果蝇SPG12同源物,网状样1,控制突触前内质网组织和Ca2+动力学

Juan J Pérez-Moreno, Rebecca C. Smith, M. Oliva, C. O’Kane
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引用次数: 4

摘要

神经元内质网(ER)在整个细胞中呈现连续性。其形状和连续性受内质网成形蛋白的影响,其突变可导致遗传性痉挛性截瘫(HSP)的远端轴突变性。因此,我们询问Rtnl1的缺失如何影响内质网组织和突触前末端的功能。Rtnl1是人类热休克蛋白基因RTN2 (SPG12)的果蝇同源基因,编码内质网形成蛋白。Rtnl1的缺失减少了果蝇突触前运动末端的ER膜标记物,并且似乎消耗了窄管ER,而池基本不受影响,因此表明静息Ca2+存储容量几乎没有变化。然而,这些变化伴随着细胞质、内质网管腔和线粒体中活性诱发的Ca2+通量的大量减少,以及诱发和自发神经传递的减少。我们发现减少刺激蛋白介导的内质膜接触是Rtnl1突变体突触前Ca2+缺陷的基础。我们的研究结果表明内质网结构在突触前生理和功能中的重要性,因此是HSP病理的潜在因素。
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Drosophila SPG12 ortholog, reticulon-like 1, governs presynaptic ER organization and Ca2+ dynamics
Neuronal endoplasmic reticulum (ER) appears continuous throughout the cell. Its shape and continuity are influenced by ER-shaping proteins, mutations in which can cause distal axon degeneration in Hereditary Spastic Paraplegia (HSP). We therefore asked how loss of Rtnl1, a Drosophila ortholog of the human HSP gene RTN2 (SPG12), which encodes an ER-shaping protein, affects ER organization and the function of presynaptic terminals. Loss of Rtnl1 depleted ER membrane markers at Drosophila presynaptic motor terminals, and appeared to deplete narrow tubular ER while leaving cisternae largely unaffected, thus suggesting little change in resting Ca2+ storage capacity. Nevertheless, these changes were accompanied by major reductions in activity-evoked Ca2+ fluxes in the cytosol, ER lumen, and mitochondria, as well as reduced evoked and spontaneous neurotransmission. We found that reduced STIM-mediated ER-plasma membrane contacts underlie presynaptic Ca2+ defects in Rtnl1 mutants. Our results show the importance of ER architecture in presynaptic physiology and function which are therefore potential factors in the pathology of HSP.
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