Current perspectives on the neurobiology of drug addiction: a focus on genetics and factors regulating gene expression.

ISRN Neurology Pub Date : 2012-01-01 DOI:10.5402/2012/972607
Jhodie R Duncan
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引用次数: 24

Abstract

Drug addiction is a chronic, relapsing disorder defined by cyclic patterns of compulsive drug seeking and taking interspersed with episodes of abstinence. While genetic variability may increase the risk of addictive behaviours in an individual, exposure to a drug results in neuroadaptations in interconnected brain circuits which, in susceptible individuals, are believed to underlie the transition to, and maintenance of, an addicted state. These adaptations can occur at the cellular, molecular, or (epi)genetic level and are associated with synaptic plasticity and altered gene expression, the latter being mediated via both factors affecting translation (epigenetics) and transcription (non coding microRNAs) of the DNA or RNA itself. New advances using techniques such as optogenetics have the potential to increase our understanding of the microcircuitry mediating addictive behaviours. However, the processes leading to addiction are complex and multifactorial and thus we face a major contemporary challenge to elucidate the factors implicated in the development and maintenance of an addicted state.

药物成瘾的神经生物学研究现状:关注基因和基因表达调控因素。
药物成瘾是一种慢性的、反复发作的疾病,由强迫性药物寻求和服用的循环模式定义,其间穿插着戒断的片段。虽然遗传变异可能会增加个体成瘾行为的风险,但接触药物会导致相互连接的大脑回路中的神经适应,而在易感个体中,这被认为是过渡到成瘾状态并维持成瘾状态的基础。这些适应可以发生在细胞、分子或(外显)遗传水平上,并与突触可塑性和基因表达改变有关,后者通过影响DNA或RNA本身的翻译(表观遗传学)和转录(非编码microrna)的因素介导。利用光遗传学等技术的新进展有可能增加我们对微电路介导成瘾行为的理解。然而,导致成瘾的过程是复杂和多因素的,因此我们面临着一个重大的当代挑战,即阐明与成瘾状态的发展和维持有关的因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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