Cav1.4 Ca2+ 通道的非传导作用推动了锥体感光器突触的同态可塑性。

IF 6.4 1区生物学 Q1 BIOLOGY eLife Pub Date : 2024-11-12 DOI:10.7554/eLife.94908

J Wesley Maddox, Gregory J Ordemann, Juan A M de la Rosa Vázquez, Angie Huang, Christof Gault, Serena R Wisner, Kate Randall, Daiki Futagi, Nihal A Salem, Dayne Mayfield, Boris V Zemelman, Steven DeVries, Mrinalini Hoon, Amy Lee

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引用次数: 0

摘要

先天性静止性夜盲症 2 型（CSNB2）是一种涉及 Cav1.4（L 型）Ca2+ 通道的疾病，考虑到 Cav1.4 介导视杆细胞和视锥光感受器的突触释放，因此视力损伤是轻微的。在这里，我们利用 Cav1.4 基因敲除（KO）小鼠和表达非传导性 Cav1.4 的基因敲入（G369i KI）小鼠解决了这一难题。令人惊讶的是，在 G369i KI 小鼠和 Cav1.4 KO 小鼠的视锥中检测到了 Cav3（T 型）Ca2+ 电流，而在野生型小鼠、土松鼠和猕猴视网膜的视锥中却没有检测到。Cav1.4 KO 小鼠失明，而 G369i KI 小鼠则表现出正常的光视（即锥体介导的）视觉行为。Cav1.4 KO 小鼠无法形成锥体突触，而 G369i KI 小鼠则存在锥体突触，尽管锥体突触增大，而且突触后接线存在一些错误。虽然 Cav1.4 KO 小鼠缺乏锥体突触反应的证据，但 G369i KI 小鼠的电生理记录显示，锥体向水平细胞和双极细胞的传导是正常的。我们认为，在 CSNB2 中，只要 Cav1.4 在锥体突触发生中的非传导作用保持不变，Cav3 通道就能维持锥体突触输出。我们的发现揭示了一种意想不到的同态可塑性形式，它依赖于离子通道的非典型作用。

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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A non-conducting role of the Ca_v1.4 Ca²⁺ channel drives homeostatic plasticity at the cone photoreceptor synapse.

In congenital stationary night blindness, type 2 (CSNB2)-a disorder involving the Ca_v1.4 (L-type) Ca²⁺ channel-visual impairment is mild considering that Ca_v1.4 mediates synaptic release from rod and cone photoreceptors. Here, we addressed this conundrum using a Ca_v1.4 knockout (KO) mouse and a knock-in (G369i KI) mouse expressing a non-conducting Ca_v1.4. Surprisingly, Ca_v3 (T-type) Ca²⁺ currents were detected in cones of G369i KI mice and Ca_v1.4 KO mice but not in cones of wild-type mouse, ground squirrels, and macaque retina. Whereas Ca_v1.4 KO mice are blind, G369i KI mice exhibit normal photopic (i.e. cone-mediated) visual behavior. Cone synapses, which fail to form in Ca_v1.4 KO mice, are present, albeit enlarged, and with some errors in postsynaptic wiring in G369i KI mice. While Ca_v1.4 KO mice lack evidence of cone synaptic responses, electrophysiological recordings in G369i KI mice revealed nominal transmission from cones to horizontal cells and bipolar cells. In CSNB2, we propose that Ca_v3 channels maintain cone synaptic output provided that the nonconducting role of Ca_v1.4 in cone synaptogenesis remains intact. Our findings reveal an unexpected form of homeostatic plasticity that relies on a non-canonical role of an ion channel.

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来源期刊

eLife BIOLOGY-

CiteScore

12.90

自引率

3.90%

发文量

3122

审稿时长

17 weeks

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