Cannabinoids

Cannabinoid Mechanisms of Pain Suppression 545

Bridges D, Rice AS, Egertová M, Elphick MR, Winter J, Michael GJ (2003) Localisation
of cannabinoid receptor 1 in rat dorsal root ganglion using in situ hybridisation and
immunohistochemistry. Neuroscience 119:803–812
Burstein SH, Friderichs E, Kogel B, Schneider J, Selve N (1998) Analgesic effects of 1′,1′
dimethylheptyl-delta8-THC-11-oic acid (CT3) in mice. Life Sci 63:161–168
Burstein SH, Karst M, Schneider U, Zurier RB (2004) Ajulemic acid: a novel cannabinoid
produces analgesia without a “high”. Life Sci 75:1513–1522

Buxbaum DM (1972) Analgesic activity of∆^9 -tetrahydrocannabinol in the rat and mouse.

Psychopharmacologia 25:275–280
Calignano A, La Rana G, Giuffrida A, Piomelli D (1998) Control of pain initiation by
endogenous cannabinoids. Nature 394:277–281
Calza L, Pozza M, Zanni M, Manzini CU, Manzini E, Hokfelt T (1998) Peptide plasticity in
primary sensory neurons and spinal cord during adjuvant-induced arthritis in the rat:
an immunocytochemical and in situ hybridization study. Neuroscience 82:575–589
Chapman V (1999) The cannabinoid CB1 receptor antagonist, SR141716A, selectively fa-
cilitates nociceptive responses of dorsal horn neurones in the rat. Br J Pharmacol
127:1765–1767
Clark WC, Janal MN, Zeidenberg P, Nahas GG (1981) Effects of moderate and high doses
of marihuana on thermal pain: a sensory decision theory analysis. J Clin Pharmacol
21:299S–310S
Clayton N, Marshall FH, Bountra C, O’Shaughnessy CT (2002) CB1 and CB2 cannabinoid
receptors are implicated in inflammatory pain. Pain 96:253–260
Coderre TJ, Melzack R (1992) The contribution of excitatory amino acids to central sen-
sitization and persistent nociception after formalin-induced tissue injury. J Neurosci
12:3665–3670
Cravatt BF, Giang DK, Mayfield SP, Boger DL, Lerner RA, Gilula NB (1996) Molecular
characterizationofanenzymethatdegradesneuromodulatoryfatty-acidamides.Nature
384:83–87
CravattBF,DemarestK,PatricelliMP,BraceyMH,GiangDK,MartinBR,LichtmanAH(2001)
Supersensitivity to anandamide and enhanced endogenous cannabinoid signaling in
mice lacking fatty acid amide hydrolase. Proc Natl Acad Sci U S A 98:9371–9376
Cravatt BF, Saghatelian A, Hawkins EG, Clement AB, Bracey MH, Lichtman AH (2004) Func-
tional disassociation of the central and peripheral fatty acid amide signaling systems.
Proc Natl Acad Sci U S A 101:10821–10826
Davis M, Whalen PJ (2001) The amygdala: vigilance and emotion. Mol Psychiatry 6:13–34
De Petrocellis L, Bisogno T, Davis JB, Pertwee RG, Di Marzo V (2000) Overlap between
the ligand recognition properties of the anandamide transporter and the VR1 vanilloid
receptor: inhibitors of anandamide uptake with negligible capsaicin-like activity. FEBS
Lett 483:52–56
DeLeo JA, Tanga FY, Tawfik VL (2004) Neuroimmune activation and neuroinflammation in
chronic pain and opioid tolerance/hyperalgesia. Neuroscientist 10:40–52
DeutschDG,ChinSA(1993)Enzymaticsynthesisanddegradationofanandamide,acannabi-
noid receptor agonist. Biochem Pharmacol 46:791–796
DevaneWA,HanusL,BreuerA,PertweeRG,StevensonLA,GriffinG,GibsonD,Mandelbaum
A, Etinger A, Mechoulam R (1992) Isolation and structure of a brain constituent that
binds to the cannabinoid receptor. Science 258:1946–1949
Di Marzo V, Bisogno T, Sugiura T, Melck D, De Petrocellis L (1998) The novel endogenous
cannabinoid 2-arachidonoylglycerol is inactivated by neuronal- and basophil-like cells:
connections with anandamide. Biochem J 331:15–19
Dixon WE (1899) The pharmacology of cannabis. Indica Br Med J 2:1354–1357
Dogrul A, Gul H, Akar A, Yildiz O, Bilgin F, Guzeldemir E (2003) Topical cannabinoid
antinociception: synergy with spinal sites. Pain 105:11–16
Donaldson LF, McQueen DS, Seckl JR (1994) Local anaesthesia prevents acute inflammatory
changes in neuropeptide messenger RNA expression in rat dorsal root ganglia neurons.
Neurosci Lett 175:111–113