Optogenetic and chemogenetic approaches for modeling neurological disorders in vivo

IF 6.7 2区 医学 Q1 NEUROSCIENCES
Viktoriya G. Krut’ , Andrei L. Kalinichenko , Dmitry I. Maltsev , David Jappy , Evgeny K. Shevchenko , Oleg V. Podgorny , Vsevolod V. Belousov
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引用次数: 0

Abstract

Animal models of human neurological disorders provide valuable experimental tools which enable us to study various aspects of disorder pathogeneses, ranging from structural abnormalities and disrupted metabolism and signaling to motor and mental deficits, and allow us to test novel therapies in preclinical studies. To be valid, these animal models should recapitulate complex pathological features at the molecular, cellular, tissue, and behavioral levels as closely as possible to those observed in human subjects. Pathological states resembling known human neurological disorders can be induced in animal species by toxins, genetic factors, lesioning, or exposure to extreme conditions. In recent years, novel animal models recapitulating neuropathologies in humans have been introduced. These animal models are based on synthetic biology approaches: opto- and chemogenetics. In this paper, we review recent opto- and chemogenetics-based animal models of human neurological disorders. These models allow for the creation of pathological states by disrupting specific processes at the cellular level. The artificial pathological states mimic a range of human neurological disorders, such as aging-related dementia, Alzheimer’s and Parkinson’s diseases, amyotrophic lateral sclerosis, epilepsy, and ataxias. Opto- and chemogenetics provide new opportunities unavailable with other animal models of human neurological disorders. These techniques enable researchers to induce neuropathological states varying in severity and ranging from acute to chronic. We also discuss future directions for the development and application of synthetic biology approaches for modeling neurological disorders.

用于体内神经系统疾病建模的光遗传学和化学遗传学方法。
人类神经系统疾病的动物模型为我们提供了宝贵的实验工具,使我们能够研究疾病病理的各个方面,从结构异常、新陈代谢和信号传递紊乱到运动和智力缺陷,并使我们能够在临床前研究中测试新型疗法。这些动物模型应在分子、细胞、组织和行为水平上再现复杂的病理特征,尽可能接近在人类受试者身上观察到的病理特征,这样才是有效的。通过毒素、遗传因素、病变或暴露于极端条件下,可在动物物种中诱发与已知人类神经系统疾病相似的病理状态。近年来,重现人类神经病理学的新型动物模型不断问世。这些动物模型基于合成生物学方法:光遗传学和化学遗传学。在本文中,我们回顾了最近基于光遗传学和化学遗传学的人类神经疾病动物模型。这些模型可以通过破坏细胞水平的特定过程来创建病理状态。人工病理状态模拟了一系列人类神经系统疾病,如与衰老相关的痴呆症、阿尔茨海默氏症和帕金森氏症、肌萎缩侧索硬化症、癫痫和共济失调。光遗传学和化学遗传学为人类神经系统疾病提供了其他动物模型无法提供的新机会。这些技术使研究人员能够诱发严重程度不同、从急性到慢性的神经病理状态。我们还讨论了开发和应用合成生物学方法建立神经系统疾病模型的未来方向。
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来源期刊
Progress in Neurobiology
Progress in Neurobiology 医学-神经科学
CiteScore
12.80
自引率
1.50%
发文量
107
审稿时长
33 days
期刊介绍: Progress in Neurobiology is an international journal that publishes groundbreaking original research, comprehensive review articles and opinion pieces written by leading researchers. The journal welcomes contributions from the broad field of neuroscience that apply neurophysiological, biochemical, pharmacological, molecular biological, anatomical, computational and behavioral analyses to problems of molecular, cellular, developmental, systems, and clinical neuroscience.
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