Activation of spinal wide dynamic range neurons by intracutaneous microinjection of nicotine

Nicotine evokes pain in the skin and oral mucosa and excites a subpopulation of cutaneous nociceptors, but little is known about the central transmission of chemogenic pain. We have investigated the responses of lumbar spinal wide dynamic range (WDR)-type dorsal horn neurons to intracutaneous (ic) microinjection of nicotine in pentobarbital-anesthetized rats. Nearly all (97%) units responded to nicotine microinjected ic (1 microl) into the low-threshold region of the hind-paw mechanosensitive receptive field in a concentration-related manner (0.01-10%). Responses to repeated injections of 10% nicotine exhibited tachyphylaxis at 5-, 10-, and 15-min interstimulus intervals. Significant tachyphylaxis was not seen with 1% nicotine. All nicotine-responsive units tested (n = 30) also responded to ic histamine (1 microl, 3%) and did not exhibit tachyphylaxis to repeated histamine. However, there was significant cross-tachyphylaxis of nicotine to histamine. Thus 5 min after ic nicotine, histamine-evoked responses were attenuated significantly compared with the initial histamine-evoked response prior to nicotine, with partial recovery over the ensuing 15 min. Neuronal excitation by ic nicotine was not mediated by histamine H1 receptors because ic injection of the H1 receptor antagonist, cetirizine, had no effect on ic nicotine-evoked responses, whereas it significantly attenuated ic histamine-evoked responses in the same neurons. The lowest-threshold portion of cutaneous receptive fields showed a significant expansion in area at 20 min after ic nicotine 10%, indicative of sensitization. Responses to 1% nicotine were significantly reduced after ic injection of the nicotinic antagonist, mecamylamine (0.1% ic), with no recovery over the ensuing 40-60 min. These data indicate that nicotine ic excites spinal WDR neurons, partly via neuronal nicotinic acetylcholine receptors that are presumably expressed in cutaneous nociceptor terminals. Repeated injections of high concentrations of nicotine led to tachyphylaxis and cross-tachyphylaxis with histamine, possibly relevant to peripheral analgesic effects of nicotine.     

Selective activation of cannabinoid CB(2) receptors suppresses spinal fos protein expression and pain behavior in a rat model of inflammation

Activation of cannabinoid CB(2) receptors attenuates thermal nociception in untreated animals while failing to produce centrally mediated effects such as hypothermia and catalepsy [Pain 93 (2001) 239]. The present study was conducted to test the hypothesis that activation of CB(2) in the periphery suppresses the development of inflammatory pain as well as inflammation-evoked neuronal activity at the level of the CNS. The CB(2)-selective cannabinoid agonist AM1241 (100, 330 micrograms/kg i.p.) suppressed the development of carrageenan-evoked thermal and mechanical hyperalgesia and allodynia. The AM1241-induced suppression of carrageenan-evoked behavioral sensitization was blocked by the CB(2) antagonist SR144528 but not by the CB(1) antagonist SR141716A. Intraplantar (ipl) administration of AM1241 (33 micrograms/kg ipl) suppressed hyperalgesia and allodynia following administration to the carrageenan-injected paw but was inactive following administration in the contralateral (noninflamed) paw, consistent with a local site of action. In immunocytochemical studies, AM1241 suppressed spinal Fos protein expression, a marker of neuronal activity, in the carrageenan model of inflammation. AM1241 suppressed carrageenan-evoked Fos protein expression in the superficial and neck region of the dorsal horn but not in the nucleus proprius or the ventral horn. The suppression of carrageenan-evoked Fos protein expression induced by AM1241 was blocked by coadministration of SR144528 in all spinal laminae. These data provide evidence that actions at cannabinoid CB(2) receptors are sufficient to suppress inflammation-evoked neuronal activity at rostral levels of processing in the spinal dorsal horn, consistent with the ability of AM1241 to normalize nociceptive thresholds and produce antinociception in inflammatory pain states.     

Activation of the CB1 cannabinoid receptor protects cultured mouse spinal neurons against excitotoxicity

Obstructive sleep apnea is characterized by intermittent hypoxic events during sleep, and is associated with substantial neurocognitive morbidity, particularly in children. Intermittent hypoxia (IH) leads to increases in apoptosis in the cortex and hippocampus of the adult rat, peaking at 48 h of exposure. To examine whether the susceptibility to IH exhibits developmental differences, rats were exposed to 48 h of IH at ages 2, 5, 10, 15, 20, 25, 30, 60, and 120-day postnatally, and apoptosis was determined by terminal deoxy-nucleotidyl transferase-mediated in situ end labeling and immunohistochemical staining for single-stranded DNA. Although IH induced apoptosis at all postnatal ages, smaller increases were apparent in 2 and 5-day old (P < 0.01 vs. any other age) while peak apoptosis occurred at 10-25 days (P < 0.001 vs. 30, 60, and 120 days). We conclude that a unique window of vulnerability to IH is present in the cortex and hippocampus during post-natal maturation, and may underlie the high frequency of neurobehavioral deficits associated with obstructive sleep apnea in children.     

Targeted deletion of cannabinoid receptors CB1 and CB2 produced enhanced inflammatory responses to influenza A/PR/8/34 in the absence and presence of Delta9-tetrahydrocannabinol

We have previously reported that Delta-9-tetrahydrocannabinol (Delta(9)-THC)-treated mice challenged with influenza virus A/PR/8/34 (PR8) developed increased viral hemagglutinin 1 (H1) mRNA levels and decreased monocyte and lymphocyte recruitment to the pulmonary airways when compared with mice challenged with PR8 alone. The objective of the present study was to examine the role of cannabinoid (CB(1)/CB(2)) receptors in mediating the effects of Delta(9)-THC on immune and epithelial cell responses to PR8. In the current study, Delta(9)-THC-treated CB(1)/CB(2) receptor null (CB(1)-/-/CB(2)-/-) and wild-type mice infected with PR8 had marked increases in viral H1 mRNA when compared with CB(1)-/-/CB(2)-/- and wild-type mice challenged with PR8 alone. However, the magnitude of the H1 mRNA levels was greatly reduced in CB(1)-/-/CB(2)-/- mice as compared with wild-type mice. In addition, Delta(9)-THC-treated CB(1)-/-/CB(2)-/- mice infected with PR8 had increased CD4+ T cells and IFN-gamma in bronchoalveolar lavage fluid with greater pulmonary inflammation when compared with Delta(9)-THC-treated wild-type mice infected with PR8. Delta(9)-THC treatment of CB(1)-/-/CB(2)-/- mice in the presence or absence of PR8 challenge also developed greater amounts of mucous cell metaplasia in the affected bronchiolar epithelium. Collectively, the immune and airway epithelial cell responses to PR8 challenge in Delta(9)-THC-treated CB(1)-/-/CB(2)-/- and wild-type mice indicated the involvement of CB(1)/CB(2) receptor-dependent and -independent mechanisms.     

Paraventricular hypothalamic nucleus stimulation modulates nociceptive responses in dorsal horn wide dynamic range neurons

Effects of different parameters of hypothalamic paraventricular nucleus (PVN) electrical stimulation on somatic responses, in dorsal horn neurons were examined. In anaesthetized rats, single-unit extracellular recordings were made from dorsal horn lumbar segments, which receive afferent input from the toe and hind paw regions. We compared the neuronal responses evoked by electrical stimulation of the receptive field (RF) with the responses preceded by ipsilateral PVN stimulation. Only the responses corresponding to Adelta and C-fiber activation were inhibited when PVN stimulation was delivered. Fast-evoked responses corresponding to Abeta fibers were not modified. The magnitude of inhibition depends on the intensity and duration of the PVN stimulation train and gradually decreases as the time interval between the PVN and RF stimulations increases. The results indicate that PVN modulates nociceptive, but not non-nociceptive neuronal responses at the spinal cord level, and this modulation depends on the parameters of the stimulus utilized to activate PVN neurons.     

大鼠脊髓广动力范围神经元早成分放电对晚成分放电的调控

采用细胞外记录方法 ,通过选择性阻断有髓粗纤维的传入 ,观察大鼠脊髓背角深层广动力范围神经元(WDR)早成分放电对晚成分放电及其潜伏期的影响。结果显示 :0 3mg蛇毒溶液注入到大鼠坐骨神经鞘膜下后 ,WDR神经元出现如下动态变化 :(1)诱发放电的早成分显著减少 ,每次刺激所诱发的早成分放电个数由 6 94± 0 4 8降至 0 75± 0 2 5 (P <0 0 5 ) ,15min左右几近完全消失。 (2 )随着早成分放电的减少 ,晚成分放电则逐渐增加 ,放电数从 9 94± 0 9增加到 4 5 94± 1 16 (P <0 0 5 )。此时轻刷WDR神经元的感受野不能引起其活动改变 ,但伤害性齿镊夹捏仍可引起WDR神经元放电增多。 (3)晚成分放电的潜伏期缩短 ,即宁静期的时程变短 ,由给蛇毒前的116 83± 3 6 7ms降至 4 6 86± 1 13ms(P <0 0 1)。提示 :A纤维传入冲动在调控WDR神经元对伤害性刺激传入的反应性和兴奋性上具有重要作用     

Eseroline depresses the responses of dorsal horn neurons to C-fiber afferents in the spinal rat

Eseroline not only has some structural features in common with morphine but also has a specific antinociceptive action like opioid drugs. The effects of eseroline on the responses of rat dorsal horn lamina V neurons to C-fiber-related noxious stimuli were investigated. The data obtained showed that 15 min after eseroline administration, the neuronal responses to C-fiber-related afferents were almost totally suppressed. Morphine was used as reference drug. The postulated action of eseroline on opioid receptors was confirmed by reversal of eseroline-driven cell activity after naloxone injection.     

Altered discharges of spinal wide dynamic range neurons and down-regulation of glutamate transporter expression in rats with paclitaxel-induced hyperalgesia

Changes in the signaling of wide dynamic range neurons and the expression of glutamate transporters in the lumbar spinal dorsal horn of rats with Taxol-induced hyperalgesia are detailed in this report. Deep spinal lamina neurons have significantly increased spontaneous activity and after-discharges to noxious mechanical stimuli, increased responses to both skin heating and cooling, and increased after-discharges and abnormal windup to transcutaneous electrical stimuli. The expression of glutamate transporter proteins in the dorsal horn is decreased at the time point corresponding to the physiological changes. These results suggest a state of increased excitability develops in spinal pain-signaling neurons as a consequence of decreased glutamate clearance. These changes in dorsal horn neurobiology likely in turn contribute to the hyper-responsiveness to sensory stimuli seen in animals treated with Taxol and may play a role in the pain seen in cancer patients receiving Taxol.     

Characterization of wide dynamic range neurons in the deep dorsal horn of the spinal cord in preprotachykinin-a null mice in vivo

We previously reported that mice with a deletion of the preprotachykinin-A (pptA) gene, from which substance P (SP) and neurokinin A (NKA) are derived, exhibit reduced behavioral responses to intense stimuli, but that behavioral hypersensitivity after injury is unaltered. To understand the contribution of SP and NKA to nociceptive transmission in the spinal cord, we recorded single-unit activity from wide dynamic range neurons in the lamina V region of the lumbar dorsal horn of urethane-anesthetized wild-type and ppt-A null mutant (-/-) mice. We found that intensity coding to thermal stimuli was largely preserved in the ppt-A -/- mice. Neither the peak stimulus-evoked firing nor the neuronal activity during the initial phase (0-4 s) of the 41-49 degrees C thermal stimuli differed between the genotypes. However, electrophysiological responses during the late phase of the stimulus (5-10 s) and poststimulus (11-25 s) were significantly reduced in ppt-A -/- mice. To activate C-fibers and to sensitize the dorsal horn neurons we applied mustard oil (MO) topically to the hindpaw. We found that neither total MO-evoked activity nor sensitization to subsequent stimuli differed between the wild-type and ppt-A -/- mice. However, the time course of the sensitization and the magnitude of the poststimulus discharges were reduced in ppt-A -/- mice. We conclude that SP and/or NKA are not required for intensity coding or sensitization of nociresponsive neurons in the spinal cord, but that these peptides prolong thermal stimulus-evoked responses. Thus whereas behavioral hypersensitivity after injury is preserved in ppt-A -/- mice, our results suggest that the magnitude and duration of these behavioral responses would be reduced in the absence of SP and/or NKA.     

Overexpression of cannabinoid receptors CB1 and CB2 correlates with improved prognosis of patients with hepatocellular carcinoma

CB1 and CB2 are multifunctional cannabinoid-specific receptors considered to be involved in inhibition of tumor development. To elucidate their roles in hepatocarcinogenesis, we analyzed the expression of these receptors in tumor and matched nontumorous tissues of human hepatocellular carcinoma (HCC) samples. In situ hybridization analysis showed overexpression of CB1 mRNAs in 8 of 13 (62%) HCC samples, and of CB2 mRNAs in 7 of 13 (54%). Immunohistochemical analysis of 64 HCC samples showed the expression of CB1 and CB2 receptors to increase from normal liver to chronic hepatitis to cirrhosis. Marked expression of CB1 and CB2 receptors was noted in the majority of cirrhotic liver samples (86 and 78%, respectively). In HCC, high expression of CB1 and CB2 receptors was observed in 29 (45%) and 33 (52%) cases, respectively. Clinicopathological evaluation indicated a significant correlation between CB1 and CB2 expression and two clinicopathological parameters such as the histopathological differentiation (P = 0.021 and 0.001, respectively), portal vein invasion (P = 0.015 and 0.004, respectively). Univariate analysis indicated that disease-free survival was significantly better in HCC patients with high versus those with low CB1 and CB2 expression levels (P = 0.010 and 0.037, respectively). Our results indicate that CB1 and CB2 have potential as prognostic indicators and suggest possible beneficial effects of cannabinoids on prognosis of patients with HCC.     

A peripheral cannabinoid mechanism suppresses spinal fos protein expression and pain behavior in a rat model of inflammation

The present studies were conducted to test the hypothesis that systemically inactive doses of cannabinoids suppress inflammation-evoked neuronal activity in vivo via a peripheral mechanism. We examined peripheral cannabinoid modulation of spinal Fos protein expression, a marker of neuronal activity, in a rat model of inflammation. Rats received unilateral intraplantar injections of carrageenan (3%). In behavioral studies, carrageenan induced allodynia and mechanical hyperalgesia in response to stimulation with von Frey monofilaments. The cannabinoid agonist WIN55,212-2 (30 microg intraplantarly), administered concurrently with carrageenan, attenuated carrageenan-evoked allodynia and hyperalgesia relative to control conditions. In immunocytochemical studies, WIN55,212-2 suppressed the development of carrageenan-evoked Fos protein expression in the lumbar dorsal horn of the spinal cord relative to vehicle treatment. The same dose administered systemically or to the noninflamed contralateral paw failed to alter either carrageenan-evoked allodynia and hyperalgesia or carrageenan-evoked Fos protein expression, consistent with a peripheral site of action. The suppressive effects of WIN55,212-2 (30 microg intraplantarly) on carrageenan-evoked Fos protein expression and pain behavior were blocked by local administration of either the CB(2) antagonist SR144528 (30 microg intraplantarly) or the CB(1) antagonist SR141716A (100 microg intraplantarly). WIN55,212-3, the enantiomer of the active compound, also failed to suppress carrageenan-evoked Fos protein expression. These data provide direct evidence that a peripheral cannabinoid mechanism suppresses the development of inflammation-evoked neuronal activity at the level of the spinal dorsal horn and implicate a role for CB(2) and CB(1) in peripheral cannabinoid modulation of inflammatory nociception.     

Electroacupuncture suppresses spinal expression of neurokinin-1 receptors induced by persistent inflammation in rats

It has been demonstrated that electroacupuncture (EA) significantly suppresses behavioral hyperalgesia in a rat model of persistent inflammatory pain and that neurokinin-1 (NK-1)/substance P (SP) receptors play important roles in nociception and hyperalgesia at the spinal cord level. The present study investigated spinal NK-1 receptor involvement in EA-produced suppression of hyperalgesia in a rat model of persistent inflammatory pain. The results showed that hind paw inflammation induced a significant increase of NK-1 receptor expression in the spinal dorsal horn and that this effect was significantly suppressed by EA. This suggests that EA-induced suppression of hyperalgesia is involved, at least partly, in the suppression of the spinal NK-1 receptors induced by sustained peripheral nociceptive input.     

WIN 55212-2 impairs contextual fear conditioning through the activation of CB1 cannabinoid receptors

The memory deficits induced by cannabinoid agonists have been found in several behavioral paradigms. Nevertheless, there is evidence that not all types of memory are impaired after cannabinoid administration. The aim of this study was to investigate whether the cannabinoid agonist WIN 55212-2 (WIN) is able to influence the acquisition of fear conditioning using tone and contextual versions. For tone-fear conditioning, male Wistar rats were placed in the conditioning chamber and after 3 min, a sound (CS) was presented for 10s that terminated with a 1-s electric footshock (1.5 mA). For contextual-fear conditioning, a similar procedure was used but no sound was presented. Twenty-four hours after, the animals were re-exposed to the respective CS (tone or conditioning chamber) and the freezing behavior was registered. A subsequent experiment investigated a possible state-dependent effect of WIN by administering WIN or control solution 30 min before conditioning and before testing. WIN (2.5 and 5.0 mg/kg) administered i.p. 30 min before impaired contextual fear conditioning but did not modify the freezing behavior elicited by tone presentation. These animals did not show any state-dependent effects of WIN. Further, the impaired contextual conditioning was prevented by preadministration of SR141716A (1.0 mg/kg, i.p.) or SR147778 (1.0 mg/kg, i.p.), selective cannabinoid CB1 receptor antagonists. The present findings highlight that cannabinoid agonists effects are selective for the hippocampus-dependent aversive memories in rats. This effect appears to be related to the activation of CB1 cannabinoid receptors and confirms that cannabinoids might provide a novel approach for the treatment of unpleasant memories.     

Activation of CB1 cannabinoid receptors impairs memory consolidation and hippocampal polysialylated neural cell adhesion molecule expression in contextual fear conditioning

We investigated the role of CB1 receptors in hippocampal-dependent memory consolidation mediated by polysialylated neural cell adhesion molecule (PSA-NCAM) during contextual fear conditioning (CFC). The CB1 receptor agonist 3-(1,1-dimethylheptyl)-(-)-11-hydroxy-Δ⁸-tetrahydrocannabinol (HU-210) (0.1 mg/kg) was given immediately after training during the memory consolidation phase, and freezing behavior was measured 24 h after conditioning. Administration of HU-210 attenuated freezing behavior measured in CFC. Western blot analysis showed that CFC induced a decrease in the expression of NCAM-180, but did not change the level of NCAM-140 and increased PSA-NCAM expression measured 24 h after training in the rat hippocampus. HU-210 (0.1 mg/kg) injection did not affect the reduction in NCAM-180 levels induced by CFC, but it blocked the increase in PSA-NCAM expression. Since the dentate gyrus (DG) of the hippocampus is known to be involved in memory consolidation and expresses a high level of PSA-NCAM protein, we measured the effects of CFC and HU-210 administration on PSA-NCAM-immunoreactive (IR) cells in the DG. CFC caused an increase in the number of PSA-NCAM-IR cells in the DG, but not K_i-67- or doublecortin (DCX)-IR cells. This increase in PSA-NCAM-IR cells was abolished by HU-210 injection. Administration of the CB1 receptor antagonist N-(piperidin-1-yl)-5-(4-iodophenyl)-1-(2,4-dichlorophenyl)-4-methyl-1H-pyrazole-3-carboxamide (AM-251) (3 mg/kg immediately before HU-210) inhibited the effects of HU-210 on freezing behavior and PSA-NCAM expression in the DG. These results indicate that activation of CB1 receptors disturbs consolidation of fear memory in CFC, likely by affecting PSA-NCAM expression in the DG, which plays an important role in synaptic rearrangement during the formation of memory traces.     

Role of cannabinoid CB1 receptors on macronutrient selection and satiety in rats

It has been shown that endogenous and exogenous cannabinoids substantially increase feeding. Despite evidence for a role of endocannabinoids in mediating food ingestion, the mechanisms by which CB1 receptor agonists and antagonists have an effect on motivational processes (hunger, satiety) as well as on specific food preference are not entirely understood. The purpose of this study was to investigate the effects of systemic injection of the CB1 receptor agonist, ACEA, on protein, carbohydrates and fat intake as well as on the behavioural satiety sequence (BSS) in pre-satiated rats. Following a 120-min access to a three pure nutrient diet (protein, carbohydrates and fat) at dark onset, male Wistar rats were injected intraperitoneally with ACEA (0.1, 0.25, 0.5 and 1.0 mg/kg). Immediately after the injection, animals were placed into separate experimental cages with free access to food and a single 60-min period was video recorded to evaluate the BSS; protein, carbohydrates and fat intake (g) was measured at the same period of time. Intake of carbohydrates was significantly increased and this effect was prevented by the pre-treatment with AM 251. Analysis of BSS showed that administration of 0.5 mg/kg of ACEA reversed the satiation induced by food ingestion by increasing the time spent eating and decreasing the time resting without altering the overall activity. The present results suggest that the stimulation of food intake induced by activation of CB1 receptors involves a specific dietary component and behavioural selective mechanisms (stimulating hunger and inhibiting satiety).     

Location and functional organization of trigeminal wide dynamic range neurons within the nucleus ventralis posteromedials of the cat

In urethane-chloralose-anesthetized cats, trigeminal wide dynamic range (WDR) neurons were explored in the posterior thalamus. They were found within a narrow zone (about 300 μm wide) of the shell region of the nucleus ventralis posteromedialis (VPM), just rostral to the region where trigeminal nociceptive specific (NS) neurons were located. This narrow zone was somatotopically organized with respect to the center of the receptive field. The mandibular division was represented ventromedially, the ophthalamic division were represented dorsolaterally, and the maxillary division fell in between. Neither NS nor WDR trigeminal units were found within the medial part of the posterior complex of the thalamus (POm).     

Early-onset inflammatory responses in vivo to adenoviral vectors in the presence or absence of lipopolysaccharide-induced inflammation.

Adenoviral vectors (Ad) have potential for use in pulmonary gene transfer for treating cystic fibrosis (CF). However, Ad may induce inflammation even in the absence of gene expression. Endotoxin from gram-negative bacteria in the airways of CF patients may also induce inflammation, and may further inhibit vector delivery and gene transfer. We used a mouse model to study the time course of Ad-induced lung inflammation and to assess additivity with lipopolysaccharide (LPS)-induced inflammatory responses. C3H/HeJ endotoxin-resistant (RES) mice hyporesponsive to inflammatory stimuli and normoresponsive C3HeB/FeJ endotoxin-sensitive (SEN) mice were studied to characterize inflammatory responses that follow intratracheal instillation of inactivated Ad, with or without simultaneous inhalation exposure to LPS. Instillation of 10(10) Ad particles dramatically increased bronchoalveolar lavage fluid (BALF) concentrations of tumor necrosis factor (TNF)-alpha and interleukin (IL)-6 at 3 to 6 h and induced profound neutrophilia, maximal at 12 to 24 h. SEN mice had tenfold greater responses than did RES mice at 6, 12, and 24 h. Mice exposed to Ad alone, LPS alone, or Ad + LPS had significant inflammation at the 3-h time point as demonstrated by BALF neutrophils, TNF-alpha, and IL-6. With all three treatments, SEN mice had a five- to 300-fold greater response than did RES mice. Importantly, Ad + LPS yielded no greater inflammatory response than LPS without Ad. These data demonstrate that replication-deficient Ad induce early inflammation and LPS-induced inflammation is not augmented by concurrent treatment with Ad.