Dissection of Neurochemical Pathways Across Complexity and Scale

IF 4.2 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Neurochemistry Pub Date : 2025-07-21 DOI:10.1111/jnc.70160

Alice Abbondanza, Nawon Kim, Ricardo A. S. Lima-Filho, Azin Amin, Roberta G. Anversa, Felipe Borges Almeida, Pablo L. Cardozo, Giovanna Carello-Collar, Emma V. Carsana, Royhaan O. Folarin, Sara Guerreiro, Olayemi K. Ijomone, Sodiq K. Lawal, Isadora Matias, Smart I. Mbagwu, Sandra A. Niño, Bolanle F. Olabiyi, Sunday Y. Olatunji, Tosin A. Olasehinde, Waralee Ruankham, William N. Sanchez, Carina Soares-Cunha, Paula A. Soto, Jazmín Soto-Verdugo, Nathan R. Strogulski, Weronika Tomaszewska, Cármen Vieira, Adriano Chaves-Filho, Michael A. Cousin, Ago Rinken, Tyler J. Wenzel

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Abstract

The field of Neurochemistry spent decades trying to understand how the brain works, from nano to macroscale and across diverse species. Technological advancements over the years allowed researchers to better visualize and understand the cellular processes underpinning central nervous system (CNS) function. This review provides an overview of how novel models, and tools have allowed Neurochemistry researchers to investigate new and exciting research questions. We discuss the merits and demerits of different in vivo models (e.g., Caenorhabditis elegans, Drosophila melanogaster, Ratus norvegicus, and Mus musculus) as well as in vitro models (e.g., primary cells, induced pluripotent stem cells, and immortalized cells) to study Neurochemical events. We also discuss how these models can be paired with cutting-edge genetic manipulation (e.g., CRISPR-Cas9 and engineered viral vectors) and imaging techniques, such as super-resolution microscopy and new biosensors, to study cellular processes of the CNS. These technological advancements provide new insight into Neurochemical events in physiological and pathological contexts, paving the way for the development of new treatments (e.g., cell and gene therapies or small molecules) that aim to treat neurological disorders by reverting the CNS to its homeostatic state.

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跨越复杂性和规模的神经化学通路解剖

神经化学领域花了几十年的时间试图了解大脑是如何工作的，从纳米到宏观尺度，跨越不同的物种。多年来的技术进步使研究人员能够更好地可视化和理解支撑中枢神经系统（CNS）功能的细胞过程。这篇综述概述了新颖的模型和工具如何使神经化学研究人员能够研究新的和令人兴奋的研究问题。我们讨论了不同的体内模型（如秀丽隐杆线虫、黑腹果蝇、褐家鼠和小家鼠）以及体外模型（如原代细胞、诱导多能干细胞和永生化细胞）研究神经化学事件的优缺点。我们还讨论了如何将这些模型与尖端的基因操作（如CRISPR-Cas9和工程病毒载体）和成像技术（如超分辨率显微镜和新型生物传感器）相结合，以研究中枢神经系统的细胞过程。这些技术进步为生理和病理背景下的神经化学事件提供了新的见解，为开发新的治疗方法（例如，细胞和基因疗法或小分子疗法）铺平了道路，旨在通过将中枢神经系统恢复到其稳态状态来治疗神经系统疾病。

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来源期刊

Journal of Neurochemistry 医学-神经科学

CiteScore

9.30

自引率

2.10%

发文量

181

审稿时长

2.2 months

期刊介绍： Journal of Neurochemistry focuses on molecular, cellular and biochemical aspects of the nervous system, the pathogenesis of neurological disorders and the development of disease specific biomarkers. It is devoted to the prompt publication of original findings of the highest scientific priority and value that provide novel mechanistic insights, represent a clear advance over previous studies and have the potential to generate exciting future research.