Reducing the stigma surrounding opioid use disorder: evaluating an opioid overdose prevention training program applied to a diverse population.

BACKGROUND: The opioid epidemic is a rapidly growing public health concern in the USA, as the number of overdose deaths continues to increase each year. One strategy for combating the rising number of overdoses is through opioid overdose prevention programs (OOPPs). OBJECTIVE: To evaluate the effectiveness of an innovative OOPP, with changes in knowledge and attitudes serving as the primary outcome measures. METHODS: The OOPP was developed by a group of medical students under guidance from faculty advisors. Training sessions focused on understanding stigmatizing factors of opioid use disorder (OUD), as well as protocols for opioid overdose reversal through naloxone administration. Pre- and post-surveys were partially adapted from the opioid overdose attitudes and knowledge scales and administered to all participants. Paired t-tests were conducted to assess differences between pre- and post-surveys. RESULTS: A total of 440 individuals participated in the training; 381 completed all or the majority of the survey. Participants came from a diverse set of backgrounds, ages, and experiences. All three knowledge questions showed significant improvements. For attitude questions, significant improvements were found in all three questions evaluating confidence, two of three questions assessing attitudes towards overdose reversal, and four of five questions evaluating stigma and attitudes towards individuals with OUD. CONCLUSIONS: Our innovative OOPP was effective not only in increasing knowledge but also in improving attitudes towards overdose reversal and reducing stigma towards individuals with OUD. Given the strong improvements in attitudes towards those with OUD, efforts should be made to incorporate the unique focus on biopsychosocial and sociohistorical components into future OOPPs.

Cognitive and behavioral effects of brief seizures in mice.

Comorbidities associated with epilepsy greatly reduce patients' quality of life. Since antiepilepsy drugs show limited success in ameliorating cognitive and behavioral symptoms, there is a need to better understand the mechanisms underlying epilepsy-related cognitive and behavioral impairments. Most prior research addressing this problem has focused on chronic epilepsy, wherein many factors can simultaneously impact cognition and behavior. The purpose of the present study was to develop a testing paradigm using mice that can provide new insight into how short-term biological changes underlying acute seizures impact cognition and behavior. In Experiment 1, naïve C57BL/6J mice were subjected to either three brief, generalized electroconvulsive seizure (ECS) or three sham treatments equally spaced over the course of 30 min. Over the next 2 h, mice were tested in a novel object recognition paradigm. Follow-up studies examined locomotor activity immediately before and after (Experiment 2), immediately after (Experiment 3), and 45 min after (Experiment 4) a set of three ECS or sham treatments. Whereas results demonstrated that there was no statistically significant difference in recognition memory acquisition between ECS and sham-treated mice, measures of anxiety-like behavior were increased and novel object interest was decreased in ECS-treated mice compared with that in sham. Interestingly, ECS also produced a delayed inhibitory effect on locomotion, decreasing open-field activity 45-min posttreatment compared to sham. We conclude that a small cluster of brief seizures can have acute, behaviorally relevant effects in mice, and that greater emphasis should be placed on events that take place before chronic epilepsy is established in order to better understand epilepsy-related cognitive and behavioral impairments. Future research would benefit from using the paradigms defined above to study the effects of individual seizures on mouse cognition and behavior.

Innovative curriculum: Integrating the bio-behavioral and social science principles across the LifeStages in basic science years.

Behavioral and social science integration in clinical practice improves health outcomes across the life stages. The medical school curriculum requires an integration of the behavioral and social science principles in early medical education. We developed and delivered a four-week course entitled "LifeStages" to the first year medical students. The learning objectives of the bio-behavioral and social science principles along with the cultural, economic, political, and ethical parameters were integrated across the lifespan in the curriculum matrix. We focused on the following major domains: Growth and Brain Development; Sexuality, Hormones and Gender; Sleep; Cognitive and Emotional Development; Mobility, Exercise, Injury and Safety; Nutrition, Diet and Lifestyle; Stress and coping skills, Domestic Violence; Substance Use Disorders; Pain, Illness and Suffering; End of Life, Ethics and Death along with Intergenerational issues and Family Dynamics. Collaboration from the clinical and biomedical science departments led to the dynamic delivery of the course learning objectives and content. The faculty developed and led a scholarly discussion, using the case of a multi-racial, multi-generational family during Active Learning Group (ALG) sessions. The assessment in the LifeStages course involved multiple assessment tools: including the holistic assessment by the faculty facilitator inside ALGs, a Team-Based Learning (TBL) exercise, multiple choice questions and Team Work Assessment during which the students had to create a clinical case on a LifeStages domain along with the facilitators guide and learning objectives.

Response rate decreasing effects of naloxone during chronic sucrose availability.

Studies in animal models suggest that sugar deprivation following excessive intake elicits some opioid-like withdrawal signs. In the present study, opioid-like effects of excessive sucrose intake were further characterized in C57BL/6 mice by comparing the effects of the opioid antagonist naloxone on food-reinforced responding before and during sucrose availability and, in parallel experiments, following chronic morphine administration. Results show that naloxone produced time-dependent and dose-dependent decreases in operant response rates after 4 weeks of excessive sucrose consumption, and that these effects were comparable with those produced by chronic morphine injections. These findings extend the observation that excessive sucrose consumption may produce opioid-like withdrawal signs, and suggest that operant assays of withdrawal-suppressed behaviors may be useful for further study of excessive sucrose consumption.

The CB1 negative allosteric modulator PSNCBAM-1 reduces ethanol self-administration via a nonspecific hypophagic effect.

Alcohol use disorder (AUD) affects >15 million people in the United States. Current pharmacotherapeutic treatments for AUD are only modestly effective, necessitating the identification of new targets for medications development. The cannabinoid receptor type 1 (CB1) has been a target of interest for the development of medications for substance use disorders and other compulsive disorders. However, CB1 antagonists/inverse agonists (e.g., rimonabant) have severe side effects that limit their clinical utility, including anxiety, depression, and suicide. Recent development of CB1 negative allosteric modulators (NAMs), including PSNCBAM-1, may provide an alternative mechanism of attenuating CB1 signaling with reduced side effects. PSNCBAM-1 has not yet been evaluated for effects in models of AUD. In this study, we investigated the effects of the CB1 NAM, PSNCBAM-1, in rodent models of AUD using adult male mice. PSNCBAM-1 dose-dependently attenuated oral ethanol self-administration (8 % w/v ethanol in water), significantly reducing ethanol rewards at a dose of 30 mg/kg, but not at 10 or 18 mg/kg. PSNCBAM-1 also dose-dependently attenuated palatable food self-administration (diluted vanilla Ensure), significantly reducing food rewards at 18 and 30 mg/kg PSNCBAM-1. PSNCBAM-1 did not affect conditioned place preference for 2 g/kg ethanol. These results suggest PSNCBAM-1 reduces ethanol-taking behavior via a nonspecific hypophagic effect and does not reduce the rewarding effects of ethanol.

Maackia amurensis seed lectin (MASL) ameliorates articular cartilage destruction and increases movement velocity of mice with TNFα induced rheumatoid arthritis.

Up to 70 million people around the world suffer from rheumatoid arthritis. Current treatment options have varied efficacy and can cause unwanted side effects. New approaches are needed to treat this condition. Sialic acid modifications on chondrocyte receptors have been associated with arthritic inflammation and joint destruction. For example, the transmembrane mucin receptor protein podoplanin (PDPN) has been identified as a functionally relevant receptor that presents extracellular sialic acid motifs. PDPN signaling promotes inflammation and invasion associated with arthritis and, therefore, has emerged as a target that can be used to inhibit arthritic inflammation. Maackia amurensis seed lectin (MASL) can target PDPN on chondrocytes to decrease inflammatory signaling cascades and reduce cartilage destruction in a lipopolysaccharide induced osteoarthritis mouse model. Here, we investigated the effects of MASL on rheumatoid arthritis progression in a TNFα transgenic (TNF-Tg) mouse model. Results from this study indicate that MASL can be administered orally to ameliorate joint malformation and increase velocity of movement exhibited by these TNF-Tg mice. These data support the consideration of MASL as a potential treatment for rheumatoid arthritis.

Anticonflict and reinforcing effects of triazolam + pregnanolone combinations in rhesus monkeys.

Combinations of positive modulators of benzodiazepine and neuroactive steroid sites on GABA(A) receptors have been shown to act in an additive or supra-additive manner depending on the endpoint under study, but they have not been assessed on experimentally induced conflict or drug self-administration. The present study examined the interactive effects of the benzodiazepine triazolam and the neuroactive steroid pregnanolone in a rhesus monkey conflict procedure (a model of anxiolysis) and on a progressive-ratio schedule of drug self-administration (a model of abuse potential). Both triazolam and pregnanolone decreased rates of nonsuppressed responding, whereas only triazolam consistently increased rates of suppressed responding (i.e., had an anticonflict effect). Fixed-ratio mixtures of triazolam and pregnanolone also decreased rates of nonsuppressed responding and did so in an additive manner. In contrast, mixtures of triazolam and pregnanolone produced either additive or supra-additive rate-increasing effects on suppressed responding, depending on the proportion of drugs in the mixture. Both triazolam and pregnanolone were self-administered significantly, and triazolam and pregnanolone mixtures had either proportion-dependent additive or infra-additive reinforcing effects. These results suggest that combinations of triazolam and pregnanolone may have enhanced anxiolytic effects with reduced behavioral disruption and abuse potential compared with either drug alone.

Opioid antinociception, tolerance and dependence: interactions with the N-methyl-D-aspartate system in mice.

This study explored the involvement of N-methyl-D-aspartate (NMDA) in the effects of µ-opioid agonists. A hot-plate procedure was used to assess antinociception and tolerance in mice in which the NR1 subunit of the NMDA receptor was reduced [knockdown (KD)] to approximately 10%, and in mice treated with the NMDA antagonist, (-)-6-phosphonomethyl-deca-hydroisoquinoline-3-carboxylic acid (LY235959). The µ opioid agonists, morphine, l-methadone and fentanyl, were approximately three-fold less potent in the NR1 KD mice than in wild-type (WT) controls; however, the development of morphine tolerance and dependence did not differ markedly in the NR1 KD and the WT mice. Acute administration of the NMDA antagonist, LY235959, produced dose-dependent, leftward shifts in the morphine dose-effect curve in the WT mice, but not in the NR1 KD mice. Chronic administration of LY235959 during the morphine tolerance regimen did not attenuate the development of tolerance in the NR1 KD or the WT mice. These results indicate that the NR1 subunit of the NMDA receptor does not play a prominent role in µ opioid tolerance.

Effectiveness of a Team-Based Learning exercise in the learning outcomes of a medical pharmacology course: insight from struggling students.

We have previously reported that multiple Team-Based Learning (TBL™) exercises in a 4-week pre-clinical medical school course improved final exam performance and significantly reduced the number of course failures. Here, we conducted a long-term study, with eight cohorts of first-year medical students, to determine whether the implementation of a single TBL individual readiness assessment test (iRAT) exercise in a 4-week medical school pharmacology course produces similar effects in overall course performance. We implemented a single TBL iRAT exercise that covered the subjects addressed during one week of the medical pharmacology course, with the four most recent cohorts of students matriculating at Cooper Medical School of Rowan University (n = 403). The first four cohorts matriculating at CMSRU did not participate in the TBL exercises (n = 266). Correlation of individual student TBL iRAT and final examination scores in the medical pharmacology course was compared to a second, unrelated first-year course (physiology) to control for variation in student performance between cohorts. We found that there was a significant moderate correlation between final examination and TBL iRAT scores (r = 0.49, p < 0.01, n = 403). Interestingly this moderate correlation was seen in students performing in the lower 25th percentile on the course final examination (r = 0.41, p < 0.01, n = 101) and negligible in students performing in the upper 25th percentile (r = 0.11, n = 101, p > 0.05). Implementation of the single TBL exercise also significantly reduced variance or range of student final examination performance compared to the group of the first four cohorts. These results suggest that implementation of a single TBL exercise, which covers only one week of content delivered in a 1-month medical pharmacology course, benefits first-year medical students by reducing the disparity in knowledge acquisition among them and providing a means to identify students who may struggle with course content.

Synergistic antihyperalgesic and antinociceptive effects of morphine and methyl 8-ethynyl-6-(pyridin-2-yl)-4H-benzo[f]imidazo[1,5-a][1,4]diazepine-3-carboxylate (MP-III-024): a positive allosteric modulator at α2GABAA and α3GABAA receptors.

RATIONALE: Opioid and GABAA receptors are both located in central nociceptive pathways, and compounds that activate these receptors have pain-relieving properties. To date, the interactive effects of concurrent administration of these compounds in preclinical models of pain-like behaviors have not been assessed. OBJECTIVE: The purpose of this study was to examine the interactive effects of the µ-opioid agonist morphine and the α2GABAA and α3GABAA receptor positive allosteric modulator methyl 8-ethynyl-6-(pyridin-2-yl)-4H-benzo[f]imidazo[1,5-a][1,4]diazepine-3-carboxylate (MP-III-024) in preclinical models of mechanical hyperalgesia and thermal nociception. METHODS: The antihyperalgesic and antinociceptive effects of morphine and MP-III-024 administered alone were assessed initially, followed by fixed-ratio mixtures of MP-III-024/morphine combinations. Drug interaction data were analyzed using isobolographic and dose-addition analyses. All studies were conducted in male CD-1 mice. RESULTS: In the assay of mechanical hyperalgesia, each compound produced dose-dependent antihyperalgesic effects, whereas only morphine was effective on thermal nociception. Fixed-ratio mixtures of MP-III-024/morphine were also dose-dependently effective in both procedures. These drug combination studies revealed that morphine and MP-III-024 produced supra-additive (synergistic) effects in both assays, depending on their relative proportions. CONCLUSIONS: These results demonstrate an interaction between α2GABAA and α3GABAA receptor- and µ-opioid receptor-mediated signals and suggest that combination therapy may be useful for the treatment of pain-related disorders.

Abuse Liability, Anti-Nociceptive, and Discriminative Stimulus Properties of IBNtxA.

IBNtxA (3-iodobenzoyl naltrexamine) is a novel µ-opioid receptor (MOR) agonist which is structurally related to the MOR antagonist naltrexone. Recent studies suggest IBNtxA preferentially signals through truncated MOR splice variants, resulting in anti-nociception with reduced side effects, including no conditioned place preference (CPP) when tested at a single dose. IBNtxA represents an intriguing lead compound for preclinical drug development targeting truncated MOR splice variants, but further evaluation of its in vivo pharmacological profile is necessary. The purpose of this study was to independently verify the antinociceptive properties of IBNtxA and to examine more completely the rewarding properties and discriminative stimulus effects of IBNtxA, allowing broader assessment of IBNtxA as a candidate for further medications development. A dose of 3 mg/kg IBNtxA was equipotent to 10 mg/kg morphine in a hot-plate analgesia assay. In drug discrimination testing using mice trained to discriminate between 3 mg/kg IBNtxA and vehicle, the κ-agonist U-50488 fully substituted for IBNtxA. MOR agonist morphine, δ-agonist SNC162, NOP agonist SCH 221510, and MOR/NOP partial agonist buprenorphine each partially substituted for IBNtxA. IBNtxA up to 3 mg/kg did not produce a place preference in CPP. Pretreatment with 3 mg/kg IBNtxA but not 1 mg/kg IBNtxA attenuated acquisition of place preference for 10 mg/kg morphine. A dose of 3 mg/kg IBNtxA attenuated morphine-induced hyperlocomotion but did not alter naloxone-precipitated morphine withdrawal. Overall, IBNtxA has a complicated opioid receptor pharmacology in vivo. These results indicate that IBNtxA produces potent anti-nociception and has low abuse liability, likely driven by substantial κ agonist signaling effects.

Morphine in combination with metabotropic glutamate receptor antagonists on schedule-controlled responding and thermal nociception.

The present study examined the interactive effects of morphine in combination with metabotropic glutamate (mGlu) receptor antagonists on schedule-controlled responding and thermal nociception. Drug interaction data were examined with isobolographic and dose-addition analysis. Morphine, the mGlu1 receptor antagonist JNJ16259685 [(3,4-dihydro-2H-pyrano-[2,3-b]quinolin-7-yl)-(cis-4-methoxycyclohexyl)-methanone], the mGlu5 receptor antagonist MPEP [2-methyl-6-(phenylethynyl)pyridine hydrochloride], and the mGlu2/3 receptor antagonist LY341495 [(2S)-2-amino-2-[(1S,2S-2-carboxycycloprop-1-yl]-3-(xanth-9-yl) propanoic acid] all decreased rates of schedule-controlled responding. JNJ16259685/morphine, MPEP/morphine, and LY341495/morphine mixtures produced additive effects on this endpoint. Morphine also produced dose-dependent antinociception in the assay of thermal nociception, whereas JNJ16259685, MPEP, and LY341495 failed to produce an effect. In this assay, JNJ16259685 and LY341495 potentiated the antinociceptive effects of morphine, whereas MPEP/morphine mixtures produced additive effects. These results suggest that an mGlu1 and an mGlu2/3 receptor antagonist, but not an mGlu5 receptor antagonist, selectively enhance the antinociceptive effects of morphine. In addition, these data confirm that the behavioral effects of drug mixtures depend on the endpoint under study.

Increased efficacy of micro-opioid agonist-induced antinociception by metabotropic glutamate receptor antagonists in C57BL/6 mice: comparison with (-)-6-phosphonomethyl-deca-hydroisoquinoline-3-carboxylic acid (LY235959).

RATIONALE: Recent experimental data suggest that metabotropic glutamate receptor (mGluR) antagonists with selectivity for mGluR1 and mGluR2/3 enhance morphine-induced antinociception. OBJECTIVES: The present study addressed the hypothesis that mGluR antagonists enhance opioid antinociception by increasing opioid efficacy. MATERIALS AND METHODS: The antinociceptive effects of the partial mu-opioid receptor agonists buprenorphine and dezocine were first assessed in a hot-plate procedure under conditions of low (53 degrees C) and high (56 degrees C) stimulus intensity. Under conditions in which buprenorphine and dezocine produced submaximal antinociceptive effects, these drugs were assessed after pretreatment with the mGluR1 antagonist JNJ16259685, the mGluR5 antagonist MPEP, the mGluR2/3 antagonist LY341495, and for comparison, the N-methyl-D-aspartate (NMDA) receptor antagonist LY235959. RESULTS: Buprenorphine (0.032-3.2 mg/kg) and dezocine (0.1-10 mg/kg) were fully efficacious at 53 degrees C and produced submaximal antinociceptive effects at 56 degrees C (i.e., their effects did not exceed 50% of the maximum possible effect). Pretreatment with JNJ16259685 (1.0-3.2 mg/kg), LY341495 (1.0-3.2 mg/kg), and LY235959 (0.32-1.0 mg/kg) enhanced the antinociceptive effects of buprenorphine and dezocine at 56 degrees C, as revealed by significant increases in the peak effects of both drugs to approximately 100% maximum possible effect. In contrast, pretreatment with MPEP (1.0-3.2 mg/kg) did not modulate the antinociceptive effects of buprenorphine and dezocine. CONCLUSIONS: These results suggest that, similar to the NMDA receptor antagonist LY235959, the mGluR1 antagonist JNJ16259685 and the mGluR2/3 antagonist LY341495 increase the antinociceptive efficacy of buprenorphine and dezocine.

GABAA Receptors as Targets for the Management of Pain-related Disorders: Historical Perspective and Update.

BACKGROUND: Chronic pain is treated most commonly with opioid analgesics, anti-inflammatory steroids and nonsteroidal anti-inflammatory drugs. METHOD: However, these compounds are not uniformly effective and their clinical use is constrained by unwanted side effects. GABAergic neurons are located in spinal nociceptive circuits suggesting that drugs with affinity at these receptors, including benzodiazepine-like drugs, may provide an alternative to opioids for the treatment of pain. However, systemically administered conventional benzodiazepines fail to produce antihyperalgesic effects, likely due to their concurrent sedative properties. RESULTS: Recent evidence suggests that by targeting specific benzodiazepine-sensitive GABAA; receptor subtypes, the sedative properties of benzodiazepines can be circumvented and these compounds may be useful alternatives to opioids for the treatment of chronic pain. CONCLUSION: The present review provides an overview of the GABAA; receptor subtypes involved in pain transmission as well as implications for the development of analgesic medications.

Irritable Bowel Syndrome: Clinical Manifestations, Dietary Influences, and Management.

Irritable bowel syndrome (IBS) is a functional gastrointestinal disorder that is characterized by symptoms of chronic abdominal pain and altered bowel habits in the absence of an overtly identifiable cause. It is the most commonly diagnosed functional gastrointestinal disorder, accounting for about one third of gastroenterology visits. It generally presents as a complex of symptoms, including psychological dysfunction. Hypersensitivity to certain foods, especially foods that contain high amounts of fructose, plays a role in the pathophysiology of IBS. Elevated consumption of high-fructose corn syrup (HFCS) has been discussed in this aspect. The treatment options for IBS are challenging and varied. In addition to dietary restrictions for HFCS-induced IBS, such as low-FODMAP (Fermentable Oligosaccharides, Disaccharide, Monosaccharides, and Polyols) diets, existing drug therapies are administered based on the predominant symptoms and IBS-subtype. Patients with IBS are likely to suffer from issues, such as anxiety, depression, and post-traumatic-stress disorder. Biopsychosocial factors particularly socioeconomic status, sex, and race should, thus, be considered for diagnostic evaluation of patients with IBS.

Animal models of rheumatoid pain: experimental systems and insights.

Severe chronic pain is one of the hallmarks and most debilitating manifestations of inflammatory arthritis. It represents a significant problem in the clinical management of patients with common chronic inflammatory joint conditions such as rheumatoid arthritis, psoriatic arthritis and spondyloarthropathies. The functional links between peripheral inflammatory signals and the establishment of the neuroadaptive mechanisms acting in nociceptors and in the central nervous system in the establishment of chronic and neuropathic pain are still poorly understood, representing an area of intense study and translational priority. Several well-established inducible and spontaneous animal models are available to study the onset, progression and chronicization of inflammatory joint disease, and have been instrumental in elucidating its immunopathogenesis. However, quantitative assessment of pain in animal models is technically and conceptually challenging, and it is only in recent years that inflammatory arthritis models have begun to be utilized systematically in experimental pain studies using behavioral and neurophysiological approaches to characterize acute and chronic pain stages. This article aims primarily to provide clinical and experimental rheumatologists with an overview of current animal models of arthritis pain, and to summarize emerging findings, challenges and unanswered questions in the field.

Chronic exposure to tumor necrosis factor in vivo induces hyperalgesia, upregulates sodium channel gene expression and alters the cellular electrophysiology of dorsal root ganglion neurons.

The goal of these studies was to investigate the links between chronic exposure to the pro-inflammatory cytokine tumor necrosis factor (TNF), hyperalgesia and the excitability of dorsal root ganglion (DRG) sensory neurons. We employed transgenic mice that constitutively express TNF (TNFtg mice), a well-established model of chronic systemic inflammation. At 6 months of age, TNFtg mice demonstrated increased sensitivity to both mechanical and thermal heat stimulation relative to aged-matched wild-type controls. These increases in stimulus-evoked behaviors are consistent with nociceptor sensitization to normal physiological stimulation. The mechanisms underlying nociceptor sensitization were investigated using single-cell analysis to quantitatively compare gene expression in small-diameter (<30µm) DRG neurons. This analysis revealed the upregulation of mRNA encoding for tetrodotoxin-resistant (TTX-R) sodium (Na+) channels (Nav1.8, Nav1.9), Na+ channel ß subunits (ß1-ß3), TNF receptor 1 (TNFR1) and p38α mitogen-activated protein kinase in neurons of TNFtg mice. Whole-cell electrophysiology demonstrated a corresponding increase in TTX-R Na+ current density, hyperpolarizing shifts in activation and steady-state inactivation, and slower recovery from inactivation in the TNFtg neurons. Increased overlap of activation and inactivation in the TNFtg neurons produces inward Na+ currents at voltages near the resting membrane potential of sensory neurons (i.e. window currents). The combination of increased Na+ current amplitude, hyperpolarized shifts in Na+ channel activation and increased window current predicts a reduction in the action potential threshold and increased firing of small-diameter DRG neurons. Together, these data suggest that increases in the expression of Nav1.8 channels, regulatory ß1 subunits and TNFR1 contribute to increased nociceptor excitability and hyperalgesia in the TNFtg mice.

Pharmacological and antihyperalgesic properties of the novel α2/3 preferring GABAA receptor ligand MP-III-024.

γ-Aminobutyric acid type A (GABAA) receptors are located in spinal nociceptive circuits where they modulate the transmission of pain sensory signals from the periphery to higher centers. Benzodiazepine-type drugs bind to GABAA receptors containing α1, α2, α3, and α5 subunits (α1GABAA, α2GABAA, α3GABAA and α5GABAA receptors, respectively) through which they inhibit the transmission of these signals. In the present study we describe the novel benzodiazepine site positive allosteric modulator modulator methyl 8-ethynyl-6-(pyridin-2-yl)-4H-benzo[f]imidazo[1,5-a][1,4]diazepine-3-carboxylate (MP-III-024). MP-III-024 displayed preference for α2GABAA and α3GABAA receptors relative to α1GABAA and α5GABAA receptors as well as an improved metabolic profile relative to subtype-selective positive modulators that are available currently. Administration of MP-III-024 resulted in a dose- and time-dependent reversal of mechanical hyperalgesia. On locomotor activity and schedule-controlled responding, MP-III-024 was ineffective across the doses tested. These data provide further evidence that α2GABAA and α3GABAA receptors play an important role in the antihyperalgesic effects and may not be involved in some of the undesired effects of benzodiazepine-like drugs. Further, these findings suggest that MP-III-024 is a suitable research tool for investigating the role of α2GABAA and α3GABAA receptors in the behavioral properties of benzodiazepine-like drugs in mice.

Antagonism of triazolam self-administration in rhesus monkeys responding under a progressive-ratio schedule: In vivo apparent pA2 analysis.

BACKGROUND: Conventional benzodiazepines bind non-selectively to GABAA receptors containing α1, α2, α3, and α5 subunits (α1GABAA, α2GABAA, α3GABAA, and α5GABAA receptors, respectively), and the role of these different GABAA receptor subtypes in the reinforcing effects of benzodiazepines has not been characterized fully. We used a pharmacological antagonist approach with available subtype-selective ligands to evaluate the role of GABAA receptor subtypes in the reinforcing effects of the non-selective conventional benzodiazepine, triazolam. METHODS: Rhesus monkeys (n=4) were trained under a progressive-ratio schedule of intravenous midazolam delivery and dose-response functions were determined for triazolam, in the absence and presence of flumazenil (non-selective antagonist), ßCCT and 3-PBC (α1GABAA-preferring antagonists), and XLi-093 (α5GABAA-selective antagonist). RESULTS: Flumazenil, ßCCT and 3-PBC shifted the dose-response functions for triazolam to the right in a surmountable fashion, whereas XLi-093 was ineffective. Schild analyses revealed rank orders of potencies of flumazenil=ßCCT>3-PBC. Comparison of potencies between self-administration and previous binding studies with human cloned GABAA receptor subtypes suggested that the potencies for ßCCT and 3-PBC were most consistent with binding at α2GABAA and α3GABAA receptors, but not α1GABAA or α5GABAA receptor subtypes. CONCLUSIONS: Our findings were not entirely consistent with blockade of α1GABAA receptors and are consistent with the possibility of α2GABAA and/or α3GABAA subtype involvement in antagonism of the reinforcing effects of triazolam. The α5GABAA receptor subtype likely does not play a substantial role in self-administration under these conditions.

Effects of N-methyl-D-aspartate receptor antagonists on acute morphine-induced and l-methadone-induced antinociception in mice.

UNLABELLED: Although N-methyl-D-aspartate (NMDA) receptor antagonists clearly attenuate the development of tolerance to the antinociceptive effects of opioids, it is not clear whether they also alter acute opioid-induced antinociception. The present study was designed to assess NMDA/opioid interactions in C57BL/6 mice by examining various NMDA receptor antagonists of different selectivity in combination with the mu opioid receptor agonists morphine and l-methadone. A mouse hot plate procedure was used to assess the effects of morphine (0.1 to 10.0 mg/kg) and l-methadone (0.1 to 5.6 mg/kg) alone and after pretreatment with the competitive NMDA receptor antagonist LY235959 (0.1 to 1.0 mg/kg), the glycine site NMDA receptor antagonist R(+)-HA-966 (10.0 to 56.0 mg/kg), or the polyamine site and NR2B selective NMDA receptor antagonist ifenprodil (3.2 to 10.0 mg/kg). Morphine and l-methadone produced dose- and time-dependent increases in 56 degrees C hot plate latencies. At the doses tested, the NMDA receptor antagonists produced no effect on hot plate latencies. However, when these drugs were combined with morphine, latency to respond to the hot plate was significantly increased from morphine alone. Combinations of the NMDA receptor antagonist LY235959 and l-methadone produced similar increases in hot plate latencies; however, combinations of l-methadone with R(+)-HA-966 or ifenprodil did not increase hot plate latencies compared with l-methadone alone. These results suggest that a range of NMDA receptor antagonists potentiate morphine-induced antinociception, although the potentiation of l-methadone might be specific to the antagonist examined. PERSPECTIVE: The inclusion of low-dose NMDA receptor antagonists to opioids might be beneficial for the treatment of acute pain by enhancing the antinociceptive effects of the opioid.