Interoceptive Effects Research Articles

Biased allosteric modulator of neurotensin receptor 1 reduces ethanol drinking and responses to ethanol administration in rodents

Alcohol use disorders (AUDs) impose an enormous societal and financial burden, and world-wide, alcohol misuse is the 7th leading cause of premature death [1]. Despite this, there are currently only 3 FDA approved pharmacological approaches for the treatment of AUDs in the United States. The neurotensin (Nts) system has long been implicated in modulating behaviors associated with alcohol misuse. Recently, a novel compound, SBI-553, that biases the action of Nts receptor 1 (NTSR1) activation, has shown promise in preclinical models of psychostimulant use. Here we investigate the efficacy of this compound to alter ethanol-mediated behaviors in a comprehensive battery of experiments assessing ethanol consumption, behavioral responses to ethanol, physiological sensitivity to ethanol, and ethanol metabolism. Additionally, we investigated behavior in avoidance and cognitive assays to monitor potential side effects of SBI-553. We find that SBI-553 reduces ethanol consumption in mice without altering avoidance behavior or novel object recognition. We also observe sex-dependent differences in physiological responses to sequential ethanol injections in mice. In rats, we show that SBI-553 attenuates sensitivity to the interoceptive effects of ethanol (using a Pavlovian drug discrimination task). Our data suggest that targeting NTSR1 signaling may be promising to attenuate alcohol misuse, and adds to a body of literature that suggests NTSR1 may be a common downstream target involved in the psychoactive effects of multiple reinforcing substances.

The role of β-Nicotyrine in E-Cigarette abuse liability I: Drug Discrimination.

β-Nicotyrine (β-Nic) is a unique minor alkaloid constituent in electronic nicotine delivery systems (ENDS) that is derived from nicotine (Nic) degradation and can reach 25% of Nic concentrations in ENDS aerosol. β-Nic slows Nic metabolism and prolongs systemic Nic exposure, which may alter the discriminability of Nic. The present study sought to examine β-Nic has interoceptive effects itself, and if it alters the subjective effects ENDS products within a drug-discrimination paradigm. The pharmacodynamics of β-Nic were examined in vitro, and a nicotine discrimination paradigm was used to determine if β-Nic (0 - 5.0 mg/kg) shares discriminative stimulus properties with Nic (0.2 mg/kg) in male (n = 13) and female (n = 14) rats after 10- & 60-min β-Nic pretreatment delays. A second group of rats was trained to discriminate β-Nic and Nornicotine (Nornic) from saline to determine if β-Nic alone has interoceptive properties and whether they are similar to Nornic. β-Nic had similar binding affinity and efficacy at the α4β2 nicotinic receptor subtype as Nornic, ~50% of Nic efficacy. However, β-Nic only weakly substituted for Nic during substitution testing in female rats, but not males, whereas Nornic fully substituted for Nic. Combination testing at the 10 and 60-min pretreatment intervals showed that β-Nic dose-dependently increased the duration of nicotine's discriminative stimulus effects, especially at the 60-min delay. Drug naïve rats could reliably discriminate Nornic, but not β-Nic, from Sal. β-Nic increased and prolonged the interoceptive stimulus properties of Nic, suggesting it may alter to the abuse liability of ENDS through its ability to slow Nic metabolism.

Impact of Serine Racemase Deletion on Nicotine Discrimination.

The high comorbidity between schizophrenia and cigarette smoking points to a possible shared heritable factor predisposing individuals with schizophrenia to nicotine addiction. The N-methyl-D-aspartate (NMDA) receptor has been highly implicated in both schizophrenia and nicotine addiction. In the present study, we used mice with a null mutation on the serine racemase gene (srr), an established risk gene for schizophrenia, which encodes the enzyme to produce the NMDA receptor co-agonist D-serine, to model the pathology of schizophrenia and to determine whether NMDA receptor hypofunction reduced the ability of srr-/- mice to identify nicotine's subjective effects. Established nicotine discrimination procedures were used to train srr-/- and wild-type (WT) mice to discriminate 0.4mg/kg nicotine under a 10-response fixed-ratio (FR10) schedule of food reinforcement. Results show that WT mice reliably acquired 0.4mg/kg nicotine discrimination in about 54 training session, whereas srr-/- mice failed to acquire robust 0.4mg/kg nicotine discrimination even after extended (>70) training sessions. These results show that NDMA receptor hypofunction in srr-/- mice decreased sensitivity to the interoceptive effects of nicotine. Projected to humans, NMDA receptor hypofunction caused by mutations to the serine racemase gene in schizophrenia may reduce sensitivity to nicotine's subjective effects leading to increased nicotine consumption to produce the same effects as those unaffected by schizophrenia. There is high comorbidity between schizophrenia and nicotine dependence as well as possible shared genetic risk factors between the two. The serine racemase knockout mouse (srr-/-) with NMDA receptor hypofunction has been developed a model for schizophrenia. We found that srr-/- mice were unable to acquire 0.4mg/kg nicotine discrimination, whilst wild-type mice readily discriminated nicotine. These results show that decreased NMDA receptor function present in srr-/- mice and patients with schizophrenia may result in reduced sensitivity to nicotine's interoceptive effects, leading to increased nicotine consumption to produce the same subjective effects as those unaffected by schizophrenia.

MGlu2 and mGlu3 receptor negative allosteric modulators attenuate the interoceptive effects of alcohol in male and female rats

RationaleThe subjective effects of alcohol are associated with alcohol use disorder (AUD) vulnerability and treatment outcomes. The interoceptive effects of alcohol are part of these subjective effects and can be measured in animal models using drug discrimination procedures. The newly developed mGlu2 and mGlu3 negative allosteric modulators (NAMs) are potential therapeutics for AUD and may alter interoceptive sensitivity to alcohol. ObjectivesTo determine the effects of mGlu2 and mGlu3 NAMs on the interoceptive effects of alcohol in rats. MethodsLong-Evans rats were trained to discriminate the interoceptive stimulus effects of alcohol (2.0 g/kg, i.g.) from water using both operant (males only) and Pavlovian (male and female) drug discrimination techniques. Following acquisition training, an alcohol dose-response (0, 0.5, 1.0, 2.0 g/kg) experiment was conducted to confirm stimulus control over behavior. Next, to test the involvement of mGlu2 and mGlu3, rats were pretreated with the mGlu2-NAM (VU6001966; 0, 3, 6, 12 mg/kg, i.p.) or the mGlu3-NAM (VU6010572; 0, 3, 6, 12 mg/kg, i.p.) before alcohol administration (2.0 g/kg, i.g.). ResultsIn Pavlovian discrimination, male rats showed greater interoceptive sensitivity to 1.0 and 2.0 g/kg alcohol compared to female rats. Both mGlu2-NAM and mGlu3-NAM attenuated the interoceptive effects of alcohol in male and female rats using Pavlovian and operant discrimination. There may be a potential sex difference in response to the mGlu2-NAM at the highest dose tested. ConclusionsMale rats may be more sensitive to the interoceptive effects of the 2.0 g/kg alcohol training dose compared to female rats. Both mGlu2-and mGlu3-NAM attenuate the interoceptive effects of alcohol in male and female rats. These drugs may have potential for treatment of AUD in part by blunting the subjective effects of alcohol.

Phencyclidine-Like Abuse Liability and Psychosis-Like Neurocognitive Effects of Novel Arylcyclohexylamine Drugs of Abuse in Rodents.

Abuse of novel arylcyclohexylamines (ACX) poses risks for toxicities, including adverse neurocognitive effects. In vivo effects of ring-substituted analogs of phencyclidine (PCP), eticyclidine (PCE), and ketamine are understudied. Adult male National Institutes of Health Swiss mice were used to assess locomotor effects of PCP and its 3-OH, 3-MeO, 3-Cl, and 4-MeO analogs, PCE and its 3-OH and 3-MeO analogs, and ketamine and its deschloro and 2F-deschloro analogs, in comparison with those of methamphetamine (METH), 3,4-methylenedioxymethamphetamine (MDMA), and two benzofuran analogs of MDMA. PCP-like interoceptive effects for all of these ACXs were determined using a food-reinforced drug discrimination procedure in adult male Sprague Dawley rats. A novel operant assay of rule-governed behavior incorporating aspects of attentional set-shifting was used to profile psychosis-like neurocognitive effects of PCP and 3-Cl-PCP in rats, in comparison with cocaine and morphine. PCP-like ACXs were more effective locomotor stimulants than the amphetamines, PCE-like ACXs were as effective as the amphetamines, and ketamine-like ACXs were less effective than the amphetamines. Addition of -Cl, -OH, or -OMe at the 3-position on the aromatic ring did not impact locomotor effectiveness, but addition of -OMe at the 4-position reduced locomotor effectiveness. Lethal effects were induced by drugs with -OH at the 3-position or -OMe at the 3- or 4-position. All novel ACXs substituted at least partially for PCP, and PCP and 3-Cl-PCP elicited dose-dependent psychosis-like neurocognitive deficits in the rule-governed behavior task not observed with cocaine or morphine. Novel ACXs exhibit substantial abuse liability and toxicities not necessarily observed with their parent drugs. SIGNIFICANCE STATEMENT: Novel arylcyclohexylamine analogs of PCP, PCE, and ketamine are appearing on the illicit market, and abuse of these drugs poses risks for toxicities, including adverse neurocognitive effects. These studies demonstrate that the novel ACXs exhibit PCP-like abuse liability in the drug discrimination assay, elicit varied locomotor stimulant and lethal effects in mice, and induce psychosis-like neurocognitive effects in rats.

Long-lasting blocking of interoceptive effects of cocaine by a highly efficient cocaine hydrolase in rats

Cocaine dependence is a serious world-wide public health problem without an FDA-approved pharmacotherapy. We recently designed and discovered a highly efficient long-acting cocaine hydrolase CocH5-Fc(M6). The present study examined the effectiveness and duration of CocH5-Fc(M6) in blocking interoceptive effects of cocaine by performing cocaine discrimination tests in rats, demonstrating that the duration of CocH5-Fc(M6) in blocking cocaine discrimination was dependent on cocaine dose and CocH5-Fc(M6) plasma concentration. Particularly, a dose of 3 mg/kg CocH5-Fc(M6) effectively attenuated discriminative stimulus effects of 10 mg/kg cocaine, cumulative doses of 10 and 32 mg/kg cocaine, and cumulative doses of 10, 32 and 56 mg/kg cocaine by ≥ 20% for 41, 19, and 10 days, and completely blocked the discriminative stimulus effects for 30, 13, and 5 days with corresponding threshold plasma CocH5-Fc(M6) concentrations of 15.9, 72.2, and 221 nM, respectively, under which blood cocaine concentration was negligible. Additionally, based on the data obtained, cocaine discrimination model is more sensitive than the locomotor activity to reveal cocaine effects and that CocH5-Fc(M6) itself has no long-term toxicity regarding behavioral activities such as lever pressing and food consumption in rats, further demonstrating that CocH5-Fc(M6) has the desired properties as a promising therapeutic candidate for prevenance of cocaine dependence.

The influence of cardiac synchronisation on self-attribution to external objects in male participants.

Interoception, the representation of our bodily state derived from physiological signals, is fundamental to our sense of self. Previous studies using cardiac feedback paradigms demonstrated interoceptive effects on self-perception. However, it remains unclear whether interoceptive information can extend self-attribution to non-bodily objects. This study aimed to elucidate whether cardiac signals can induce self-attribution to non-bodily objects and how interoceptive accuracy modulates this effect. A total of 44 male volunteers participated in an emotion assignment task where they viewed images of palms (bodily targets) and spheres (non-bodily targets) flashing in or out of sync with their heartbeat and assigned emotional images (positive/negative) to these targets. A heartbeat discrimination task was used to measure the interoceptive accuracy. The results showed no significant effect of synchronisation on emotion assignment for either the target type or the valence of the emotional images. However, participants with high interoceptive accuracy attributed both positive and negative images more to synchronised targets than those with low interoceptive accuracy. These findings suggest that although cardiac synchronisation may not uniformly facilitate the self-attribution of external objects, interoceptive accuracy may mediate attention to synchrony. Future studies should explore the conditions under which cardiac signals influence self-attribution.

Abuse potential assessment of the dual orexin receptor antagonist daridorexant in rats.

Drugs that act on the central nervous system (CNS) and have sedative effects can lead to abuse in humans. New CNS-active drugs often require evaluation of their abuse potential in dedicated animal models before marketing approval. Daridorexant is a new dual orexin receptor antagonist (DORA) with sleep-promoting properties in animals and humans. It was approved in 2022 in the United States and Europe for the treatment of insomnia disorder. Nonclinical evaluation of abuse potential of daridorexant using three specific rat models assessing reinforcement, interoception, and withdrawal. Reinforcing effects of daridorexant were assessed in an operant rat model of intravenous drug self-administration. Similarity of interoceptive effects to those of the commonly used sleep medication zolpidem was tested in an operant drug discrimination task. Withdrawal signs indicative of physical dependence were evaluated upon sudden termination of chronic daridorexant treatment. Rat experiments were conducted at a dose range resulting in daridorexant plasma concentrations equaling or exceeding those achieved at the clinically recommended dose of 50 mg in humans. Daridorexant had no reinforcing effects, was dissimilar to zolpidem in the drug discrimination task, and did not induce any withdrawal-related signs upon treatment discontinuation that would be indicative of physical dependence. Daridorexant showed no signs of abuse or dependence potential in rats. Our data indicate that daridorexant, like other DORAs, has a low potential for abuse in humans.

Discriminative stimulus and reinforcing effects of diclazepam in rodents

Diclazepam, a designer benzodiazepine, is a lesser-known novel anxiolytic substance and a structural analog of diazepam. Although several case studies have reported the adverse effects of diclazepam, their potential impacts remain unknown. Therefore, this study aimed to determine the effects of diclazepam in rodents using drug discrimination, locomotor activity, self-administration (SA), and conditioned place preference (CPP) tests. Sprague-Dawley rats (male, 8 weeks old, weighing 220–450 g, n = 12 per group) and C57BL/6 mice (male, 7 weeks old, weighing 20–25 g, n = 7–8 per group) were administered alprazolam, morphine, and diclazepam. Diclazepam fully elicited alprazolam-appropriate dose-dependent lever responses (>80 %) similar to those of alprazolam. In rats administered 0.5 mg/kg of morphine, a partial substitution (80 %–20 %) was observed. Mice receiving intraperitoneal injections of diclazepam (0.05, 0.2, and 2 mg/kg) showed decreased locomotor activity. In the SA experiment, mice that self-administered intravenous diclazepam (2 μg/kg/infusion) showed significantly higher infusion and active lever responses compared to the vehicle group. No statistically significant rewarding effects of diclazepam at the doses of 0.2 and 2 mg/kg evaluated using the CPP paradigm were found. In conclusion, diclazepam has reinforcing effects and shares the interoceptive effects of alprazolam. Therefore, legal restrictions on the use of diclazepam should be carefully considered.

Effects of cannabinoid agonists and antagonists in male rats discriminating the synthetic cannabinoid AM2201

The synthetic forms of delta-9-tetrahydrocannabinol (Δ9-THC), dronabinol or nabilone, have been approved to treat several indications. However, due to safety concerns their clinical utility remains limited. Consequently, there is a need for developing cannabinoid (CB) ligands that display better behavioral pharmacological profiles than Δ9-THC. Here, we utilized drug discrimination methods to compare the interoceptive effects of CB ligands that vary in potency, efficacy, and selectivity at the CB receptors, including two ligands, AM411 and AM4089, that show CB1 partial agonist-like actions in vitro. Male rats were trained to discriminate 0.1 mg/kg AM2201 from saline under a fixed-ratio (FR) 10 response schedule of food reinforcement. After establishing AM2201's discriminative-stimulus effects, pretreatment tests with the CB1 antagonist/inverse agonist rimonabant blocked AM2201's effects, whereas the peripherally-restricted antagonist AM6545 had no effect. Next, the generalization profiles of AM411 and AM4089 with CB1 full agonists (JWH-018, CP-55,940, AM8936), partial agonist (Δ9-THC), and non-cannabinoids (fentanyl, atropine) were compared. The CBs either fully (AM2201, CP-55,940, JWH-018, AM8936, Δ9-THC) or partially (AM411, AM4089) substituted for AM2201, whereas fentanyl and atropine did not produce AM2201-like effects. All CB drugs were more potent than Δ9-THC and correlation analysis confirmed that the relative behavioral potencies of CBs corresponded strongly with their relative affinities at the CB1 but not CB2 receptors. Together, our results further demonstrate that AM411 and AM4089 exhibit better pharmacological profiles compared to Δ9-THC, in that they are more potent and display in vivo partial agonist-like actions that are centrally mediated via CB1 receptors.

Understanding Interoception and Its Importance in Body and Mind Functions: A Review

Interoception, the sensing of the body’s internal sensations, contributes to numerous aspects of human’s cognitive and affective abilities. Interoception mechanisms ensure physiological health through the coordination of homeostatic reflexes and allostatic responses. This review presents how deeply interoception controls our daily motivational behaviors and associated affective and emotional feelings. Since its discovery at the twilight of the 19th century, relentless research and experimental work have pushed far back the borders of interoception. Concept enrichment is still to find its limits: from its role in balancing and maintaining the energy-efficiency of the integrity and health of the body (homeostasis) to its emotional importance in learning, motivation and decision making, the field of interoception doesn't stop extending. Scientific measuring of interoceptive effects is also making fulgurant progress, though accuracy and relation between self-awareness and interoceptive attention are still to be fine-tuned. In addition, the review also addresses impairment caused by interoceptive deficiencies (alexithymia), commenting research and group experiments made in physical, emotional and physiological fields. Open questions are raised about whether interoception is a unitary function as well as about the ways to reduce individual weak interoceptive abilities, such as training and meditation. In conclusion, the signaling, sensing, and detection of bodily states are implicated in physical and mental well-being. Interoception research contributes to understanding into the dynamic interactions between body, brain, and mind.

Evaluation of the Modulatory Effects of Minor Cannabinoids and Terpenes on Delta-9-Tetrahydrocannabinol Discrimination in Rats.

Introduction: Cannabis contains a multitude of phytocannabinoids and terpenes in addition to its main psychoactive constituent, delta-9-tetrahydrocannabinol (D9-THC). It is believed that the combination of minor cannabinoids and terpenes with D9-THC may impact the subjective and physiological effects of D9-THC. In this study, select minor cannabinoids (cannabigerol [CBG], cannabidivarin [CBDV], cannabichromene [CBC], tetrahydrocannabivarin [THCV], cannabigerolic acid [CBGa], and cannabidiolic acid [CBDa]) and terpenes (beta-caryophyllene and linalool) were evaluated for their potential to decrease the interoceptive effects of D9-THC using drug discrimination methods. Materials and Methods: Male and female rats (n=16; 50% female) were trained to discriminate D9-THC from vehicle. Following training, D9-THC was administered 45 min pre-session, followed by administration of a minor cannabinoid or terpene (or vehicle) 15 min pre-session. CBG, CBDV, CBC, and THCV were administered at doses of 3-30 mg/kg; CBGa and CBDa were administered at doses of 10-100 mg/kg; beta-caryophyllene and linalool were administered at doses of 10-30 mg/kg. Percentage of D9-THC responding (%) was calculated to assess changes to D9-THCs interoceptive effects. Results: CBG, CBDV, CBC, THCV, CBGa, CBDa, beta-caryophyllene, and linalool had little effect on percent D9-THC responding in either sex. No compounds lowered percent D9-THC responding to 50% or below. THCV, CBC, CBDa, and beta-caryophyllene in combination with D9-THC decreased response rates compared with D9-THC alone. Conclusions: The minor cannabinoids and terpenes examined in the current study did not alter the discriminative stimulus effects of D9-THC. These results suggest that these compounds are unlikely to lower the psychoactive effects of D9-THC in human users.

Nicotine limits avoidance conditioning with opioids without interfering with the ability to discriminate an opioid-interoceptive state

Approximately 90 % of individuals undergoing treatment for opioid use disorder (OUD) report comorbid use of nicotine. As such, further investigation into underlying mechanisms contributing to the extreme comorbidity between nicotine and opioid use are warranted. Nicotine administration significantly escalates self-administration of opioids and this increase in motivational efficacy persists despite contingent punishment of opioid consumption. Additionally, both systemic and intra-insular administration of nicotine produces a rightward shift in the dose-response function in both morphine-induced conditioned place preference and taste avoidance paradigms, particularly at higher doses (5–20 mg/kg). Two possible interpretations arise from these outcomes. One is that nicotine may specifically affect learning about the malaise-inducing effects of morphine thus facilitating acceptance of higher doses of morphine. Another interpretation is that it more generally reduces sensitivity to the interoceptive effects of morphine such that higher doses are needed to produce comparable effects in nicotine-treated, relative to control, rats. To further address these possibilities, we asked whether nicotine administration interfered with the ability to discriminate the morphine interoceptive state, irrespective of its hedonic evaluation, at a dose that is impacted by nicotine in avoidance conditioning paradigms. First, we demonstrated that systemic nicotine pretreatment significantly attenuates taste avoidance induced by a low dose of morphine (3 mg/kg). Next, we used an occasion setting paradigm with this same dose of morphine to test whether systemic nicotine pretreatment interferes with the ability to discriminate between saline- and morphine-induced interoceptive states. Within this task, nicotine had no effect on the ability to effectively discriminate between the interoceptive effects of morphine and saline. Collectively, these data suggest that nicotine may be specifically altering the overall hedonic assessment of morphine perhaps by interfering with learning about its deleterious consequences.

Impact of stress exposure on alcohol interoceptive effects: mechanisms and considerations for alcohol drinking

Impact of stress exposure on alcohol interoceptive effects: mechanisms and considerations for alcohol drinking

The Relationship between Interoceptive Awareness and Socio-Emotional Competence

Interoception is how an individual feel about their internal body, including the sensation of one’s organs and emotional perception. The ability to be aware of one's internal body signals and activities is emphasized by interoceptive awareness. Socio-emotional competence is a multifaceted notion that incorporates a person's ability to accept information, to interpret it, and to respond to others during a social process. The relationship between interoceptive awareness and socioemotional competence is examined in this paper, along with the effects of interoception on socioemotional skills, including its benefits for social interaction skills, connections to socioemotional challenges, and effective interoception interventions. It also indicates that social-emotional skills may be bettered by linking interoceptive awareness to socio-emotional competence. It makes suggestions about how to take effective action to enhance interoception. Future research should work on quantifying interoceptive awareness and pay more attention to its effects on explicit sociability. It should also investigate whether social-emotional skills influence interoceptive awareness. This paper integrated the influence of internal awareness on the multifaceted aspects of socio-emotional competence. It can provide some guidance for the design of socio-emotional curriculum at schools and relevant intervention studies.

From the Viscera to First Impressions: Phase-Dependent Cardio-Visual Signals Bias the Perceived Trustworthiness of Faces

When we see new people, we rapidly form first impressions. Whereas past research has focused on the role of morphological or emotional cues, we asked whether transient visceral states bias the impressions we form. Across three studies (N = 94 university students), we investigated how fluctuations of bodily states, driven by the interoceptive impact of cardiac signals, influence the perceived trustworthiness of faces. Participants less often chose faces presented in synchrony with their own cardiac systole as more trustworthy than faces presented out of synchrony. Participants also explicitly judged faces presented in synchrony with their cardiac systole as less trustworthy. Finally, the presentation of faces in synchrony with participants’ cardiac diastole did not modulate participants’ perceptions of the faces’ trustworthiness, suggesting that the systolic phase is necessary for such interoceptive effects. These findings highlight the role of phasic interoceptive information in the processing of social information and provide a mechanistic account of the role of visceroception for social perception.

Predator odor (TMT) exposure potentiates interoceptive sensitivity to alcohol and increases GABAergic gene expression in the anterior insular cortex and nucleus accumbens in male rats.

Post-traumatic stress disorder (PTSD) confers enhanced vulnerability to developing comorbid alcohol use disorder (AUD). Exposure to the scent of a predator, such as the fox odor TMT, has been used to model a traumatic stressor with relevance to PTSD symptomatology. Alcohol produces distinct interoceptive (subjective) effects that may influence vulnerability to problem drinking and AUD. As such, understanding the lasting impact of stressors on sensitivity to the interoceptive effects of alcohol is clinically relevant. The present study used a 2-lever, operant drug discrimination procedure to train male Long-Evans rats to discriminate the interoceptive effects of alcohol (2g/kg, i.g. [intragastrically]) from water. Upon stable performance, rats underwent a 15-min exposure to TMT. Two weeks later, an alcohol dose-response curve was conducted to evaluate the lasting effects of the TMT stressor on the interoceptive effects of alcohol. The TMT group showed a leftward shift in the effective dose (ED50) of the dose-response curve compared to controls, reflecting potentiated interoceptive sensitivity to alcohol. TMT exposure did not affect response rate. GABAergic signaling in both the anterior insular cortex (aIC) and the nucleus accumbens (Acb) is involved in the interoceptive effects of alcohol and stressor-induced adaptations. As such, follow-up experiments in alcohol-naïve rats examined neuronal activation (as measured by c-Fos immunoreactivity) following TMT and showed that TMT exposure increased c-Fos expression in the aIC and the nucleus accumbens core (AcbC). Two weeks after TMT exposure, Gad-1 gene expression was elevated in the aIC and Gat-1 was increased in the Acb, compared to controls. Lastly, the alcohol discrimination and alcohol-naïve groups displayed dramatic differences in stress reactive behaviors during the TMT exposure, suggesting that alcohol exposure may alter the behavioral response to predator odor. Together, these data suggest that predator odor stressor results in potentiated sensitivity to alcohol, possibly through GABAergic adaptations in the aIC and Acb, which may be relevant to understanding PTSD-AUD comorbidity.

Mu opioid receptor (MOR) agonist‐induced antihyperalgesic effects following spared nerve injury in male and female rats

In most preclinical models of neuropathic pain, hypersensitivity to pain often resolves after a few weeks. However, spared nerve injury (SNI) produces a persistent pain state that lasts at least 18 months. The goal of the current study was to evaluate antihyperalgesic effects of mu‐opioid receptor (MOR) agonists varying in potency and efficacy in the SNI model. We hypothesized that the MOR agonists, fentanyl, morphine, and nalbuphine, would produce antihyperalgesic effects in both male and female rats. Mechanical hypersensitivity was evaluated by measuring responses to increasing pressure (g) applied to each paw (paw pressure test or Randall‐Selitto test) with a maximum cut‐off of 300 g. Using a within‐subjects design, responses were evaluated before and after SNI or sham surgery in male and female rats, and cumulative dose effects curves for fentanyl (0.01‐0.1 mg/kg), morphine (0.3‐10 mg/kg), and nalbuphine (0.3‐10 mg/kg) were determined. Both male and female sham rats demonstrated an initial hypersensitivity on their ipsilateral paw following surgery that dissipated within 7 d. Following SNI surgery, paw pressure thresholds on the injured paw were lower as compared with the pre‐surgical response and with the contralateral paw for at least 20 wks in male and female rats. In male rats, fentanyl, morphine, and nalbuphine dose‐dependently alleviated SNI‐induced hypersensitivity, with EC50 values of 0.03 (± 0.007), 3.9 (± 0.8), and 5.3 (± 0.8) mg/kg, respectively. In female rats, fentanyl, morphine, and nalbuphine also alleviated SNI‐induced hypersensitivity in a dose‐dependent manner, with EC50 values of 0.01 (± 0.002), 4.1 (± 0.8), and 5.5 (± 0.8) mg/kg, respectively. Naltrexone (0.3 mg/kg) produced rightward shifts in the fentanyl and morphine dose effect curves. Interestingly, fentanyl and morphine also increased paw pressure thresholds in the uninjured, contralateral paws and sham‐treated ipsilateral paws in male and female rats. In contrast, gabapentin produced anti‐hyperalgesic effects in both male and female rats at 180 mg/kg as demonstrated by a return to pre‐surgical, paw pressure thresholds without altering thresholds in the non‐injured paw. These results demonstrate MOR agonists produce dose‐dependent increases in paw pressure thresholds following SNI surgery in both male and female rats. As expected, MOR agonists demonstrated a rank order in potency with fentanyl > morphine > nalbuphine in both sexes, and only fentanyl was slightly more potent in females. Fentanyl and morphine also increased paw pressure thresholds in non‐injured paws, suggesting that large doses inhibited responses to mechanical stimulation perhaps due to sedation and/or behavioral suppression. Overall, these findings demonstrate that MOR agonists produce antihyperalgesic effects in male and female rats potentially with narrow therapeutic indices. Future studies will investigate other behavioral effects of MOR agonists, such as reinforcing and interoceptive effects, in this chronic neuropathic pain model.

R‐(‐)2,5‐dimethoxy‐4‐iodoamphetamine (DOI) Blunts the Discriminative Stimulus Properties of Oxycodone

AimsA record ~100,000 fatalities due to drug overdoses was reported in the U.S. for the twelve months preceding April 2021. Opioids account for most deaths, and recurrent opioid use may lead to the development of opioid use disorder (OUD), a debilitating chronic disorder. Current medication‐assisted OUD treatment (e.g., buprenorphine) mitigates withdrawal, reduces mortality, and reduces intake of abused opioids. Still, the opioid epidemic crystalized the need to identify novel non‐opioid therapeutics to improve the odds of successful OUD recovery. In the last decade, there has been a resurgence of interest in serotonergic psychedelics for the treatment of psychiatric disorders, including substance use disorders. Psychedelic compounds act through agonist actions at the serotonin (5‐HT) 5‐HT2A receptor (5‐HT2AR) and there is some literature to suggest functional interactions between 5‐HT2AR and opioids. We tested the hypothesis that the psychedelic 5‐HT2AR agonist R‐(‐)2,5‐dimethoxy‐4‐iodoamphetamine (DOI) will disrupt the discriminative stimulus properties of the commonly misused prescription opioid oxycodone. The drug discrimination paradigm is a rigorous laboratory procedure for modeling the interoceptive effects of drugs and is widely recognized as useful in establishing ligand potency and effectiveness in vivo, as well as interrogating abuse liability.MethodsMale, Sprague‐Dawley rats (n = 13) were trained to discriminate an injection (s.c.) of oxycodone (1 mg/kg) from saline (1 ml/kg) in a two‐lever, water‐reinforced paradigm. Pharmacological testing began upon establishment of the stable oxycodone vs. saline discrimination. Substitution tests with DOI (0‐0.2 mg/kg; s.c.) and combination tests with DOI plus oxycodone were conducted interspersed with maintenance sessions. Percent oxycodone‐lever responding, response rates and latency to the first response were analyzed with an experimentwise error rate of α=0.05.ResultsAll rats acquired the oxycodone vs. saline discrimination to stability. Substitution tests indicated that all DOI doses resulted in percent oxycodone‐lever responding significantly different from the training dose of oxycodone (p< 0.05). Pretreatment with DOI (0.1, 0.2 mg/kg) significantly reduced the percent oxycodone‐lever responding (0.5 mg/kg), relative to pretreatment with vehicle (p < 0.05). The selective 5‐HT2AR antagonist M100907 prevented DOI‐induced suppression of oxycodone‐lever responding (p < 0.05).ConclusionsThe current studies reveal that the psychedelic DOI does not substitute for oxycodone, but does suppress the stimulus effects of oxycodone, an effect which is reversed by the 5‐HT2AR antagonist M100907. Taken together, these studies provide support for expanded interrogation of the efficacy of 5‐HT2AR agonists in counteracting the behavioral effects of opioids.

Psychophysiological approach to the effects of interoception on contemplation

Psychophysiological approach to the effects of interoception on contemplation