Chronic stress sensitizes amphetamine-elicited 50-kHz calls in the rat: Dependence on positive affective phenotype and effects of long-term fluoxetine pretreatment.

High level of positive affectivity acts as a protective factor against adverse effects of stress and decreases vulnerability to mood disorders and drug abuse. Fifty-kHz ultrasonic vocalizations (50-kHz USV) index the level of positive affect in the rat, whereas stable, trait-like inter-individual differences in terms of vocalization activity exist. Previously we have demonstrated that chronic stress can alter the effect of repeated amphetamine administration on 50-kHz vocalizations, and this effect is different in rats with high and low positive affectivity. In the present study it was tested whether the chronic stress effect on amphetamine-induced 50-kHz USV activity is altered by inhibition of serotonin reuptake. Male Wistar high (HC) and low (LC) 50-kHz vocalizing rats were subjected to 43-day chronic variable stress (CVS) regimen. On day 17 of the CVS, the four-week once a day fluoxetine (10 mg/kg) treatment was started. After the CVS and fluoxetine treatment, amphetamine (1 mg/kg) was daily administered for ten days and again nine days after withdrawal. Chronically stressed rats developed cross-sensitization of 50-kHz USV-s with repeated administration of amphetamine except the stressed LC rats that had not received fluoxetine. Amphetamine treatment decreased serotonin turnover in the fluoxetine-treated HC rats, but increased it in fluoxetine-treated LC rats. The effect of amphetamine on levels of amino acids in frontal cortex and hippocampus also depended on previous experience with chronic stress, repeated treatment with fluoxetine, and positive affectivity. Hence, this study provides further evidence the effects of chronic stress, psychostimulants, and a selective serotonin reuptake inhibitor are influenced by the inherent positive affectivity.

Central Sensitization Is Modulated Following Trigger Point Anesthetization in Patients with Chronic Pain from Whiplash Trauma. A Double-Blind, Placebo-Controlled, Crossover Study.

Objective: Central sensitization (CS) with low peripheral pain thresholds (PPTs) is a common finding among patients with chronic pain after whiplash (CPWI). While it has been proposed that myofascial myofascial trigger points (MTrPs) may act as modulators of central sensitization, previously reported findings are conflicting and inconclusive. The present study was designed to investigate immediate responsiveness of CS to alterations in nociceptive input. Design: Controlled, double-blind, cross-over. Subjects: Thirty-one patients with chronic pain (trapezius myalgia) and CS after whiplash. Methods: Participants were referred by randomization to group A for injection of a single peripheral pain generator (MTrP or other discrete tender point) with local anesthetic or to group B for sham injection and cross-over. Documentation of PPT (Algometer), maximum jaw opening (caliper), and grip strength (Vigorimeter), as well as subjective overall pain (visual analog scale [VAS]), was made before and after each intervention. Results: Statistical analysis of data (Student's t test, analysis of variance) confirmed that peripheral pain thresholds were significantly higher and maximum jaw opening significantly greater after anesthetizing a focal pain generator in the trapezius, but not after a sham injection. In contrast with the objective variables, subjective generalized pain improved (VAS) after not only an injection of local anesthetic, but also, and to a similar extent, after a sham injection. Conclusions: CS, as expressed by lowered PPT, is a rapidly adjusting physiological response to nociceptive stimuli in some patients with chronic pain after whiplash. PPT are likely modulated by myofascial tender points in selected patients with CS. With reference to the present findings, surgical ablation of MTrPs is discussed as a potential treatment modality for CS.

Differential Desensitization Observed at Multiple Effectors of Somatic µ-Opioid Receptors Underlies Sustained Agonist-Mediated Inhibition of Proopiomelanocortin Neuron Activity.

Activation of somatic µ-opioid receptors (MORs) in hypothalamic proopiomelanocortin (POMC) neurons leads to the activation of G-protein-coupled inward rectifier potassium (GIRK) channels and hyperpolarization, but in response to continued signaling MORs undergo acute desensitization resulting in robust reduction in the peak GIRK current after minutes of agonist exposure. We hypothesized that the attenuation of the GIRK current would lead to a recovery of neuronal excitability whereby desensitization of the receptor would lead to a new steady state of POMC neuron activity reflecting the sustained GIRK current observed after the initial decline from peak with continued agonist exposure. However, electrophysiologic recordings and GCaMP6f Ca2+ imaging in POMC neurons in mouse brain slices indicate that maximal inhibition of cellular activity by these measures can be maintained after the GIRK current declines. Blockade of the GIRK current by Ba2+ or Tertiapin-Q did not disrupt the sustained inhibition of Ca2+ transients in the continued presence of agonist, indicating the activation of an effector other than GIRK channels. Use of an irreversible MOR antagonist and Furchgott analysis revealed a low receptor reserve for the activation of GIRK channels but a >90% receptor reserve for the inhibition of Ca2+ events. Altogether, the data show that somatodendritic MORs in POMC neurons inhibit neuronal activity through at least two effectors with distinct levels of receptor reserve and that differentially reflect receptor desensitization. Thus, in POMC cells, the decline in the GIRK current during prolonged MOR agonist exposure does not reflect an increase in cellular activity as expected.SIGNIFICANCE STATEMENT Desensitization of the µ-opioid receptor (MOR) is thought to underlie the development of cellular tolerance to opiate therapy. The present studies focused on MOR desensitization in hypothalamic proopiomelanocortin (POMC) neurons as these neurons produce the endogenous opioid ß-endorphin and are heavily regulated by opioids. Prolonged activation of somatic MORs in POMC neurons robustly inhibited action potential firing and Ca2+ activity despite desensitization of the MOR and reduced activation of a potassium current over the same time course. The data show that somatic MORs in POMC neurons couple to multiple effectors that have differential sensitivity to desensitization of the receptor. Thus, in these cells, the cellular consequence of MOR desensitization cannot be defined by the activity of a single effector system.

Dietary supplementation with fish oil prevents high fat diet-induced enhancement of sensitivity to the locomotor stimulating effects of cocaine in adolescent female rats.

BACKGROUND: Eating a diet high in fat can lead to obesity, chronic metabolic disease, and increased inflammation in both the central and peripheral nervous systems. Dietary supplements that are high in omega-3 polyunsaturated fatty acids can reduce or prevent these negative health consequences in rats. Eating high fat chow also increases the sensitivity of rats to behavioral effects of drugs acting on dopamine systems (e.g., cocaine), and this effect is greatest in adolescent females. METHODS: The present experiment tested the hypothesis that dietary supplementation with fish oil prevents high fat chow induced increases in sensitivity to cocaine in adolescent female rats. Female Sprague-Dawley rats (post-natal day 25-27) ate standard laboratory chow (5.7% fat), high fat chow (34.4% fat), or high fat chow supplemented with fish oil (20% w/w). Cocaine dose dependently (1-17.8mg/kg) increased locomotion and induced sensitization across 6 weeks of once-weekly testing in all rats; however, these effects were greatest in rats eating high fat chow. RESULTS: Dietary supplementation with fish oil prevented enhanced locomotion and sensitization in rats eating high fat chow. There were no differences in inflammatory markers in plasma or the hypothalamus among dietary conditions. CONCLUSIONS: These results demonstrate that dietary supplementation with fish oil can prevent high fat diet-induced sensitization to cocaine, but they fail to support the view that these effects are due to changes in proinflammatory cytokines. These data add to a growing literature on the relationship between diet and drug abuse and extend the potential health benefits of fish oil to stimulant drug abuse prevention.

Region-specific activation of the AMPK system by cocaine: The role of D1 and D2 receptors.

The 5' adenosine monophosphate-activated protein kinase (AMPK) functions as an intracellular energy sensor that regulates and maintains energy balance. The psychostimulant drug cocaine has profound effects on behavior that are accentuated with repeated use, which is a process termed sensitization. Thus, the present study examined whether the sensitizing effects of cocaine could be observed in the AMPK system and aimed to determine whether these effects were mediated by dopamine (DA) D1 or D2 receptors. In the first set of experiments, rats were injected daily for 5days with either cocaine (15mg/kg, intraperitoneal [IP]) or saline. On the day 6, each group was divided into two subgroups and given either cocaine or saline. In the second set of experiments, rats were pretreated with SCH23390 (0.5mg/kg, IP), haloperidol (1mg/kg, IP), or both agents in combination, followed by cocaine or saline treatment. In the drug-naïve state, acute treatment with cocaine produced an increase in locomotor activity and increased AMPK phosphorylation in the frontal cortex but decreased it in the dorsal striatum. In the drug-sensitized state (following repeated treatment), the behavioral responsiveness to cocaine was augmented and accompanied by alterations in AMPK activity. The phosphorylation levels of the upstream kinases Ser-431-LKB1 and Thr-196-CaMK4 were congruent with the changes in AMPK activity. Thr-184/187-TAK1 was phosphorylated after chronic cocaine treatment in the dorsal striatum but not in the frontal cortex. The opposite effects induced by cocaine in the AMPK system in the dorsal striatum and frontal cortex may be explained by the differential activations of DA D1 and D2 receptors in these brain regions.

Pioglitazone Inhibits the Development of Hyperalgesia and Sensitization of Spinal Nociresponsive Neurons in Type 2 Diabetes.

UNLABELLED: Thiazolidinedione drugs (TZDs) such as pioglitazone are approved by the U.S. Food and Drug Administration for the treatment of insulin resistance in type 2 diabetes. However, whether TZDs reduce painful diabetic neuropathy (PDN) remains unknown. Therefore, we tested the hypothesis that chronic administration of pioglitazone would reduce PDN in Zucker Diabetic Fatty (ZDF(fa/fa) [ZDF]) rats. Compared with Zucker Lean (ZL(fa/+)) controls, ZDF rats developed: (1) increased blood glucose, hemoglobin A1c, methylglyoxal, and insulin levels; (2) mechanical and thermal hyperalgesia in the hind paw; (3) increased avoidance of noxious mechanical probes in a mechanical conflict avoidance behavioral assay, to our knowledge, the first report of a measure of affective-motivational pain-like behavior in ZDF rats; and (4) exaggerated lumbar dorsal horn immunohistochemical expression of pressure-evoked phosphorylated extracellular signal-regulated kinase. Seven weeks of pioglitazone (30 mg/kg/d in food) reduced blood glucose, hemoglobin A1c, hyperalgesia, and phosphorylated extracellular signal-regulated kinase expression in ZDF. To our knowledge, this is the first report to reveal hyperalgesia and spinal sensitization in the same ZDF animals, both evoked by a noxious mechanical stimulus that reflects pressure pain frequently associated with clinical PDN. Because pioglitazone provides the combined benefit of reducing hyperglycemia, hyperalgesia, and central sensitization, we suggest that TZDs represent an attractive pharmacotherapy in patients with type 2 diabetes-associated pain. PERSPECTIVE: To our knowledge, this is the first preclinical report to show that: (1) ZDF rats exhibit hyperalgesia and affective-motivational pain concurrent with central sensitization; and (2) pioglitazone reduces hyperalgesia and spinal sensitization to noxious mechanical stimulation within the same subjects. Further studies are needed to determine the anti-PDN effect of TZDs in humans.

Increase in medial frontal cortex ERK activation following the induction of apomorphine sensitization.

Repeated high dose injections of the direct acting D1/D2 agonist apomorphine (APO) induces context specific behavioral sensitization. We assessed the effects of 2.0 mg/kg APO on open-field locomotor responses of rats over a 30 min period following either single or five daily APO injections. Acute injections increased locomotor activity, which was markedly increased in rats given 5 daily APO injections. This progressive increase in locomotion during the repeated APO treatments is indicative of behavioral sensitization. Immediately following the open-field test for the acute and the fifth apomorphine injection, the animals were euthanized and their brain tissue was prepared for immunohistochemistry. ERK immunoreactive nuclei in the medial prefrontal cortex (PFC), nucleus accumbens (NAcc), amygdala (AMYG) and lateral hypothalamus (LH) were quantified. The acute apomorphine injections increased ERK in all brain areas as compared to vehicle. Following the fifth apomorphine injection, ERK significantly increased in the PFC, decreased in the amygdala but was unchanged in the LH and NAcc. The selective increase in ERK activity in the PFC associated with behavioral sensitization, points to a possible pivotal role of the dopamine projection to the medial frontal cortex in the mediation of neural plasticity, considered to underlie the sensitization processes induced by dopaminergic drugs.

Levo-tetrahydropalmatine attenuates the development and expression of methamphetamine-induced locomotor sensitization and the accompanying activation of ERK in the nucleus accumbens and caudate putamen in mice.

Levo-tetrahydropalmatine (l-THP) is an alkaloid purified from corydalis and has been used in many traditional Chinese herbal preparations for its analgesic, sedative, and hypnotic properties. Previous studies indicated that l-THP has modest antagonist activity against dopamine receptors and thus it might have potential therapeutic effects on drug addiction. However, whether and how l-THP contributes to methamphetamine (METH)-induced locomotor sensitization remains unclear. Therefore, the current study aims to examine the roles of l-THP in the development and expression of METH-induced locomotor sensitization as well as the accompanying extracellular-regulated kinase (ERK) activation in the nucleus accumbens (NAc), caudate putamen (CPu) and prefrontal cortex (PFc) in mice. We found that moderate doses of METH (0.5 and 2 mg/kg) induced hyper-locomotor activity in mice on all METH injection days whereas high dose of METH (5 mg/kg)-treated mice displayed only acute locomotor response to METH and severe stereotyped behaviors on the first day after drug injection. Interestingly, only 2 mg/kg dose of METH-induced locomotor sensitization which was accompanied by the activation of ERK1/2 in the NAc and CPu in mice. Although l-THP (5 and 10 mg/kg) per se did not induce obvious changes in locomotor activities in mice, its co-administration with METH could significantly attenuate acute METH-induced hyper-locomotor activity, the development and expression of METH-induced locomotor sensitization, and the accompanying ERK1/2 activation in the NAc and CPu. These results suggest that l-THP has potential therapeutic effect on METH-induced locomotor sensitization, and the underlying molecular mechanism might be related to its inhibitory effect on ERK1/2 phosphorylation in the NAc and CPu.

Inclusion of cocoa as a dietary supplement represses expression of inflammatory proteins in spinal trigeminal nucleus in response to chronic trigeminal nerve stimulation.

SCOPE: Central sensitization is implicated in the pathology of temporomandibular joint disorder and other types of orofacial pain. We investigated the effects of dietary cocoa on expression of proteins involved in the development of central sensitization in the spinal trigeminal nucleus (STN) in response to inflammatory stimulation of trigeminal nerves. METHODS AND RESULTS: Male Sprague-Dawley rats were fed either a control diet or an isocaloric diet consisting of 10% cocoa powder 14 days prior to bilateral injection of complete Freund's adjuvant (CFA) into the temporomandibular joint to promote prolonged activation of trigeminal ganglion neurons and glia. While dietary cocoa stimulated basal expression of glutamate-aspartate transporter and mitogen-activated protein kinase phosphatase-1 when compared to animals on a normal diet, cocoa suppressed basal calcitonin gene-related peptide levels in the STN. CFA-stimulated levels of protein kinase A, P2X3 , P-p38, glial fibrillary-associated protein, and OX-42, whose elevated levels in the STN are implicated in central sensitization, were repressed to near control levels in animals on a cocoa-enriched diet. Similarly, dietary cocoa repressed CFA-stimulated inflammatory cytokine expression. CONCLUSION: Based on our findings, we speculate that cocoa-enriched diets could be beneficial as a natural therapeutic option for temporomandibular joint disorder and other chronic orofacial pain conditions.