Neurogenesis dynamics in the olfactory bulb: deciphering circuitry organization, function, and adaptive plasticity.

IF 5.9 2区 医学 Q2 CELL BIOLOGY Neural Regeneration Research Pub Date : 2025-06-01 Epub Date: 2024-06-26 DOI:10.4103/NRR.NRR-D-24-00312
Moawiah M Naffaa
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Abstract

Adult neurogenesis persists after birth in the subventricular zone, with new neurons migrating to the granule cell layer and glomerular layers of the olfactory bulb, where they integrate into existing circuitry as inhibitory interneurons. The generation of these new neurons in the olfactory bulb supports both structural and functional plasticity, aiding in circuit remodeling triggered by memory and learning processes. However, the presence of these neurons, coupled with the cellular diversity within the olfactory bulb, presents an ongoing challenge in understanding its network organization and function. Moreover, the continuous integration of new neurons in the olfactory bulb plays a pivotal role in regulating olfactory information processing. This adaptive process responds to changes in epithelial composition and contributes to the formation of olfactory memories by modulating cellular connectivity within the olfactory bulb and interacting intricately with higher-order brain regions. The role of adult neurogenesis in olfactory bulb functions remains a topic of debate. Nevertheless, the functionality of the olfactory bulb is intricately linked to the organization of granule cells around mitral and tufted cells. This organizational pattern significantly impacts output, network behavior, and synaptic plasticity, which are crucial for olfactory perception and memory. Additionally, this organization is further shaped by axon terminals originating from cortical and subcortical regions. Despite the crucial role of olfactory bulb in brain functions and behaviors related to olfaction, these complex and highly interconnected processes have not been comprehensively studied as a whole. Therefore, this manuscript aims to discuss our current understanding and explore how neural plasticity and olfactory neurogenesis contribute to enhancing the adaptability of the olfactory system. These mechanisms are thought to support olfactory learning and memory, potentially through increased complexity and restructuring of neural network structures, as well as the addition of new granule granule cells that aid in olfactory adaptation. Additionally, the manuscript underscores the importance of employing precise methodologies to elucidate the specific roles of adult neurogenesis amidst conflicting data and varying experimental paradigms. Understanding these processes is essential for gaining insights into the complexities of olfactory function and behavior.

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嗅球的神经发生动态:破译电路组织、功能和适应性可塑性。
摘要:成人神经发生在出生后持续存在于室管膜下区,新神经元迁移到嗅球的颗粒细胞层和团粒层,在那里作为抑制性中间神经元整合到现有的电路中。嗅球中这些新神经元的生成支持结构和功能的可塑性,有助于记忆和学习过程引发的电路重塑。然而,这些神经元的存在,加上嗅球内细胞的多样性,为了解其网络组织和功能带来了持续的挑战。此外,嗅球中新神经元的不断整合在调节嗅觉信息处理方面起着关键作用。这一适应过程会对上皮成分的变化做出反应,并通过调节嗅球内的细胞连接以及与高阶脑区的复杂互动,促进嗅觉记忆的形成。成人神经发生在嗅球功能中的作用仍是一个争论不休的话题。然而,嗅球的功能与围绕有丝细胞和簇细胞的颗粒细胞的组织密切相关。这种组织模式对输出、网络行为和突触可塑性有重大影响,而这些对嗅觉感知和记忆至关重要。此外,来自皮层和皮层下区域的轴突终端也进一步塑造了这种组织结构。尽管嗅球在与嗅觉相关的大脑功能和行为中起着至关重要的作用,但这些复杂且高度相互关联的过程尚未作为一个整体得到全面研究。因此,本手稿旨在讨论我们目前的理解,并探讨神经可塑性和嗅觉神经发生如何有助于增强嗅觉系统的适应性。这些机制可能通过增加神经网络结构的复杂性和重组,以及增加有助于嗅觉适应的新颗粒细胞,来支持嗅觉学习和记忆。此外,手稿还强调了采用精确方法在相互矛盾的数据和不同的实验范式中阐明成体神经发生的具体作用的重要性。要深入了解嗅觉功能和行为的复杂性,了解这些过程至关重要。
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
Neural Regeneration Research
Neural Regeneration Research CELL BIOLOGY-NEUROSCIENCES
CiteScore
8.00
自引率
9.80%
发文量
515
审稿时长
1.0 months
期刊介绍: Neural Regeneration Research (NRR) is the Open Access journal specializing in neural regeneration and indexed by SCI-E and PubMed. The journal is committed to publishing articles on basic pathobiology of injury, repair and protection to the nervous system, while considering preclinical and clinical trials targeted at improving traumatically injuried patients and patients with neurodegenerative diseases.
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