Category Archives: Addiction

A Preliminary Investigation of Brain Cannabinoid Receptor Type 1 (CB1R) Availability in Men with Opioid Use Disorder

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“The endocannabinoid (eCB) system has been proposed as a potential target for developing new medications for opioid use disorder (OUD). However, the status of the eCB system, specifically brain cannabinoid receptor type 1 (CB1R) in OUD, is unknown.

In this study, CB1R availability was measured in males with OUD on stable opioid agonist treatment (OAT) (n = 10) versus healthy controls (HC) (n = 18), using High-Resolution Research Tomography (HRRT) and the CB1R-specific radiotracer, [ 11 C]OMAR. The average volume of distribution ( V T ) across 13 regions was compared between the OUD and HC groups. Average V T was 15% lower in OUD vs. HC subjects (p = 0.04). Lower V T in OUD compared to HC was also observed in several corticolimbic areas.

Within OUD no effects on CB1R availability were observed for treatment medication (methadone vs. buprenorphine), current stress levels, or antidepressant medication. No associations between the average V T and duration of OAT treatment or time since the last illicit opioid use were observed.

This preliminary study suggests lower CB1R availability in men with OUD. Larger studies are necessary to replicate these findings. Future research should also draw from a more heterogeneous population, particularly by incorporating females, to better assess the potential confounding and moderating clinical factors. If confirmed, the observed alterations in CB1R availability in OUD may provide a rationale for targeting the eCB system in the treatment of OUD.”

https://pubmed.ncbi.nlm.nih.gov/41282260

https://www.researchsquare.com/article/rs-7715611/v1

Cannabidiol modulates brain molecular alterations, gut microbiota dysbiosis and alcohol self-administration in a mouse model of fetal alcohol spectrum disorder

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“Fetal Alcohol Spectrum Disorder (FASD) is a range of neurodevelopmental abnormalities caused by Perinatal Alcohol Exposure (PAE), leading to profound behavioral and molecular disturbances in the offspring. Unraveling the central and peripheral mechanisms involved, including the microbiota-gut-brain axis, is crucial to improving our understanding of the disease and developing new treatment strategies from a sex perspective.

In this study, we investigated the impact of PAE on emotional behavior, brain biomarkers, and gut microbiota composition and diversity in a preclinical C57BL/6 J mouse model, as well as the extent of their vulnerability to alcohol consumption. Furthermore, we have also explored the potential modulatory effects of cannabidiol (CBD) administered chronically (30 mg/kg/day, i.p.) from weaning on PAE-induced sex-dependent emotional and brain molecular impairments, gut microbiota dysbiosis, and increased alcohol reinforcing and motivational actions.

FASD model mice showed increased anxiety- and depressive-like behavior accompanied by sex-dependent changes in synaptic density, dopamine D2/D3 receptors availability, cannabinoid receptors 1 and 2 (Cnr1/Cnr2), tyrosine hydroxylase (Th), and serotonin transporter (Slc6a4) gene expression, and gut microbiota dysbiosis.

Interestingly, CBD sex-dependently improved and/or normalized PAE-induced behavioral and molecular disturbances. In addition, females but not males exposed to the animal model of FASD showed a higher motivation to drink alcohol, which CBD abolished.

Our findings provide new insights into the brain and gut microbiota sex-dependent mechanisms involved in FASD pathophysiology and further highlight the therapeutic potential of CBD to improve the management of FASD-induced emotional disturbances and alcohol addiction from a sex-oriented approach.”

https://pubmed.ncbi.nlm.nih.gov/41273930

“FASD model mice displayed emotional disturbances (anxiety- and depressive-like behaviors), which CBD alleviated.”

“Together, our findings reveal that PAE profoundly alters gut microbiota and that CBD can modulate this dysbiosis, promoting beneficial taxa and modifying community structure in a sex-dependent manner.

CBD administration also mitigated anxiety- and depression-like behaviors and modulated gene expression of endocannabinoid and monoaminergic markers.

This study opens the door to the development of personalized interventions aimed at restoring the microbiota and modulating the gut-brain axis to mitigate the cognitive and behavioral deficits characteristic of this disorder.”

https://www.sciencedirect.com/science/article/pii/S0753332225009850?via%3Dihub

Acute Effects of Cannabis on Alcohol Craving and Consumption: A Randomized Controlled Crossover Trial

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Objective: Cannabis use is strongly linked with heavy drinking and worse alcohol treatment outcomes; however, it may also contribute to decreased alcohol consumption. To date, no human studies have established a causal effect of cannabis on alcohol motivation. The aim of this double-blind crossover randomized clinical trial was to examine dose-dependent acute effects of delta-9-tetrahydrocannabinol (THC) on alcohol craving and consumption.

Methods: Across three experimental days, 157 participants reporting heavy alcohol use and cannabis use two or more times weekly were randomized to smoke cannabis cigarettes containing 7.2% THC, 3.1% THC, or 0.03% THC (placebo), followed by exposures to neutral and personalized alcohol cues and an alcohol choice task for alcohol self-administration. A total of 138 participants completed two or more experimental sessions (mean age, 25.6 years [SD=5.1]; 35% women; 45% racial/ethnic minorities). Primary outcomes included craving, Alcohol Craving Questionnaire-Short Form, Revised (ACQ-SF-R), and an alcohol urge question; the secondary outcome was percent of total available milliliters of alcohol consumed.

Results: There were no significant effects of cannabis on ACQ-SF-R ratings after smoking and during alcohol cue exposure, but 7.2% THC reduced alcohol urge immediately after smoking. Participants consumed significantly less alcohol after smoking cannabis with 3.1% THC and 7.2% THC, reducing consumption by 19% and 27%, respectively.

Conclusions: Following overnight cannabis abstinence, smoking cannabis acutely decreased alcohol consumption compared to placebo. Further controlled research on a variety of cannabinoids is needed to inform clinical alcohol treatment guidelines.”

https://pubmed.ncbi.nlm.nih.gov/41254853

“These data provide preliminary evidence that cannabis may reduce alcohol consumption under some conditions”

https://psychiatryonline.org/doi/10.1176/appi.ajp.20250115

Medical Marijuana and Opioid Usage: An Analysis of Patient Perceptions in Louisiana

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“Background: The opioid crisis has continued in the United States, resulting in a healthcare crisis. Medical marijuana (MM) offers an alternative to those with addictions or in search of pain and inflammation management without the negative aspects of opioids. 

Methods: A survey of more than 2,000 Louisianians on the frequency and amount of MM use revealed significant relationships between race, age, reason for use, prescription use, and whether they stopped using MM, as well as time in the MM program and the method of ingestion. 

Results: Respondents reported lower levels of pain with MM usage by an average of 3.4 points on a ten-point scale (Z = -35.77, ρ ≤ .001). Those using prescriptions for pain were 1.5 times more likely to use MM less frequently (OR = 1.524, 95% CI: 1.114 – 2.074, ρ ≤ .01). Concordantly, those reporting that they had stopped using prescriptions for pain increased the odds of using more MM by 26.5 percent (OR = .735, 95% CI: .586 – .923, ρ ≤ .001). 

Conclusions: These relationships support the idea that MM substitutes for prescription painkillers.”

https://pubmed.ncbi.nlm.nih.gov/41136335/

https://www.tandfonline.com/doi/full/10.1080/10826084.2025.2575429

Proof of concept for high-dose Cannabidiol pretreatment to antagonize opioid induced persistent apnea in mice

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“Background: Opioid related fatalities remain a public health crisis in the US. Currently, the only way to restore breathing following an opioid induced persistent apnea is with the administration of the opioid antagonist naloxone, but it also reverses analgesia, euphoria, and induces precipitated withdrawal in opioid dependent individuals.

Methods: Using whole-body plethysmography, we assessed changes in breathing frequency in awake behaving mice resulting from a single fentanyl dose (50 mg/kg i.p.) that followed i.p. pretreatment with saline, vehicle, naloxone (100 mg/kg), cannabidiol (CBD) (250 mg/kg), or CBD + naloxone. Then we assessed the delay to opioid-induced persistent apnea (OIPA) and the median lethal dose (LD50) of fentanyl during a continuous i.c.v. infusion of fentanyl (100 ng/min), in urethane anesthetized mice, following pretreatment with saline, vehicle, naloxone (100 mg/kg), CBD (250 mg/kg), or CBD + naloxone i.p.

Results: Here we show acute pretreatment with CBD is as effective as naloxone at preventing opioid-induced respiratory depression from fentanyl in awake mice, and increasing LD50 of fentanyl in urethane anesthetized mice. When pre-administered together, CBD + naloxone, increased LD50 of fentanyl even more than CBD or naloxone alone in urethane anesthetized mice.

Conclusion: CBD may be an effective preventative therapy for OIPA by increasing the time before apnea onset and potentially enhancing the efficacy of naloxone as an additional strategy to save lives.”

https://pubmed.ncbi.nlm.nih.gov/41132595/

“This proof of concept using CBD as a prophylactic therapeutic for prevention of fatal OIPA in mice has considerable potential for public health benefit.”

https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2025.1654787/full

Cannabidiol alleviates methamphetamine addiction via targeting ATP5A1 and modulating the ATP-ADO-A1R signaling pathway

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“Cannabidiol (CBD), a non-psychoactive cannabinoid, shows great promise in treating methamphetamine (METH) addiction. Nonetheless, the molecular target and the mechanism through which CBD treats METH addiction remain unexplored.

Herein, CBD was shown to counteract METH-induced locomotor sensitization and conditioned place preference. Additionally, CBD mitigated the adverse effects of METH, such as cristae loss, a decline in ATP content, and a reduction in membrane potential. Employing an activity-based protein profiling approach, a target fishing strategy was used to uncover CBD’s direct target.

ATP5A1, a subunit of ATP synthase, was identified and validated as a CBD target. Moreover, CBD demonstrated the ability to ameliorate METH-induced ubiquitination of ATP5A1 via the D376 residue, thereby reversing the METH-induced reduction of ATP5A1 and promoting the assembly of ATP synthase. Pharmacological inhibition of the ATP efflux channel pannexin 1, blockade of ATP hydrolysis by a CD39 inhibitor, and blocking the adenosine A1 receptor (A1R) all attenuated the therapeutic benefits of CBD in mitigating METH-induced behavioral sensitization and CPP. Moreover, the RNA interference of ATP5A1 in the ventral tegmental area resulted in the reversal of CBD’s therapeutic efficacy against METH addiction.

Collectively, these data show that ATP5A1 is a target for CBD to inhibit METH-induced addiction behaviors through the ADO-A1R signaling pathway.”

https://pubmed.ncbi.nlm.nih.gov/41132843/

“This study verifies that ATP5A1 directly binds with CBD both in vitro and in vivo, counteracting METH-triggered ATP5A1 ubiquitination and enhancing the assembly of ATP synthase, thereby preventing METH-induced mitochondrial damage. Additionally, CBD inhibits METH-induced addictive behaviors through the ADO–A1R signaling pathway. The results indicate that CBD alleviates methamphetamine addiction by targeting ATP5A1. Besides METH, CBD has shown potential therapeutic effects on addiction to opioids18 and THC66. This implies that CBD has therapeutic potential for various forms of substance abuse. Consequently, ATP5A1 may serve as a target in the treatment of polysubstance use disorders, which warrants further exploration.”

https://www.sciencedirect.com/science/article/pii/S221138352500560X?via%3Dihub

The Cannabinoid System as a Potential Novel Target for Alcohol-Associated Liver Disease: A Propensity-Matched Cohort Study

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“Background: Alcohol-associated liver disease (ALD) is a leading cause of liver-related morbidity and mortality, yet effective therapeutic options remain limited. Preclinical data suggest that modulation of the hepatic endocannabinoid system, particularly via cannabidiol (CBD), may reduce alcohol-induced liver injury. Due to CBD’s limited clinical use, we sought to evaluate the association between cannabis use and ALD risk among patients with alcohol use disorder (AUD).

Methods: Using the TriNetX US Collaborative Network, we identified adult patients with AUD between 2010 and 2022. Three cohorts were constructed: cannabis use disorder (CUD), cannabis users without cannabis abuse or dependence (CU) and non-cannabis users (non-CU). Outcomes included ALD, hepatic decompensation and composite all-cause mortality over 3 years. Incidence and hazard ratios were calculated using Kaplan-Meier analysis and Cox regression.

Results: After matching, 33 114 patients were included in each of the CUD and non-CU groups. Compared to non-CU, CUD was associated with a lower risk of ALD (HR 0.60, 95% CI 0.53-0.67; p < 0.001), hepatic decompensation (HR 0.83, 95% CI 0.73-0.95; p =0.005) and all-cause mortality (HR 0.86, 95% CI 0.80-0.94; p < 0.001) among individuals with AUD. Although CU was associated with lower risks of ALD, its risks of hepatic decompensation and all-cause mortality were similar to those of the non-CU cohort with AUD.

Conclusion: In this propensity-matched cohort study of patients with AUD, cannabis use was associated with a reduced risk of ALD, with the greatest risk reduction seen in patients with CUD compared to CU and non-CU. Our findings suggest that modulation of cannabinoid receptors may offer a new target for the development of pharmacological therapies for ALD.”

https://pubmed.ncbi.nlm.nih.gov/41117396/

  • “Cannabis use was linked to lower risks of ALD, liver-related complications and death compared to non-cannabis users.
  • These findings suggest the cannabinoid system may represent a promising therapeutic target for ALD.”

https://onlinelibrary.wiley.com/doi/10.1111/liv.70401

Tetrahydrocannabivarin (THCV) Dose Dependently Blocks or Substitutes for Tetrahydrocannabinol (THC) in a Drug Discrimination Task in Rats

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“Delta-9-Tetrahydrocannabivarin (THCV), a naturally occurring cannabinoid and structural analog of THC, exhibits a dual pharmacological profile as a CB1 receptor agonist/antagonist and a partial CB2 agonist. This study evaluated the effects of THCV in a THC discrimination model in rats. Male Sprague-Dawley rats (n = 16, 300-340 g, PND60) were trained under a fixed ratio 20 (FR20) schedule to discriminate THC (3 mg/kg) from vehicle. Substitution tests were conducted with THC (0.325-3 mg/kg), THCV (0.75-6 mg/kg), and THC-THCV combinations. THCV produced an inverted U-shaped substitution curve, significantly differing from vehicle (p = 0.008). At 3 mg/kg, THCV partially substituted for THC (54.6% ± 17.82, p = 0.003). Response rate significantly increased during the substitution test with 3 mg/kg of THCV (p = 0.042). THCV (6 mg/kg) reversed THC (0.75 mg/kg)-induced responding (p = 0.040), with no significant change in response rate (p = 0.247). However, THCV combined with THC (1.5 mg/kg) affected response rates (p = 0.012), with 6 mg/kg significantly reducing rates vs. 3 mg/kg (p = 0.013). Blood THC and 11-OH-THC levels remained unchanged when THC was combined with THCV. The findings suggest THCV can partially mimic or block THC’s discriminative effects in a dose-dependent manner, possibly acting as a partial CB1 agonist.”

https://pubmed.ncbi.nlm.nih.gov/41008636/

“Taken together, our findings highlight THCV’s unique pharmacological profile, characterized by partial agonism dose-dependent substitution for THC, and antagonism at higher doses. Importantly, THCV substituted for THC in a graded manner without evidence of pharmacokinetic interactions, and it also produced stimulant-like effects that distinguish it from THC. These results suggest that THCV may act as a dose-dependent modulator of cannabinoid receptor activity, capable of both mimicking and opposing THC’s discriminative stimulus effects. Such bidirectional properties are consistent with its complex receptor pharmacology and underscore the importance of dose in determining behavioral outcomes. Future studies should expand on these findings by examining sex- and strain-dependent variability, assessing the role of CB1 and CB2 receptor mechanisms using antagonist approaches, and exploring THCV’s actions across a broader range of behavioral paradigms, including those related to reward, cognition, and feeding behavior. Together, these efforts will help to clarify the pharmacology of THCV and further delineate its position within the cannabinoid spectrum.”

https://www.mdpi.com/2218-273X/15/9/1329

Cannabidiol attenuates heroin seeking in male rats associated with normalization of discrete neurobiological signatures within the nucleus accumbens with subregional specificity

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“Background: Opioid use disorder is a chronic relapsing condition characterized by cycles of compulsive drug use, abstinence, and relapse. Cannabidiol (CBD), a non-intoxicating cannabinoid, is under investigation as an anti-relapse treatment. CBD attenuates cue-induced heroin-seeking in a rodent model of relapse, and reduces craving and anxiety induced by drug-associated cues in abstinent individuals with heroin use disorder. The neurobiological mechanisms by which CBD may exert its anti-relapse effects are unknown.

Methods: The objective of the current study was to evaluate the effects of CBD administration on heroin-seeking behavior in conjunction with transcriptomic profiling in the nucleus accumbens core (NAcC) and shell (NAcS).

Results: Heroin-trained animals exhibited high levels of cue-induced heroin-seeking behavior. Importantly, CBD attenuated cue-induced heroin-seeking behaviors. Postmortem RNA-sequencing of the NAcC and NAcS revealed shared transcriptomic alterations the NAc subregions in response to heroin, with a more robust impact of heroin in the NAcS. Though CBD had minimal impact on the heroin-induced perturbations in the NAcC, it normalized components of the transcriptomic signature altered by heroin in both NAc subregions including transcripts that correlated with heroin-seeking behavior. In contrast, CBD normalized a particular subset of NAcS genes that correlated to heroin-seeking behavior. Those genes were specifically linked to the extracellular matrix, astrocyte function, and their upstream regulators related to immune function.

Conclusion: These findings underscore the NAc subregional signatures of heroin-induced neurobiological perturbations and provide novel biological targets relevant for CBD’s apparent anti-relapse effects.”

https://pubmed.ncbi.nlm.nih.gov/40992584/

https://linkinghub.elsevier.com/retrieve/pii/S0006322325014623

Cannabis administration is associated with reduced alcohol consumption: Evidence from a novel laboratory co-administration paradigm

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“Background: Alcohol and cannabis co-use is increasingly prevalent across the U.S., concomitant with trends towards recreational cannabis legalization. While some studies have shown that cannabis co-use is associated with reductions in alcohol consumption (i.e., substitution), others have observed increases in alcohol intake (i.e., complementarity) or no change. This study aims to address this gap in the literature through investigating the effects of legal-market cannabis on alcohol consumption and craving in the laboratory.

Method: Leveraging a within-subjects design, we enrolled non-treatment seeking individuals who use both alcohol and cannabis (n = 61) to complete two laboratory sessions, wherein they were provided an alcohol priming drink alone or after self-administering cannabis. Participants were then given the opportunity to self-administer up to 4 additional drinks. We assessed differences in alcohol self-administration and craving between sessions.

Results: Cannabis self-administration was associated with a significant reduction in number of drinks self-administered. Further, exploratory analyses revealed that individuals who drank less after using cannabis (“substituters”, n = 23) experienced reductions in craving after using cannabis and alcohol compared to alcohol alone, whereas individuals who drank the same number of drinks after using cannabis show minimal differences in craving. There were no significant group differences in blood-THC concentration post-cannabis use.

Conclusion: Results indicate that for some individuals who drink heavily, cannabis may serve as a substitute for alcohol, and craving reduction is a potential mechanism through which this could occur.”

https://pubmed.ncbi.nlm.nih.gov/40915022/

“Cannabis use was associated with a reduction in alcohol intake.”

https://www.sciencedirect.com/science/article/abs/pii/S0376871625003138?via%3Dihub