微rna介导的翻译途径在眼窝额叶皮层和外周血样本在海洛因自我戒断期间受到调节

Advances in drug and alcohol research Pub Date : 2023-08-14 eCollection Date: 2023-01-01 DOI:10.3389/adar.2023.11668
Mary Tresa Zanda, Leila Saikali, Paige Morris, Stephanie E Daws
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引用次数: 0

摘要

美国阿片类药物滥用导致每年超过70%的过量死亡。为了开发可能防止阿片类药物滥用的额外疗法,需要对阿片类物质暴露的神经生物学后果进行进一步研究。在这里,我们试图描述成年雄性大鼠自我服用阿片类海洛因的大脑和血液中涉及微小RNA(miRNA)通路的分子神经适应。miRNA是约18-24个核苷酸的RNA,通过阻止mRNA翻译成蛋白质来调节蛋白质表达。操纵miRNA及其下游途径可以对药物寻求行为进行关键性调控。我们对眶额皮质(OFC)的组织进行了miRNA的小RNA测序和蛋白质组学分析,OFC是一个与海洛因寻求相关的大脑区域,在强制戒服0.03mg/kg/滴注海洛因或蔗糖2天后。海洛因自身给药导致OFC miRNA谱的剧烈变化,调节77个miRNA,而蔗糖自身给药仅调节9个miRNA与海洛因诱导的谱不重叠。相反,蛋白质组学揭示了OFC中海洛因和蔗糖对七种蛋白质的双重调节。通路分析确定,海洛因相关的miRNA通路被预测为靶向与“朊病毒疾病”相关的基因,该术语也在海洛因诱导的蛋白质表达数据集中富集。最后,我们证实了海洛因诱导的OFC中miRNA表达变化的一个子集在外周血清中受到调节,并与海洛因输注相关。这些发现表明,外周血样本可能具有生物标志物效用,可用于评估慢性药物暴露后大脑中发生的药物诱导的miRNA通路改变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MicroRNA-mediated translational pathways are regulated in the orbitofrontal cortex and peripheral blood samples during acute abstinence from heroin self-administration.

Opioid misuse in the United States contributes to >70% of annual overdose deaths. To develop additional therapeutics that may prevent opioid misuse, further studies on the neurobiological consequences of opioid exposure are needed. Here we sought to characterize molecular neuroadaptations involving microRNA (miRNA) pathways in the brain and blood of adult male rats that self-administered the opioid heroin. miRNAs are ∼18-24 nucleotide RNAs that regulate protein expression by preventing mRNA translation into proteins. Manipulation of miRNAs and their downstream pathways can critically regulate drug seeking behavior. We performed small-RNA sequencing of miRNAs and proteomics profiling on tissue from the orbitofrontal cortex (OFC), a brain region associated with heroin seeking, following 2 days of forced abstinence from self-administration of 0.03 mg/kg/infusion heroin or sucrose. Heroin self-administration resulted in a robust shift of the OFC miRNA profile, regulating 77 miRNAs, while sucrose self-administration only regulated 9 miRNAs that did not overlap with the heroin-induced profile. Conversely, proteomics revealed dual regulation of seven proteins by both heroin and sucrose in the OFC. Pathway analysis determined that heroin-associated miRNA pathways are predicted to target genes associated with the term "prion disease," a term that was also enriched in the heroin-induced protein expression dataset. Lastly, we confirmed that a subset of heroin-induced miRNA expression changes in the OFC are regulated in peripheral serum and correlate with heroin infusions. These findings demonstrate that peripheral blood samples may have biomarker utility for assessment of drug-induced miRNA pathway alterations that occur in the brain following chronic drug exposure.

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