Defining spatial nonuniformities of all ipRGC types using an improved Opn4^cre recombinase mouse line.

IF 4.3 Q1 BIOCHEMICAL RESEARCH METHODS Cell Reports Methods Pub Date : 2024-08-19 Epub Date: 2024-08-09 DOI:10.1016/j.crmeth.2024.100837

Brannen Dyer, Sue O Yu, R Lane Brown, Richard A Lang, Shane P D'Souza

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Abstract

Intrinsically photosensitive retinal ganglion cells (ipRGCs) play a crucial role in several physiological light responses. In this study, we generate an improved Opn4^cre knockin allele (Opn4^cre(DSO)), which faithfully reproduces endogenous Opn4 expression and improves compatibility with widely used reporters. We evaluated the efficacy and sensitivity of Opn4^cre(DSO) for labeling in retina and brain and provide an in-depth comparison with the extensively utilized Opn4^cre(Saha) line. Through this characterization, Opn4^cre(DSO) demonstrated higher specificity in labeling ipRGCs with minimal recombination escape. Leveraging a combination of electrophysiological, molecular, and morphological analyses, we confirmed its sensitivity in detecting all ipRGC types (M1-M6) and defined their unique topographical distribution across the retina. In the brain, the Opn4^cre(DSO) line labels ipRGC projections with minimal labeling of cell bodies. Overall, the Opn4^cre(DSO) mouse line represents an improved tool for studying ipRGC function and distribution, offering a means to selectively target these cells to study light-regulated behaviors and physiology.

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利用改良的 Opn4cre 重组酶小鼠品系确定所有 ipRGC 类型的空间不均匀性。

本征光敏性视网膜神经节细胞（ipRGCs）在多种生理光反应中起着至关重要的作用。在本研究中，我们产生了一种改进的Opn4cre基因敲除等位基因（Opn4cre(DSO)），它忠实地再现了内源性Opn4的表达，并提高了与广泛使用的报告基因的兼容性。我们评估了Opn4cre(DSO)在视网膜和大脑中的标记效果和灵敏度，并与广泛使用的Opn4cre(Saha)品系进行了深入比较。通过这种表征，Opn4cre(DSO)在标记ipRGCs时表现出更高的特异性，而且重组逃逸最小。结合电生理、分子和形态学分析，我们证实了 Opn4cre 在检测所有 ipRGC 类型（M1-M6）方面的灵敏度，并确定了它们在视网膜上的独特地形分布。在大脑中，Opn4cre(DSO)线标记的是ipRGC突起，细胞体的标记极少。总之，Opn4cre(DSO)小鼠品系是研究ipRGC功能和分布的一种改进工具，提供了一种选择性靶向这些细胞以研究光调节行为和生理学的方法。

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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