
Budget End
2005-08-31
Support Year
5
Fiscal Year
2003
Total Cost
$233,919
Indirect Cost

  Institution

Name
University of California San Francisco
Department
Anesthesiology
Type
Schools of Medicine
DUNS #
094878337
City
San Francisco
State
CA
Country
United States
Zip Code
94143

  Publications

Moriyama, Kumi; Liu, Jia; Jang, Yeon et al. (2009) Receptor mediation and nociceptin inhibition of bradykinin-induced plasma extravasation in the knee joint of the rat. Inflamm Res 58:873-80
Xie, Guo-xi; Palmer, Pamela Pierce (2005) RGS proteins: new players in the field of opioid signaling and tolerance mechanisms. Anesth Analg 100:1034-42
Wang, Yan; Mitchell, James; Moriyama, Kumi et al. (2005) Age-dependent morphine tolerance development in the rat. Anesth Analg 100:1733-9
Xie, Guo-Xi; Yanagisawa, Yuka; Ito, Emi et al. (2005) N-terminally truncated variant of the mouse GAIP/RGS19 lacks selectivity of full-length GAIP/RGS19 protein in regulating ORL1 receptor signaling. J Mol Biol 353:1081-92
Li, Ning; Wei, Shi-Yi; Yu, Long-Chuan et al. (2004) Role of nociceptin in the modulation of nociception in the arcuate nucleus of rats. Brain Res 1025:67-74
Wang, Y; Mitchell, J; Sharma, M et al. (2004) Leukotrienes mediate 5-hydroxytryptamine-induced plasma extravasation in the rat knee joint via CysLT-type receptors. Inflamm Res 53:66-71
Xie, Guo-xi; Han, Xiaokang; Ito, Emi et al. (2003) Gene structure, dual-promoters and mRNA alternative splicing of the human and mouse regulator of G protein signaling GAIP/RGS19. J Mol Biol 325:721-32
Meuser, Thomas; Giesecke, Thorsten; Gabriel, Anja et al. (2003) Mu-opioid receptor mRNA regulation during morphine tolerance in the rat peripheral nervous system. Anesth Analg 97:1458-63
Xie, G; Wang, Y; Sharma, M et al. (2003) 5-Hydroxytryptamine-induced plasma extravasation in the rat knee joint is mediated by multiple prostaglandins. Inflamm Res 52:32-8
Yu, Long-Chuan; Lu, Jiang-Teng; Huang, Yan-Hua et al. (2002) Involvement of endogenous opioid systems in nociceptin-induced spinal antinociception in rats. Brain Res 945:88-96

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