小胶质细胞功能障碍是否在自闭症和Rett综合征中起作用?

Neuron glia biology Pub Date : 2011-02-01 Epub Date: 2012-04-30 DOI:10.1017/S1740925X1200004X
Izumi Maezawa, Marco Calafiore, Heike Wulff, Lee-Way Jin
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引用次数: 38

摘要

自闭症谱系障碍(ASDs)是一组复杂的发育障碍,其核心缺陷是社会交往障碍、沟通困难和重复行为。尽管近二十年来自闭症谱系障碍的神经生物学研究引起了广泛的关注,但小胶质细胞的作用却被忽视了。现有的数据集中在它们在神经炎症中公认的作用,这只涵盖了小胶质细胞病理库的一小部分。本文综述了最近关于小胶质细胞更广泛的作用的研究发现,包括它们对脑微环境的积极监测和突触连通性的调节,脑回路的成熟和神经发生。越来越多的证据表明,小胶质细胞通过表观遗传界面对出生前后的环境刺激作出反应,从而改变基因表达,从而作为经验依赖性突触可塑性的效应器。这些小胶质细胞功能的损害可能是自闭症的几个主要病因,如环境毒素和皮质连接不足。我们最近对Rett综合征(一种综合征性自闭症)的研究提供了一个例子,表明遗传和表观遗传畸变导致的内在小胶质细胞功能障碍可能会对发育轨迹产生不利影响,而不会引起神经炎症。我们认为,asd为研究小胶质细胞对神经发育的影响提供了极好的机会,这些知识可能会导致新的治疗方法。
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Does microglial dysfunction play a role in autism and Rett syndrome?

Autism spectrum disorders (ASDs) including classic autism is a group of complex developmental disabilities with core deficits of impaired social interactions, communication difficulties and repetitive behaviors. Although the neurobiology of ASDs has attracted much attention in the last two decades, the role of microglia has been ignored. Existing data are focused on their recognized role in neuroinflammation, which only covers a small part of the pathological repertoire of microglia. This review highlights recent findings on the broader roles of microglia, including their active surveillance of brain microenvironments and regulation of synaptic connectivity, maturation of brain circuitry and neurogenesis. Emerging evidence suggests that microglia respond to pre- and postnatal environmental stimuli through epigenetic interface to change gene expression, thus acting as effectors of experience-dependent synaptic plasticity. Impairments of these microglial functions could substantially contribute to several major etiological factors of autism, such as environmental toxins and cortical underconnectivity. Our recent study on Rett syndrome, a syndromic autistic disorder, provides an example that intrinsic microglial dysfunction due to genetic and epigenetic aberrations could detrimentally affect the developmental trajectory without evoking neuroinflammation. We propose that ASDs provide excellent opportunities to study the influence of microglia on neurodevelopment, and this knowledge could lead to novel therapies.

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Neuron glia biology
Neuron glia biology 医学-神经科学
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