Alfonso Romero-Sandoval1, Nancy Nutile-McMenemy, Joyce A DeLeo. 1. Department of Anesthesiology, Neuroscience Center at Dartmouth, Dartmouth Medical School, Dartmouth College, Lebanon, New Hampshire, USA. edgar.a.romero-sandoval@dartmouth.edu
Abstract
BACKGROUND: Cannabinoids induce analgesia by acting on cannabinoid receptor (CBR) types 1 and/or 2. However, central nervous system side effects and antinociceptive tolerance from CBR1 limit their clinical use. CBR2 exist on spinal glia and perivascular cells, suggesting an immunoregulatory role of these receptors in the central nervous system. Previously, the authors showed that spinal CBR2 activation reduces paw incision hypersensitivity and glial activation. This study tested whether CBR2 are expressed in glia and whether their activation would induce antinociception, glial inhibition, central side effects, and antinociceptive tolerance in a neuropathic rodent pain model. METHODS: Rats underwent L5 spinal nerve transection or sham surgery, and CBR2 expression and cell localization were assessed by immunohistochemistry. Animals received intrathecal injections of CBR agonists and antagonists, and mechanical withdrawal thresholds and behavioral side effects were assessed. RESULTS: Peripheral nerve transection induced hypersensitivity, increased expression of CR3/CD11b and CBR2, and reduced ED2/CD163 expression in the spinal cord. The CBR2 were localized to microglia and perivascular cells. Intrathecal JWH015 reduced peripheral nerve injury hypersensitivity and CR3/CD11b expression and increased ED2/CD163 expression in a dose-dependent fashion. These effects were prevented by intrathecal administration of the CBR2 antagonist (AM630) but not the CBR1 antagonist (AM281). JWH015 did not cause behavioral side effects. Chronic intrathecal JWH015 treatment did not induce antinociceptive tolerance. CONCLUSIONS: These data indicate that intrathecal CBR2 agonists may provide analgesia by modulating the spinal immune response and microglial function in chronic pain conditions without inducing tolerance and neurologic side effects.
BACKGROUND: Cannabinoids induce analgesia by acting on cannabinoid receptor (CBR) types 1 and/or 2. However, central nervous system side effects and antinociceptive tolerance from CBR1 limit their clinical use. CBR2 exist on spinal glia and perivascular cells, suggesting an immunoregulatory role of these receptors in the central nervous system. Previously, the authors showed that spinal CBR2 activation reduces paw incision hypersensitivity and glial activation. This study tested whether CBR2 are expressed in glia and whether their activation would induce antinociception, glial inhibition, central side effects, and antinociceptive tolerance in a neuropathic rodent pain model. METHODS:Rats underwent L5 spinal nerve transection or sham surgery, and CBR2 expression and cell localization were assessed by immunohistochemistry. Animals received intrathecal injections of CBR agonists and antagonists, and mechanical withdrawal thresholds and behavioral side effects were assessed. RESULTS: Peripheral nerve transection induced hypersensitivity, increased expression of CR3/CD11b and CBR2, and reduced ED2/CD163 expression in the spinal cord. The CBR2 were localized to microglia and perivascular cells. Intrathecal JWH015 reduced peripheral nerve injuryhypersensitivity and CR3/CD11b expression and increased ED2/CD163 expression in a dose-dependent fashion. These effects were prevented by intrathecal administration of the CBR2 antagonist (AM630) but not the CBR1 antagonist (AM281). JWH015 did not cause behavioral side effects. Chronic intrathecal JWH015 treatment did not induce antinociceptive tolerance. CONCLUSIONS: These data indicate that intrathecal CBR2 agonists may provide analgesia by modulating the spinal immune response and microglial function in chronic pain conditions without inducing tolerance and neurologic side effects.
Authors: Annemarie Ledeboer; Evan M Sloane; Erin D Milligan; Matthew G Frank; John H Mahony; Steven F Maier; Linda R Watkins Journal: Pain Date: 2005-05 Impact factor: 6.961
Authors: Alysia N Lozano-Ondoua; Courtney Wright; Anna Vardanyan; Tamara King; Tally M Largent-Milnes; Mark Nelson; Juan Miguel Jimenez-Andrade; Patrick W Mantyh; Todd W Vanderah Journal: Life Sci Date: 2010-02-20 Impact factor: 5.037
Authors: Liting Deng; Josée Guindon; Benjamin L Cornett; Alexandros Makriyannis; Ken Mackie; Andrea G Hohmann Journal: Biol Psychiatry Date: 2014-04-25 Impact factor: 13.382
Authors: Alysia N Lozano-Ondoua; Katherine E Hanlon; Ashley M Symons-Liguori; Tally M Largent-Milnes; Josh J Havelin; Henry L Ferland; Anupama Chandramouli; Mabel Owusu-Ankomah; Tijana Nikolich-Zugich; Aaron P Bloom; Juan Miguel Jimenez-Andrade; Tamara King; Frank Porreca; Mark A Nelson; Patrick W Mantyh; Todd W Vanderah Journal: J Bone Miner Res Date: 2013-01 Impact factor: 6.741
Authors: Matthew S Alkaitis; Carlos Solorzano; Russell P Landry; Daniele Piomelli; Joyce A DeLeo; E Alfonso Romero-Sandoval Journal: PLoS One Date: 2010-05-28 Impact factor: 3.240