Epigenetic Mechanisms of Opioid Addiction

Browne, Caleb J.; Godino, Arthur; Salery, Marine; Nestler, Eric J.

doi:10.1016/j.biopsych.2019.06.027

Cited by 170 publications

(119 citation statements)

References 127 publications

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“…Because of the many shared pathways across brain regions in OUD, we comprehensively mapped the extent of transcriptional overlap between the DLPFC and NAc. Such analyses may provide critical insight into the functional alterations across DLPFC-NAc circuits (3,11,(66)(67)(68)(69). To investigate overlap of alterations between regions, we used Rank-Rank Hypergeometric Overlap (RRHO) analysis (70,71).…”

Section: High Transcriptional Coherence Between Dlpfc and Nac Convergmentioning

confidence: 99%

“…Further investigation into these overlapping transcripts revealed pathways enriched for factors that control the formation and degradation of the extracellular matrix (ECM) and pro-inflammatory cytokine-mediated signaling. These pathways implicate neuroinflammation as a driver of ECM remodeling and synaptic reorganization, processes which are critical for opioid-induced neuroplasticity (11).…”

Section: Introductionmentioning

confidence: 99%

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Transcriptional alterations in opioid use disorder reveal an interplay between neuroinflammation and synaptic remodeling

Seney

Moon-Kim

Glausier

et al. 2020

Preprint

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Prevalence rates of opioid use disorder (OUD) have increased dramatically, accompanied by a surge of overdose deaths. While opioid dependence has been extensively studied in preclinical models, we still have a very limited understanding of the biological changes that occur in the brains of people who chronically use opioids and who are diagnosed with OUD. To address this, we conducted the largest transcriptomics study to date using postmortem brains from subjects with OUD. We focused on the dorsolateral prefrontal cortex (DLPFC) and nucleus accumbens (NAc), two regions heavily implicated in OUD. We discovered a high degree of overlap in transcripts between DLPFC and NAc in OUD, primarily associated with neuroinflammation. Moreover, additional transcripts were enriched for factors that control pro-inflammatory cytokine-mediated signaling and remodeling of the extracellular matrix (ECM). Our results also implicate a role for microglia as a critical driver for opioid-induced neuroplasticity. Overall, our findings reveal new connections between the brain’s immune system and opioid dependence in the human brain.

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Section: High Transcriptional Coherence Between Dlpfc and Nac Convergmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Transcriptional alterations in opioid use disorder reveal an interplay between neuroinflammation and synaptic remodeling

Seney

Moon-Kim

Glausier

et al. 2020

Preprint

View full text Add to dashboard Cite

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“…Immediate effects of opioids result in decreased levels of consciousness, sedation (Collett 1998 ; Thompson 2000 ; Indelicato and Portenoy 2002 ), drowsiness, and sleep disturbances (Moore and Dimsdale 2002 ; Bourne and Mills 2004 ; Qureshi and Lee-Chiong 2004 ). While acute opioid exposure can impair cognition in healthy subjects (Lawlor 2002 ; Ersek et al 2004 ), enduring cognitive and psychomotor deficits occur with chronic opioid use (Sjogren et al 2000 ; Dublin et al 2015 ; Roberts et al 2018 ; Wollman et al 2019 ; Serafini et al 2020 ), including altered pain perception (opioid-induced hyperalgesia), dysregulated reward/saliency processing, hyperkatifeia, and epigenetic changes, which can persist years following abstinence (Ersche et al 2006 ; Browne et al 2020 ). The behavioral changes seen with long-term opioid use are accompanied by lasting structural and epigenetic (e.g., altered DNA methylation and expression of non-coding RNAs) alterations in brain regions implicated in mood, reward, and motivation (Upadhyay et al 2010 ; Dublin et al 2015 ; Volkow and Morales 2015 ; Koob and Volkow 2016 ; Serafini et al 2020 ).…”

Section: Overviewmentioning

confidence: 99%

Opioid and neuroHIV Comorbidity – Current and Future Perspectives

Fitting

McRae

Hauser

2020

J Neuroimmune Pharmacol

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With the current national opioid crisis, it is critical to examine the mechanisms underlying pathophysiologic interactions between human immunodeficiency virus (HIV) and opioids in the central nervous system (CNS). Recent advances in experimental models, methodology, and our understanding of disease processes at the molecular and cellular levels reveal opioid-HIV interactions with increasing clarity. However, despite the substantial new insight, the unique impact of opioids on the severity, progression, and prognosis of neuroHIV and HIV-associated neurocognitive disorders (HAND) are not fully understood. In this review, we explore, in detail, what is currently known about mechanisms underlying opioid interactions with HIV, with emphasis on individual HIV-1-expressed gene products at the molecular, cellular and systems levels. Furthermore, we review preclinical and clinical studies with a focus on key considerations when addressing questions of whether opioid-HIV interactive pathogenesis results in unique structural or functional deficits not seen with either disease alone. These considerations include, understanding the combined consequences of HIV-1 genetic variants, host variants, and μ-opioid receptor (MOR) and HIV chemokine co-receptor interactions on the comorbidity. Lastly, we present topics that need to be considered in the future to better understand the unique contributions of opioids to the pathophysiology of neuroHIV. Graphical Abstract Blood-brain barrier and the neurovascular unit. With HIV and opiate co-exposure (represented below the dotted line), there is breakdown of tight junction proteins and increased leakage of paracellular compounds into the brain. Despite this, opiate exposure selectively increases the expression of some efflux transporters, thereby restricting brain penetration of specific drugs.

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“…Following the initial exposure, the addictive substance continues to have a persistent effect, and this suggests a form of cellular memory. There is strong evidence that epigenetic processes, including DNA methylation, play a key role in maintaining the long-term effects of the additive substance [16,17]. Studies particularly in model organisms have shown that drugs of abuse trigger intracellular signaling cascades that alter gene transcription, repeated exposure to the drug then results in remodeling of the epigenome that persists over time, and these epigenetic processes maintain the long-term changes in steadystate gene expression that underlie addiction [16,[18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Effect of short-term prescription opioids on DNA methylation of the OPRM1 promoter

et al. 2020

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Background: A long-term opioid use has been associated with hypermethylation of the opioid receptor mu 1 (OPRM1) promoter. Very little is currently known about the early epigenetic response to therapeutic opioids. Here, we examine whether we can detect DNA methylation changes associated with a few days' use of prescribed opioids. Genome-wide DNA methylation was assayed in a cohort of 33 opioid-naïve participants who underwent standard dental surgery followed by opioid self-administration. Saliva samples were collected before surgery (visit 1), and at two postsurgery visits at 2.7 ± 1.5 days (visit 2), and 39 ± 10 days (visit 3) after the discontinuation of opioid analgesics. Results: The perioperative methylome underwent significant changes over the three visits that were primarily due to postoperative inflammatory response and cell heterogeneity. To specifically examine the effect of opioids, we started with a candidate gene approach and evaluated 10 CpGs located in the OPRM1 promoter. There was a significant cross-sectional variability in opioid use, and for participants who self-administered the prescribed drugs, the total dosage ranged from 5-210 morphine milligram equivalent (MME). Participants were categorized by cumulative dosage into three groups: < 25 MME, 25-90 MME, and ≥ 90 MME. Using mixed-effects modeling, 4 CpGs had significant positive associations with opioid dose at two-tailed p value < 0.05, and overall, 9 of the 10 OPRM1 promoter CpGs showed the predicted higher methylation in the higher dose groups relative to the lowest dose group. After adjustment for age, cellular heterogeneity, and past tobacco use, the promoter mean methylation also had positive associations with cumulative MME (regression coefficient = 0.0002, one-tailed p value = 0.02) and duration of opioid use (regression coefficient = 0.003, one-tailed p value = 0.001), but this effect was significant only for visit 3. A preliminary epigenome-wide association study identified a significant CpG in the promoter of the RASrelated signaling gene, RASL10A, that may be predictive of opioid dosage. Conclusion: The present study provides evidence that the hypermethylation of the OPRM1 promoter is in response to opioid use and that epigenetic differences in OPRM1 and other sites are associated with a short-term use of therapeutic opioids.

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Epigenetic Mechanisms of Opioid Addiction

Cited by 170 publications

References 127 publications

Transcriptional alterations in opioid use disorder reveal an interplay between neuroinflammation and synaptic remodeling

Transcriptional alterations in opioid use disorder reveal an interplay between neuroinflammation and synaptic remodeling

Opioid and neuroHIV Comorbidity – Current and Future Perspectives

Effect of short-term prescription opioids on DNA methylation of the OPRM1 promoter

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