Circadian clock organization in the retina: From clock components to rod and cone pathways and visual function

IF 18.6 1区 医学 Q1 OPHTHALMOLOGY Progress in Retinal and Eye Research Pub Date : 2023-05-01 DOI:10.1016/j.preteyeres.2022.101119
Jacob D. Bhoi , Manvi Goel , Christophe P. Ribelayga , Stuart C. Mangel
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引用次数: 6

Abstract

Circadian (24-h) clocks are cell-autonomous biological oscillators that orchestrate many aspects of our physiology on a daily basis. Numerous circadian rhythms in mammalian and non-mammalian retinas have been observed and the presence of an endogenous circadian clock has been demonstrated. However, how the clock and associated rhythms assemble into pathways that support and control retina function remains largely unknown. Our goal here is to review the current status of our knowledge and evaluate recent advances. We describe many previously-observed retinal rhythms, including circadian rhythms of morphology, biochemistry, physiology, and gene expression. We evaluate evidence concerning the location and molecular machinery of the retinal circadian clock, as well as consider findings that suggest the presence of multiple clocks. Our primary focus though is to describe in depth circadian rhythms in the light responses of retinal neurons with an emphasis on clock control of rod and cone pathways. We examine evidence that specific biochemical mechanisms produce these daily light response changes. We also discuss evidence for the presence of multiple circadian retinal pathways involving rhythms in neurotransmitter activity, transmitter receptors, metabolism, and pH. We focus on distinct actions of two dopamine receptor systems in the outer retina, a dopamine D4 receptor system that mediates circadian control of rod/cone gap junction coupling and a dopamine D1 receptor system that mediates non-circadian, light/dark adaptive regulation of gap junction coupling between horizontal cells. Finally, we evaluate the role of circadian rhythmicity in retinal degeneration and suggest future directions for the field of retinal circadian biology.

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视网膜中的生物钟组织:从生物钟组成到视杆和视锥通路和视觉功能
昼夜节律(24-h)钟是细胞自主的生物振荡器,每天协调我们生理学的许多方面。在哺乳动物和非哺乳动物视网膜中已经观察到许多昼夜节律,并且已经证明了内源性昼夜节律时钟的存在。然而,时钟和相关节律是如何组装成支持和控制视网膜功能的通路的,这在很大程度上仍然是未知的。我们的目标是回顾我们的知识现状,并评估最近的进展。我们描述了许多先前观察到的视网膜节律,包括形态学、生物化学、生理学和基因表达的昼夜节律。我们评估了有关视网膜昼夜节律钟的位置和分子机制的证据,并考虑了表明存在多个时钟的发现。然而,我们的主要关注点是深入描述视网膜神经元光反应的昼夜节律,重点是视杆和视锥通路的时钟控制。我们研究了特定的生化机制产生这些日常光反应变化的证据。我们还讨论了存在多种昼夜节律视网膜通路的证据,包括神经递质活性、递质受体、代谢和pH的节律,介导杆/锥间隙连接偶联的昼夜节律控制的多巴胺D4受体系统和介导水平细胞之间间隙连接偶联非昼夜节律、光/暗适应性调节的多巴胺D1受体系统。最后,我们评估了昼夜节律性在视网膜变性中的作用,并提出了视网膜昼夜节律生物学领域的未来方向。
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来源期刊
CiteScore
34.10
自引率
5.10%
发文量
78
期刊介绍: Progress in Retinal and Eye Research is a Reviews-only journal. By invitation, leading experts write on basic and clinical aspects of the eye in a style appealing to molecular biologists, neuroscientists and physiologists, as well as to vision researchers and ophthalmologists. The journal covers all aspects of eye research, including topics pertaining to the retina and pigment epithelial layer, cornea, tears, lacrimal glands, aqueous humour, iris, ciliary body, trabeculum, lens, vitreous humour and diseases such as dry-eye, inflammation, keratoconus, corneal dystrophy, glaucoma and cataract.
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