小鼠神经系统疾病建模需要正交方法

IF 3.5 3区 医学 Q2 NEUROSCIENCES Frontiers in Molecular Neuroscience Pub Date : 2024-05-02 DOI:10.3389/fnmol.2024.1399953
Linda Bossini, Alessandro Sessa
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引用次数: 0

摘要

多年来,神经系统疾病建模的进步揭示了一些创新策略,这些策略旨在深入了解这些复杂疾病,并开发出更有效的治疗方法。然而,这些进展最近被越来越多的临床试验失败所掩盖,使人们对这类疾病建模的可靠性和可转化性产生了怀疑。这篇微型综述并不旨在全面概述当前疾病小鼠建模的最新进展。相反,它简要介绍了神经系统疾病建模的一些最新方法,指出了该领域应用的一些有趣策略,这些策略可作为改进现有动物模型的灵感来源。尤其是,我们希望引导读者认识到,在人类疾病研究中采用更加正交的方法可能会取得成功。
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Need of orthogonal approaches in neurological disease modeling in mouse
Over the years, advancements in modeling neurological diseases have revealed innovative strategies aimed at gaining deeper insights and developing more effective treatments for these complex conditions. However, these progresses have recently been overshadowed by an increasing number of failures in clinical trials, raising doubts about the reliability and translatability of this type of disease modeling. This mini-review does not aim to provide a comprehensive overview of the current state-of-the-art in disease mouse modeling. Instead, it offers a brief excursus over some recent approaches in modeling neurological diseases to pinpoint a few intriguing strategies applied in the field that may serve as sources of inspiration for improving currently available animal models. In particular, we aim to guide the reader toward the potential success of adopting a more orthogonal approach in the study of human diseases.
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来源期刊
CiteScore
5.70
自引率
2.10%
发文量
669
审稿时长
14 weeks
期刊介绍: Frontiers in Molecular Neuroscience is a first-tier electronic journal devoted to identifying key molecules, as well as their functions and interactions, that underlie the structure, design and function of the brain across all levels. The scope of our journal encompasses synaptic and cellular proteins, coding and non-coding RNA, and molecular mechanisms regulating cellular and dendritic RNA translation. In recent years, a plethora of new cellular and synaptic players have been identified from reduced systems, such as neuronal cultures, but the relevance of these molecules in terms of cellular and synaptic function and plasticity in the living brain and its circuits has not been validated. The effects of spine growth and density observed using gene products identified from in vitro work are frequently not reproduced in vivo. Our journal is particularly interested in studies on genetically engineered model organisms (C. elegans, Drosophila, mouse), in which alterations in key molecules underlying cellular and synaptic function and plasticity produce defined anatomical, physiological and behavioral changes. In the mouse, genetic alterations limited to particular neural circuits (olfactory bulb, motor cortex, cortical layers, hippocampal subfields, cerebellum), preferably regulated in time and on demand, are of special interest, as they sidestep potential compensatory developmental effects.
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