Optogenetics in oral and craniofacial research.

IF 4.7 3区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Qinmeng Zhang, Luyao Song, Mengdie Fu, Jin He, Guoli Yang, Zhiwei Jiang
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引用次数: 0

Abstract

Optogenetics combines optics and genetic engineering to control specific gene expression and biological functions and has the advantages of precise spatiotemporal control, noninvasiveness, and high efficiency. Genetically modified photosensory sensors are engineered into proteins to modulate conformational changes with light stimulation. Therefore, optogenetic techniques can provide new insights into oral biological processes at different levels, ranging from the subcellular and cellular levels to neural circuits and behavioral models. Here, we introduce the origins of optogenetics and highlight the recent progress of optogenetic approaches in oral and craniofacial research, focusing on the ability to apply optogenetics to the study of basic scientific neural mechanisms and to establish different oral behavioral test models in vivo (orofacial movement, licking, eating, and drinking), such as channelrhodopsin (ChR), archaerhodopsin (Arch), and halorhodopsin from Natronomonas pharaonis (NpHR). We also review the synergic and antagonistic effects of optogenetics in preclinical studies of trigeminal neuralgia and maxillofacial cellulitis. In addition, optogenetic tools have been used to control the neurogenic differentiation of dental pulp stem cells in translational studies. Although the scope of optogenetic tools is increasing, there are limited large animal experiments and clinical studies in dental research. Potential future directions include exploring therapeutic strategies for addressing loss of taste in patients with coronavirus disease 2019 (COVID-19), studying oral bacterial biofilms, enhancing craniomaxillofacial and periodontal tissue regeneration, and elucidating the possible pathogenesis of dry sockets, xerostomia, and burning mouth syndrome.

光遗传学在口腔和颅面研究中的应用。
光遗传学将光学和基因工程相结合,控制特定基因的表达和生物功能,具有时空控制精确、非侵入性和高效率等优点。经过基因改造的光感传感器被植入蛋白质中,在光的刺激下调节构象变化。因此,光遗传学技术可以从亚细胞和细胞水平到神经回路和行为模型等不同层面为口腔生物过程提供新的见解。在此,我们将介绍光遗传学的起源,并着重介绍光遗传学方法在口腔和颅面研究中的最新进展,重点是将光遗传学应用于基础科学神经机制的研究,以及在体内建立不同的口腔行为测试模型(口腔运动、舔食、进食和饮水)的能力,如通道核糖体蛋白(ChR)、古核糖体蛋白(Arch)和来自 Natronomonas pharaonis 的卤化核糖体蛋白(NpHR)。我们还回顾了光遗传学在三叉神经痛和颌面蜂窝组织炎临床前研究中的协同和拮抗作用。此外,在转化研究中,光遗传学工具还被用于控制牙髓干细胞的神经源分化。虽然光遗传学工具的应用范围在不断扩大,但牙科研究领域的大型动物实验和临床研究还很有限。未来潜在的研究方向包括:探索治疗策略,解决冠状病毒病 2019(COVID-19)患者味觉丧失的问题;研究口腔细菌生物膜;促进颅颌面和牙周组织再生;阐明干槽症、口腔干燥症和灼口综合征的可能发病机制。
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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来源期刊
Journal of Zhejiang University SCIENCE B
Journal of Zhejiang University SCIENCE B 生物-生化与分子生物学
CiteScore
8.70
自引率
13.70%
发文量
2125
审稿时长
3.0 months
期刊介绍: Journal of Zheijang University SCIENCE B - Biomedicine & Biotechnology is an international journal that aims to present the latest development and achievements in scientific research in China and abroad to the world’s scientific community. JZUS-B covers research in Biomedicine and Biotechnology and Biochemistry and topics related to life science subjects, such as Plant and Animal Sciences, Environment and Resource etc.
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