Neurexin 3 is Essential for the Specific Wiring of a Color Pathway in the Mammalian Retina.

bioRxiv : the preprint server for biology Pub Date : 2024-07-31 DOI:10.1101/2023.02.13.527055

Vincent P Kunze, Juan M Angueyra, John M Ball, Michael B Thomsen, Xiaoyi Li, Adit Sabnis, Francisco M Nadal-Nicolás, Wei Li

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Abstract

Precise wiring within sensory systems is critical for the accurate transmission of information. In the visual system, S-cone photoreceptors specialize in detecting short-wavelength light, crucial to color perception and environmental cue detection. S-cones form specific synapses with S-cone bipolar cells (SCBCs), a connection that is remarkably consistent across species. Yet, the molecular mechanisms guiding this specificity remain unexplored. To address this, we used the cone-dominant ground squirrel for deep-sequencing of cone subtype transcriptomes and identified Nrxn3 as an essential molecule for the S-cone to SCBC synapse. Using transgenic mouse models, we further examined the role of Nrxn3 in S-cones and discovered a significant reduction of SCBC connections in the absence of Nrxn3. This finding extends the known functions of neurexins, typically associated with synapse regulation, by highlighting their essential role in a specific synaptic connection for the first time. Moreover, the differentially expressed genes identified here pave the way for further investigations into the unique functions of cone subtypes.

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Neurexin 3是哺乳动物视网膜中特定的S锥到S锥双极细胞突触所必需的。

特定的接线对于感觉系统将信息精确地传递到大脑的高级区域至关重要。视网膜是大脑中一个可接近的部分，由于其组织良好的结构，是研究神经回路的理想模型。在视网膜中，S锥光感受器感应并传递短波长（例如，蓝色）光信号，用于编码颜色信息和其他环境线索。S锥通常占锥的不到10%，并且精确地连接到S锥双极细胞（SCBCs）。这种联系是古老的，在不同物种之间高度保守，表明了其基本功能。然而，这种布线特异性是如何形成和保持的，目前尚不清楚。为了揭示这种高度特异性连接的分子机制，我们对十三排地松鼠（TLGS）光感受器的转录组进行了测序。与小鼠相比，我们选择TLGS是因为其富含视锥的视网膜和不存在共表达多种视蛋白的视锥。我们使用靶向SMART seq方法从S锥和M锥光感受器获得高分辨率转录组，并鉴定了一种细胞粘附分子Nrxn3，作为介导S锥与SCBC连接的潜在候选分子。鉴于TLGS基因操作的局限性，我们利用小鼠模型研究了Nrxn3在S锥中的功能。在缺乏Nrxn3表达的“真正”S锥（S-opsin+/M-opsin-）中，与SCBC的连接数量急剧减少，这表明Nrxn 3在这种突触中发挥着关键作用。虽然neurexin以其在调节各种突触中的不同作用而闻名，但这项研究首次证明了其在中枢神经系统中介导或维持特定突触的关键作用。此外，本文鉴定的差异表达基因为进一步研究锥体亚型特异性功能提供了宝贵的资源。

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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