MicroRNA-132/212 negatively modulates opioid reward by targeting dopamine transporter in the ventral tegmental area
Jie Meng, Zhonghao Li, Yi Zhang, Dajun Zhang, Haiting Liu, Xiangyang Zang, Yaqiong Zhao, Jing Wen, Wei Shu, Xiaoke Nan, Xianchan Li, Yan-Xue Xue, Xiaojian Jia

TL;DR
This study shows that miR-132/212 controls opioid reward by regulating dopamine transporter levels in the brain's reward center.
Contribution
The study identifies miR-132/212 as a novel modulator of opioid reward through posttranscriptional regulation of dopamine transporter.
Findings
Repeated morphine reduces miR-132/212 in the ventral tegmental area and increases dopamine transporter expression.
miR-132/212 directly targets the dopamine transporter gene, reducing its expression in vitro and in vivo.
Suppression of miR-132/212 enhances morphine reward behavior in both adult and adolescent rats.
Abstract
Addictive drugs, notably opioid drugs, have significant societal implications, yet the cellular and molecular mechanisms underpinning rewarding effects remain largely elusive. Noncoding transcripts, including the microRNAs (miRNAs), are pivotal regulators of diverse biological functions. Notably, the microRNAs miR-132 and miR-212, arising from a shared noncoding transcript, have links to several psychiatric conditions, including cocaine addiction. However, their contribution to opiate rewarding remains speculative. In this study, we discovered that repeated morphine administration decreases the expression of miR-132/212 in the ventral tegmental area (VTA) and induces a concurrent upregulation of the dopamine transporter (DAT). Using a luciferase reporter assay, we found that the DAT coding gene, SLC6A3 mRNA 3’UTR, is a direct target of miR-132/212. These miRNAs negatively regulated both…
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Taxonomy
TopicsMicroRNA in disease regulation · Neurotransmitter Receptor Influence on Behavior · Nuclear Receptors and Signaling
