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ABSTRACT: GABA and glutamate are both affected by stress and are involved in nociception. Thus, we determined whether stress-induced enhancement of inflammatory hyperalgesia is mediated by an imbalance between glutamate and GABA neurotransmission. Male rats were subjected daily to 10 to 20 minutes per day of either forced swimming (FS) or sham swimming for 3 consecutive days; nonconditioned rats served as controls. Some rats were treated i.p. with ketamine (5 mg/kg), diazepam (2 mg/kg), flumazenil (0.1 mg/kg), or vehicle (0.9% NaCl), 30 to 60 minutes before each conditioning session or nociception assessment. Pain behavior, spinal nociceptive neuronal activation and GABA and glutamate release were respectively evaluated by the formalin test, the expression of c-Fos and in vivo microdialysis of superficial laminae of the lumbar spinal cord, 48 hours after the last conditioning session. Nitric oxide metabolites (NO(x)) were determined as markers of post-synaptic NMDA receptor activation. FS stress enhanced formalin-induced hyperalgesia, increased pain-elicited c-Fos expression, decreased basal and delayed pain-induced GABA release, and increased basal and induced glutamate release. Hyperalgesia and c-Fos overexpression were blocked only by prestress treatment with diazepam and post-stress treatment with ketamine, whereas changes in GABA and glutamate release were reversed by prestress treatment with diazepam. Diazepam effects were blocked by flumazenil. NO(x) increased in lumbar spinal cord of FS rats by a mechanism antagonized by ketamine. Thus, stress-induced hyperalgesia is initiated by a decreased and delayed GABA release and GABA-A receptor activation, whereas it is maintained by increased glutamate release and NMDA glutamate receptor activation at the spinal level.
Pain 05/2011; 152(8):1909-22. · 5.78 Impact Factor
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ABSTRACT: Some cases of autism could be linked to viral infections able to induce autoimmune mechanisms directed against the encephalon. Neurothophic virus infections in animals are associated with clinical signs that are similar to those observed in neurodevelopment disorders. Thus, in this study, we determined the co-existence of antibodies against nerve tissue and viruses with neurothophic competence (HSV-1/2, Epstein-Barr-EBV, cytomegalovirus, measles and rubella) in serum of forty autistic children and forty healthy children. The presence of antibodies against nerve tissue was detected in slices of rat encephalic tissue by indirect immunofluorescence. The levels of anti-viral IgG and IgM antibodies were measured by indirect ELISA. The proportion of autistics with anti-encephalon IgG antibodies (77% anti-amygdala, 70% anti-caudate nucleus, 47.5% anti-cerebellum y anti-brain stem, 45% anti-hippocampus, 40% anti-corpus callosum and 17,5% anti-cortex) was significantly greater than that of controls (10% anti- amygdala y 5% anti- cerebellum) and was directly related to the severity of the autism. The proportion of children with positive levels (greater than 1.1.mg/dL) for anti-HSV IgM antibodies (indicative of acute infection) was significantly greater in autistics (65%) than in healthy children (17.5%). Ninety six percent of the autistics with anti-HSV antibodies also had anti-encephalon antibodies, percentage that was significantly greater than that of autistics negative to the anti-HSV-antibody (43%). In contrast, there were no significant differences for IgG and IgM antibodies for EBV, cytomegalovirus, measles and rubella. This suggests that autoimmunity against encephalic structures elicited by HSV infections could be involved in autism.
Investigación clínica 09/2009; 50(3):315-26.
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ABSTRACT: We determined if cutaneous hyperalgesia and pain-induced c-Fos overexpression in the spinal cord produced by repeated forced swimming (FS) stress in the rat were related to changes in GABA neurotransmission by studying spinal release of GABA and the effect of positive modulation of GABA-A receptors with diazepam. Male rats were daily submitted to 10-20 min of either forced swimming or sham swimming (SS) for 3 consecutive days. Two days later, spinal GABA release was estimated by in vivo microdialysis. In other set of rats, either diazepam (2 mg/kg, i.p.) or saline was administered 1h before either SS or FS and inflammatory nociception was assessed with the formalin test; it was followed by removal of lumbar spinal cords for c-Fos immunocytochemistry. Basal and pain-evoked release of GABA in the spinal cord was lower in FS rats than in SS rats. In contrast, pain scores during formalin test late phase and pain-induced c-Fos expression in laminae I-VI of ipsilateral dorsal horn were significantly higher in FS rats than in SS rats. In FS rats, diazepam did not have effect on GABA release but reduced pain scores and overexpression of c-Fos whereas flumazenil (0.1 mg/kg, i.p.), an antagonist of the benzodiazepine binding site, reversed these effects. When diazepam was given only 1h before the formalin test, it slightly but significantly reduced pain scores during late phase in FS rats but not in SS rats. In conclusion, stress-induced reduction in GABA-A receptor activation is involved in the development of FS stress-induced hyperalgesia.
Behavioural Brain Research 06/2008; 189(1):159-69. · 3.42 Impact Factor
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ABSTRACT: We previously demonstrated that repeated swim stress produces long-term cutaneous hyperalgesia in rats. We have now determined the effect of stress upon muscle nociception and the anti-nociceptive efficacy of the norepinephrine-serotonin reuptake inhibitor, milnacipran (MIL) in this model. Rats were subjected to either 10-20 min daily sessions of forced swimming (FS) for 3 days, or sham swimming (SS) or control (CT). Maximal forelimb grip strength and hot plate response latencies were estimated before and after the conditioning to assess muscle and thermal nociception, respectively. MIL (1-30 mg/kg/i.p.) or vehicle was started 7 days before the conditioning protocol. There were significant reductions in maximal grip strength and hot plate latencies only in FS/vehicle rats. Subsequent carrageenan administration (2 mg/75 microl each triceps) diminished grip strength in all groups 24 h later, with grip strength lower in FS/vehicle and SS/vehicle rats than in CT/vehicle rats. Treatment with MIL before the stress prevented the reduction in grip strength in all groups but it was ineffective in preventing FS-induced reductions in hot plate response latencies. Thus, repeated stress produces muscle hyperalgesia that can be pharmacologically dissociated from cutaneous hyperalgesia, suggesting that different mechanisms may underlie these two phenomena.
Physiology & Behavior 07/2006; 88(1-2):82-7. · 2.87 Impact Factor
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ABSTRACT: Repeated exposure to swimming stress induces a long-lasting hyperalgesia in the rat by mechanisms to be elucidated. Since opioid and glutamate neurotransmitter systems modulate pain, we now evaluated the effect of pharmacological blockade of opioid and glutamate receptors subtypes on forced swimming stress-induced hyperalgesia. Male rats were daily subjected to 10-20 min of forced or sham swimming for 3 days and thermal nociception was estimated twice, before each behavioral conditioning and 24 h after the last, using hot plate test. Selective opioid and NMDA receptor antagonists were administered i.p. either before each conditioning session or before the second nociception assessment. Unlike sham swimming rats, forced swimming rats showed significant reductions in hot plate response latencies (hyperalgesia) after the last swimming session, as compared to pre-stress values. Rats treated with the opioid receptor antagonists naloxone (0.1 mg/kg, non-subtype-selective) and naloxonazine (5 mg/kg, mu(1)-subtype-selective), before each forced swimming, did not become hyperalgesic, whereas those treated before the second post-stress assessment of nociception developed hyperalgesia. Naltrindole (0.5 mg/kg, delta-subtype-selective) and nor-binaltorphimine (0.5mg/kg, kappa-subtype-selective) were inactive in both administration schedules. The efficacy of morphine (3-7.5 mg/kg) to produce analgesia in forced swimming rats was lower than in sham swimming rats. Rats treated with the NMDA antagonist ketamine (5 mg/kg) before the forced swimming or the second post-stress assessment of nociception did not have hyperalgesia. Thus, swim stress-induced hyperalgesia might be initiated by the repeated stimulation of mu-opioid and NMDA receptors but maintained only by the activity of NMDA receptors.
Behavioural Brain Research 03/2006; 167(2):205-11. · 3.42 Impact Factor
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ABSTRACT: Lantana trifolia L. (Verbenaceae) is traditionally used as an anti-inflammatory medicinal plant in Venezuela. The methanol extract of the aerial parts of L. trifolia were assessed for the anti-inflammatory, anti-nociceptive and anti-pyretic properties. The extract produced an inhibition of carrageenan-induced edema in the rat paw over a dose range of 10-300 mg/kg i.p.; the dose-response curve was bell-shaped with a maximal effect at 100 mg/kg. The extract also produced a small but significant increase in the response latency of rats subjected to the hot plate, a thermal pain test that only detects analgesia by high-efficacy agents. The extract did not exhibit antipyretic activity. Thus, the L. trifolia extract could have therapeutically relevant anti-inflammatory and analgesic properties in humans.
Investigación clínica 01/2005; 45(4):317-22.
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ABSTRACT: We have previously demonstrated that repeated swim stress produces a long-lasting cutaneous hyperalgesia in rats. We have now looked at c-Fos expression in the spinal lumbar cord of male Sprague-Dawley rats subjected to 10-20 min daily sessions of forced swimming for 3 consecutive days. Control rats were subjected to sham swimming or were completely naive. Forty-eight hours later, nociception was assessed by recording for 90 min the nociceptive behavior evoked the injection of 1% formalin in the hind paw. Thirty min later, the rats' spinal cords were removed for c-Fos immunocytochemistry. Total pain scores were 45% higher in swim stressed rats compared to control animals due an increased nociceptive behavior during last 70 min of the recording period. In addition, the number of c-Fos-immunoreactive nuclei was 40% higher in the lumbar ipsilateral dorsal horn (L4-L5) of swim stressed rats than in controls, being the highest relative increase, relative to the control groups, observed in laminae III-IV, followed by laminae V-VI, with the smallest difference in laminae I-II. c-Fos expression in the contralateral dorsal horn was higher in swim stressed rats than in sham and nai;ve rats. In the absence of a nociceptive stimulus, a low level of c-Fos expression was observed mainly in laminae I, II, V, and VI, being higher in swim stressed rats than in sham rats. These findings suggest that repeated inescapable and uncontrollable stress could induce a sensitization and activation of sensory neurons at the spinal level.
Brain Research 04/2003; 965(1-2):259-68. · 2.73 Impact Factor
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ABSTRACT: Rats subjected to an inescapable subchronic stress, consisting of 10–20 min of forced swimming for 3 days, showed a thermal hyperalgesia and an enhanced nociceptive behavior to the subcutaneous administration of formalin 24 and 48 h, respectively, after the last swim session. Hyperalgesia to thermal and chemical stimulants was still present 8 and 9 days after the last swim session, respectively. Chemical, but not thermal, nociception was negatively correlated with the swim effort or struggle times during the last swim session. The serotonin-selective reuptake inhibitors clomipramine (2.5 mg/kg/day, i.p., started 3 or 7 days before stress) and fluoxetine (0.25 mg/kg/day, i.p., started 7 days before stress), or serotonin precursor tryptophan (3 mg/kg/day, i.p., 24 h before each swim stress) blocked the development of both the thermal and the chemical hyperalgesia and increased swim effort times compared to vehicle-treated rats. These treatments did not affect nociceptive responses in control rats subjected to sham swimming. These findings suggest that repeated stress can produce a long-lasting increase in pain sensitivity to both phasic or tonic noxious stimuli by diminishing central serotonin activity. This model may help elucidate the underlying neural mechanisms that mediate the effects of repeated stress on pain sensitivity and affective states.
Pharmacology Biochemistry and Behavior.
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ABSTRACT: Repeated exposure to swimming stress induces a long-lasting hyperalgesia in the rat by mechanisms to be elucidated. Since opioid and glutamate neurotransmitter systems modulate pain, we now evaluated the effect of pharmacological blockade of opioid and glutamate receptors subtypes on forced swimming stress-induced hyperalgesia. Male rats were daily subjected to 10–20 min of forced or sham swimming for 3 days and thermal nociception was estimated twice, before each behavioral conditioning and 24 h after the last, using hot plate test. Selective opioid and NMDA receptor antagonists were administered i.p. either before each conditioning session or before the second nociception assessment. Unlike sham swimming rats, forced swimming rats showed significant reductions in hot plate response latencies (hyperalgesia) after the last swimming session, as compared to pre-stress values. Rats treated with the opioid receptor antagonists naloxone (0.1 mg/kg, non-subtype-selective) and naloxonazine (5 mg/kg, μ1-subtype-selective), before each forced swimming, did not become hyperalgesic, whereas those treated before the second post-stress assessment of nociception developed hyperalgesia. Naltrindole (0.5 mg/kg, δ-subtype-selective) and nor-binaltorphimine (0.5 mg/kg, κ-subtype-selective) were inactive in both administration schedules. The efficacy of morphine (3–7.5 mg/kg) to produce analgesia in forced swimming rats was lower than in sham swimming rats. Rats treated with the NMDA antagonist ketamine (5 mg/kg) before the forced swimming or the second post-stress assessment of nociception did not have hyperalgesia. Thus, swim stress-induced hyperalgesia might be initiated by the repeated stimulation of μ-opioid and NMDA receptors but maintained only by the activity of NMDA receptors.
Behavioural Brain Research.
