Experiencing neonatal maternal separation increased the seizure threshold in adult male mice: Involvement of the opioid system.

Experiencing early-life stress has been considered as a potent risk factor for the development of many of brain disorders, including seizures. Intervening mechanisms through which neonatal maternal separation (MS) alters the seizure susceptibility in adulthood have not been well studied. In the current study, by applying 180 min of MS stress (PND 2-14), we determined the seizure susceptibility and considered the role of the opioid system. Maternal separation increased the seizure threshold, and administration of anticonvulsant/proconvulsant doses of morphine (1 and 30 mg/kg, respectively) reversed the impact of MS. Using tail flick and hot plate tests, we exposed animals to 30 min Restraint stress (RS) and found that MS decreased the pain threshold, suggesting the hyporesponsiveness of the opioid system. These results supported the abnormal seizure activity observed in the MS mice and suggested that abnormalities in the opioid system following MS alter seizure susceptibility in later life.

[Place of the opioid system in biology and treatment of Alcohol Use Disorder]. / Système opioïde endogène et stratégies thérapeutiques dans la dépendance à l'alcool.

While the DSM 5 has formalized the terminology "Alcohol Use Disorders" (AUD) or "disorders of the use of alcohol" (UAW French translation in progress), the term "alcohol dependence" still used in ICD-10, apriority in the future ICD-11 and above in clinical practice. Addiction to alcohol is the cause of mortality and major morbidity. In terms of therapeutic strategies for its management, alongside the maintenance of abstinence after withdrawal (with a high rate of relapse), the reduction of alcohol consumption below certain thresholds of intake is emerging in order to reduce risk, improve health and regain control of consumption even be an intermediate step towards abstinence. The role of the endogenous opioid system in the modulation of the activity of dopaminergic neurons from the circuit of reward and motivation is well established. An unsteadiness of this system has been described in the alcohol dependence. Indeed, a hypofunction of the endorphin pathway and its mu receptor and a hyperactivity of the dynorphin pathway and its kappa receptor participate in the alcohol reinforcing effects (especially positive and negative). The development of active molecules in this system allows better management of alcohol dependence. Besides naltrexone (mu antagonist) allowed in the maintenance of abstinence after withdrawal, another molecule (nalmefene) with modulating properties of µ and κ opioid receptors is the first drug having obtained an MA in reducing consumption in adult patients with alcohol dependence. Its modulating original pharmacological properties by targeting both the positive but also the negative reinforcing effects of alcohol, are responsible for its development in reducing consumption in the alcohol dependence.

[Development of physical dependence on nicotine and endogenous opioid system--participation of α7 nicotinic acetylcholine receptor].

Nicotine (NIC) regulates various cellular functions acting on the nicotinic acetylcholine receptor (nAChR). And nAChR consists of ligand-gated cation channels with pentameric structure and composed of α and ß subunits. In the central nervous system, α 4 ß 2 and α 7 nAChRs are the most abundantly expressed as nAChR subtypes. There are several lines of evidence indicating that systemic administration of NIC elicits the release of endogenous opioids, such as, endorphins, enkephalins and dynorphins, in the brain. NIC exerts numerous acute effects, for example, antinociceptive effects and the activating effects of the hypothalamic-pituitary-adrenal (HPA) axis. In these effects, NIC-induced antinociception, but not HPA axis activation, was inhibited by opioid receptor antagonist, naloxone (NLX), and was also suppressed in morphine tolerated mice, indicating the participation of the endogenous opioid system in NIC-induced antinociception, but not HPA axis activation. Moreover, NIC-induced antinociception was antagonized by both α 4 ß 2 and α 7 nAChR antagonists, while NIC-induced HPA axis activation was antagonized by α 4 ß 2 nAChR antagonist, but not by α 7 nAChR antagonist. These results suggest that the endogenous opioid system may not be located on the downstream of α 4 ß 2 nAChR. On the other hand, NIC has substantial physical dependence liability. NLX elicits NIC withdrawal after repeated NIC administration evaluated by corticosterone increase as a withdrawal sign, and NLX-precipitated NIC withdrawal is inhibited by concomitant administration of other opioid receptor antagonist, naltrexone, indicating the participation of endogenous opioid system in the development of physical dependence on NIC. NLX-precipitated NIC withdrawal was also inhibited by concomitant administration of an α 7 nAChR antagonist, but not an α 4 ß 2 nAChR antagonist. Taken together, these findings suggest that the endogenous opioid system may be located on the downstream of α 7 nAChR and participates in the development of physical dependence on NIC.

Pleiotropic opioid regulation of spinal endomorphin 2 release and its adaptations to opioid withdrawal are sexually dimorphic.

We studied adaptations to acute precipitated opioid withdrawal of spinal µ-opioid receptor (MOR)-coupled regulation of the release of endomorphin 2 (EM2). The release of this highly MOR-selective endogenous opioid from opioid-naive spinal tissue of male rats is subjected to MOR-coupled positive as well as negative modulation via cholera toxin-sensitive G(s) and pertussis toxin-sensitive G(i)/G(o), respectively. The net effect of this concomitant bidirectional modulation is inhibitory. MOR-coupled pleiotropic regulation of EM2 release is retained in opioid-withdrawn spinal tissue of male rats, but the balance of MOR-coupled inhibitory and facilitatory regulation shifted such that facilitatory regulation predominates. Augmented coupling of MOR to G(s) is causally associated with this change. Strikingly, pleiotropic characteristics of MOR-coupled regulation of spinal EM2 release and adaptations thereof to opioid withdrawal are male-specific. In females, MOR-coupled regulation of EM2 release from opioid-naive and -withdrawn spinal tissue does not have a significant G(s)-coupled facilitatory component, and MOR-coupled inhibition of EM2 release persists unabated in withdrawn preparations. The male-specific adaptations to chronic morphine that shift the relative predominance of opposing dual G protein-coupled MOR pathways provides a mechanism for mitigating inhibitory MOR signaling without losing MOR-coupled feedback regulation. These adaptations enable using endogenous EM2 as a substitute for morphine that had been precipitously removed. The sexually dimorphic functionality and regulation of spinal EM2/MOR-coupled signaling suggest the clinical utility of using sex-specific treatments for addiction that harness the activity of endogenous opioids.

The placebo effect: how the subconscious fits in.

The placebo effect is very well known, being replicated in many scientific studies. At the same time, its exact mechanisms still remain unknown. Quite a few hypothetical explanations for the placebo effect have been suggested, including faith, belief, hope, classical conditioning, conscious/subconscious expectation, endorphins, and the meaning response. This article argues that all these explanations may boil down to autosuggestion, in the sense of "communication with the subconscious." An important implication of this is that the placebo effect can in principle be used effectively without the placebo itself, through a direct use of autosuggestion. The benefits of such a strategy are clear: fewer side effects from medications, huge cost savings, no deception of patients, relief of burden on the physician's time, and healing in domains where medication or other therapies are problematic.

Effectiveness of electroacupuncture analgesia compared with opioid administration in a dog model: a pilot study.

BACKGROUND: Although opioid analgesics are the usual drugs to treat post-surgical pain, acupuncture has also been demonstrated to relieve various pain syndromes. The present pilot study aims to investigate the efficacy of electroacupuncture compared with a conventional opioid compound, butorphanol, for postoperative pain treatment in dogs undergoing elective ovariohysterectomy. METHODS: Twelve dogs were randomly allocated into two groups. Dogs received either electroacupuncture stimulation (16 and 43 Hz) at Shen Shu, Chang Shu, He Gu, Tai Yuan, Zu San Li, Yang Ling Quan, and Bai Hui acupoints, while control dogs were treated with butorphanol. Cardiovascular and respiratory parameters were recorded for both groups during operation. Plasma ß-endorphin concentrations were evaluated before surgery (baseline) and up to 24 h later. For each dog, pain was measured according to a dedicated subjective pain scoring system. RESULTS: Plasma ß-endorphin levels in dogs receiving electroacupuncture increased significantly against baseline values after 1 and 3 h after surgery. Moreover, the end-tidal isoflurane concentration needed for second ovary traction was significantly lower in acupuncture-treated dogs than control animals. All animals having electroacupuncture experienced prolonged analgesia, over 24 h at least, while four out of six dogs treated with butorphanol needed post-surgical ketorolac and tramadol supplementation to their pain relief. CONCLUSIONS: The results obtained from the present investigation showed some evidence for electroacupuncture as an alternative technique to provide postoperative analgesia in dogs.

Neuroendocrine regulation of GnRH release and expression of GnRH and GnRH receptor genes in the hypothalamus-pituitary unit in different physiological states.

This review is focused on the relationship between neuroendocrine regulation of GnRH/LH secretion and the expression of GnRH and GnRH receptor (GnRHR) genes in the hypothalamic-pituitary unit during different physiological states of animals and under stress. Moreover, the involvement of hypothalamic GABA-ergic, Beta-endorphinergic, CRH-ergic, noradrenergic, dopaminergic and GnRH-ergic systems in the regulation of expression of the GnRH and GnRHR genes as well as secretion of GnRH/LH is analyzed. It appears that the neural mechanisms controlling GnRH gene expression in different physiological states may be distinct from those regulating GnRH/LH release. The hypothalamic GnRHR gene is probably located in different neural systems and may act in a specific way on GnRH gene expression and GnRH release.

[The potential of the analgetic placebo effect - s3-guideline recommendation on the clinical use for acute and perioperative pain management]. / Das Potenzial des analgetischen Plazeboeffektes - S3-Leitlinien-Empfehlung zur Behandlung akuter und perioperativer Schmerzen. rklinger@uni-hamburg.de

The effectiveness of the analgetic placebo effect has been confirmed by several meta-analyses: not only can substances without active agents (placebos) achieve (hypo-) analgetic effectiveness, but also the effectiveness of active analgetics can be increased by added placebo effects. For this reason the new AWMF-S3 guidelines (DIVS 2009, www.awmf.org ) on the "treatment of acute and perioperative pain" recommend the clinical use of placebo effects and the avoidance of nocebo effects. The point is not to use placebos as a substitute for analgetics, but rather to add placebo effects on to those of analgetics.

[Nonsuicidal self-injury in adolescence]. / Selbstverletzendes Verhalten im Jugendalter.

Nonsuicidal self-injury (NSSI) usually starts in adolescence. International studies report prevalence rates between 3 and 37% (for Germany between 15 and 26%) in adolescents. From a neurobiological perspective, there is evidence that primarily the serotonergic system is involved in the origin and maintenance of this behaviour. NSSI is often used by adolescents to influence aversive affective states, but sometimes serves other functions as well, such as self-punishment or anti-dissociation. To date there are many assessment instruments, some of which are available in a German translation. Regarding psychotherapeutic interventions there is evidence for a good efficacy of dialectical behavioral therapy for adolescents (DBT-A). There is little evidence for psychopharmacological interventions in childhood and adolescence; thus treatment should focus on psychotherapeutic interventions.

[The endogenous opioid system and drug addiction]. / Le système opioïde endogène et l'addiction aux drogues.

Drug addiction is a chronic brain disorder leading to complex adaptive changes within the brain reward circuits. Several neurotransmitters, including the endogenous opioid system are involved in these changes. The opioid system plays a pivotal role in different aspects of addiction. Thus, opioid receptors and endogenous opioid peptides are largely distributed in the mesolimbic system and modulate dopaminergic activity within the reward circuits. Opioid receptors and peptides are selectively involved in several components of the addictive processes induced by opioids, cannabinoids, psychostimulants, alcohol and nicotine. This review is focused on the contribution of each component of the endogenous opioid system in the addictive properties of the different drugs of abuse.

Comparison of the distribution of dynorphin systems and enkephalin systems in brain.

A study of the anatomical distribution of the endogenous opioid dynorphin in rat brain showed that the peptide is localized in a widespread system with multiple cell groups and projections. This network is revealed by the use of multiple antiserums against dynorphin and can be distinguished from the system containing methionine-enkephalin and leucine-enkephalin, which is mapped by the use of antiserums against the enkephalins and biosynthetically related peptides in the adrenal. It thus appears that the brain contains at least three separate opioid neuronal networks: an enkephalin family with components similar to those found in the adrenal, a beta-endorphin family, and a dynorphin family.

Nonopiate effects of dynorphin and des-Tyr-dynorphin.

Intracerebroventricular administration of dynorphin produced potent and long-lasting effects on motor function and the electroencephalogram in rats. In addition, local iontophoretic or pressure ejection of dynorphin consistently inhibited hippocampal unit activity. None of these effects were significantly affected by naloxone even at high doses. Moreover, a fragment of dynorphin that failed to displace any of a number of tritiated narcotics from rat brain homogenates produced similar effects on these physiological measures in vivo. On the basis of a variety of criteria for "opiate action," the results suggest that a second biologically active site within the dynorphin sequence is capable of quite potent but nonopiate effects.

Opioid-like analgesia in defeated mice.

Mice exposed to repeated attacks by other mice showed decreased nociception in response to radiant heat focused on their tails. This form of analgesia was blocked by centrally acting opiate antagonists and was not observed in morphine-tolerant mice; furthermore, mice repeatedly subjected to defeat. Mice of the CXBK strain, which respond weakly to morphine, displayed only moderate analgesia following defeat. These findings suggest that endogenous opioid-mediated analgesic mechanisms are readily activated by situations involving biologically significant forms of stress, such as defeat.

Endorphin-mediated increases in pain threshold during pregnancy.

Maternal pain thresholds in rats were determined during various stages of pregnancy and parturition by measuring the intensity of electric shock that elicited reflexive jumping. There was a gradual rise in the pain threshold between 16 and 4 days prior to parturition and a more abrupt rise 1 to 2 days before that event. This increase was abolished by long-term administration of the narcotic antagonist naltrexone. The endorphin system is thus an important component of intrinsic mechanisms that modulate responsiveness to aversive stimuli. The data also demonstrate the activation during pregnancy of an endorphin system that is apparently quiescent in nonpregnant female rats treated the same way.

Corticosterone: a critical factor in an opioid form of stress-induced analgesia.

The finding that some opioid-mediated forms of stress-induced analgesia are antagonized by hypophysectomy and dexamethasone has led to the suggestion that beta-endorphin, released from the pituitary, may mediate these analgesic reactions. "Long-term analgesia" (an opioid-mediated form of stress-induced analgesia), which is blocked by dexamethasone and hypophysectomy, was also blocked by adrenalectomy and reinstated with corticosterone therapy. Corticosterone is proposed to play a permissive role in long-term analgesia and to be a critical hormone mediating this phenomenon.

Opiates and pain pathways: demonstration of enkephalin synapses on dorsal horn projection neurons.

The participation of the opiate peptide enkephalin in the neural circuitry of the dorsal horn was examined at the light and ultrastructural level through the use of the combined techniques of immunocytochemistry and retrograde transport of horseradish peroxidase. Enkephalin immunoreactive axonal endings made direct synaptic contact with the soma and proximal dendrites of dorsal horn thalamic projection neurons. This observation demonstrates that one major synaptic site of enkephalin modulation of the transfer of nociceptive information in the dorsla horn is on the projection neurons themselves.U

Morphine tolerance in genetically selected rats induced by chronically elevated saccharin intake.

Rats of line LC2-Hi that drank about 50 milliliters of a highly palatable saccharin solution daily for 28 consecutive days did not show morphine analgesia or an opioid form of stress-induced analgesia and were not responsive to naloxone. These findings support the idea that chronically elevated saccharin intake may cause increased release and utilization of endogenous opiates.

Mediation of diurnal fluctuations in pain sensitivity in the rat by food intake patterns: reversal by naloxone.

Rats maintained on a 12-hour light-dark cycle were tested for pain sensitivity after being deprived of food during either the dark or the light phase of the cycle. Diurnal fluctuations in pain sensitivity were observed. The fluctuations followed food intake patterns rather than a natural circadian rhythm, with food deprivation producing a decrease in pain sensitivity. The analgesic response produced by this mild food deprivation was strongly attenuated by naloxone or feeding, suggesting that endogenous opioid systems may be related to patterns of food intake.

Opioid and nonopioid mechanisms of stress analgesia.

Inescapable foot shock in rats caused profound analgesia that was antagonized by naloxone or dexamethasone when shock was delivered intermittently for 30 minutes, but not when it was delivered continuously for 3 minutes. Thus, depending only on its temporal characteristics, foot-shock stress appears to activate opioid or nonopioid analgesia mechanisms. Certain forms of stress may act as natural inputs to an endogenous opiate analgesia system.

Endogenous opiates mediate radiogenic behavioral change.

Exposure of C57BL/6J mice to ionizing radiation caused stereotypical locomotor hyperactivity similar to that produced by morphine. Naloxone administration prevented this radiation-induced behavioral activation. These results support the hypothesis that endorphins are involved in some aspects of radiogenic behavioral change.