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Complexin 3 和 Complexin 4 的缺失对小鼠视网膜的 ON 和 OFF 通路有不同的影响。

The absence of Complexin 3 and Complexin 4 differentially impacts the ON and OFF pathways in mouse retina.

机构信息

Department of Biology and Environmental Sciences, Neurobiology, University of Oldenburg, 26111 Oldenburg, Germany.

出版信息

Eur J Neurosci. 2012 Aug;36(4):2470-81. doi: 10.1111/j.1460-9568.2012.08149.x. Epub 2012 Jun 14.

DOI:10.1111/j.1460-9568.2012.08149.x
PMID:22694764
Abstract

Complexins (Cplxs) regulate the speed and Ca(2+)-sensitivity of synaptic vesicle fusion. It has been shown that all four known Cplxs are present at mouse retinal synapses--at conventional amacrine cell synapses (Cplx 1 to Cplx 3) and at photoreceptor and bipolar cell ribbon synapses (Cplx 3 and Cplx 4) [K. Reim et al. (2005) J. Cell Biol., 169, 669-680]. Electroretinographic recordings in Cplx 3/Cplx 4 double-knockout (DKO) mice showed perturbed transmission in the outer plexiform layer, and possible changes in the inner plexiform layer [K. Reim et al. (2009) J. Cell Sci., 122, 1352-1361]. In the present study, we examined the effects of the absence of Cplx 3 and Cplx 4 on ganglion cell responses. We report that the lack of Cplx 3 and Cplx 4 differentially impacts the ON and OFF pathways. Under photopic conditions, the responses in the cone OFF pathway are largely unaffected, whereas the responses in the cone ON pathway are diminished in Cplx 3/Cplx 4 DKO mice. Under scotopic conditions, both ON and OFF response rates are reduced and high-sensitivity OFF responses are missing in Cplx 3/Cplx 4 DKO mice. The electrophysiological findings are corroborated by new immunocytochemical findings. We now show that rod spherules contain only Cplx 4. However, both Cplx 3 and Cplx 4 co-localize in cone pedicles. In the inner plexiform layer, Cplx 3 is present in rod bipolar cell terminals and in amacrine cell processes. Most importantly, Cplx 3 is localized in the lobular appendages of AII amacrine cells, the sites of signal transmission from the primary rod pathway into the OFF pathway in the inner plexiform layer.

摘要

衔接蛋白(Cplx)调节突触囊泡融合的速度和 Ca(2+)敏感性。已经表明,所有四种已知的 Cplx 都存在于小鼠视网膜突触中——在传统的无长突细胞突触(Cplx 1 到 Cplx 3)和光感受器和双极细胞带状突触(Cplx 3 和 Cplx 4)[K. Reim 等人。(2005 年)J. Cell Biol.,169,669-680]。在 Cplx 3/Cplx 4 双敲除(DKO)小鼠的视网膜电图记录中,在外丛状层显示出传递受损,在内丛状层可能发生变化[K. Reim 等人。(2009 年)J. Cell Sci.,122,1352-1361]。在本研究中,我们检查了缺乏 Cplx 3 和 Cplx 4 对神经节细胞反应的影响。我们报告说,缺乏 Cplx 3 和 Cplx 4 对 ON 和 OFF 通路有不同的影响。在光条件下,锥 OFF 通路的反应基本不受影响,而 Cplx 3/Cplx 4 DKO 小鼠中锥 ON 通路的反应减弱。在暗条件下,ON 和 OFF 反应率均降低,Cplx 3/Cplx 4 DKO 小鼠中高灵敏度 OFF 反应缺失。电生理发现得到了新的免疫细胞化学发现的证实。我们现在表明,杆状小体仅含有 Cplx 4。然而,Cplx 3 和 Cplx 4 都在锥状小体中共定位。在内丛状层,Cplx 3 存在于杆状双极细胞末梢和无长突细胞突起中。最重要的是,Cplx 3 定位于 AII 无长突细胞的小叶附属物中,这些附属物是杆状初级通路向内侧丛状层 OFF 通路信号传递的部位。

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