哺乳动物视网膜双极细胞：兔视网膜的形态鉴定和系统分类

IF 2.1 4区医学 Q3 NEUROSCIENCES

Journal of Comparative Neurology Pub Date : 2025-02-24 DOI:10.1002/cne.70015

Edward V. Famiglietti

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引用次数: 0

摘要

视网膜双极细胞（BCs）将来自光感受器的视觉信号传递给50多种兔视网膜神经节细胞（Famiglietti, 2020）。40多年前，在兔和猫视网膜中发现了10-11种双极细胞（Famiglietti, 1981）。20年后，在小鼠、大鼠和猴子中发现了10种双极细胞，而最近的分子遗传学研究表明，小鼠视网膜中存在15种双极细胞（Shekhar et al., 2016）。对11例高尔基浸染兔视网膜中800多个双极细胞的详细研究表明，兔视网膜中存在14 ~ 16种锥型双极细胞和1种杆状双极细胞。从树突和轴突形态以及轴突末端分层的角度对这些细胞进行了仔细的分析。在偶然接近的情况下，几种类型的双极细胞可以通过分层和暗示突触连接的接触与已识别的神经节细胞相关。这些结果与其他兔双极细胞的研究结果进行了比较。在功能方面考虑了与小鼠和猴子双极细胞的同源性。

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Mammalian Retinal Bipolar Cells: Morphological Identification and Systematic Classification in Rabbit Retina With a Comparative Perspective

Retinal bipolar cells (BCs) convey visual signals from photoreceptors to more than 50 types of rabbit retinal ganglion cells (Famiglietti, 2020). More than 40 years ago, 10–11 types of bipolar cells were recognized in rabbit and cat retinas (Famiglietti, 1981). Twenty years later, 10 were identified in mouse, rat, and monkey, while recent molecular genetic studies indicate that there are 15 types of bipolar cell in mouse retina (Shekhar et al., 2016). The present detailed study of more than 800 bipolar cells in 11 Golgi-impregnated rabbit retinas indicates that there are 14–16 types of cone bipolar cell and one type of rod bipolar cell in rabbit retina. These have been carefully analyzed in terms of dendritic and axonal morphology and axon terminal stratification with respect to fiducial starburst amacrine cells. In fortuitous proximity, several types of bipolar cell can be related to identified ganglion cells by stratification and by contacts suggestive of synaptic connection. These results are compared with other studies of rabbit bipolar cells. Homologies with bipolar cells of mouse and monkey are considered in functional terms.

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来源期刊

Journal of Comparative Neurology 医学-动物学

CiteScore

5.80

自引率

8.00%

发文量

158

审稿时长

3-6 weeks

期刊介绍： Established in 1891, JCN is the oldest continually published basic neuroscience journal. Historically, as the name suggests, the journal focused on a comparison among species to uncover the intricacies of how the brain functions. In modern times, this research is called systems neuroscience where animal models are used to mimic core cognitive processes with the ultimate goal of understanding neural circuits and connections that give rise to behavioral patterns and different neural states. Research published in JCN covers all species from invertebrates to humans, and the reports inform the readers about the function and organization of nervous systems in species with an emphasis on the way that species adaptations inform about the function or organization of the nervous systems, rather than on their evolution per se. JCN publishes primary research articles and critical commentaries and review-type articles offering expert insight in to cutting edge research in the field of systems neuroscience; a complete list of contribution types is given in the Author Guidelines. For primary research contributions, only full-length investigative reports are desired; the journal does not accept short communications.