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Gβγ 和突触融合蛋白 25 的 C 末端对于递质释放的长时程抑制是必需的。

Gβγ and the C terminus of SNAP-25 are necessary for long-term depression of transmitter release.

机构信息

Department of Cell Biology and Anatomy, New York Medical College, Valhalla, New York, United States of America.

出版信息

PLoS One. 2011;6(5):e20500. doi: 10.1371/journal.pone.0020500. Epub 2011 May 25.

DOI:10.1371/journal.pone.0020500
PMID:21633701
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3102109/
Abstract

BACKGROUND

Short-term presynaptic inhibition mediated by G protein-coupled receptors involves a direct interaction between G proteins and the vesicle release machinery. Recent studies implicate the C terminus of the vesicle-associated protein SNAP-25 as a molecular binding target of Gβγ that transiently reduces vesicular release. However, it is not known whether SNAP-25 is a target for molecular modifications expressing long-term changes in transmitter release probability.

METHODOLOGY/PRINCIPAL FINDINGS: This study utilized two-photon laser scanning microscopy for real-time imaging of action potential-evoked [Ca(2+)] increases, in single Schaffer collateral presynaptic release sites in in vitro hippocampal slices, plus simultaneous recording of Schaffer collateral-evoked synaptic potentials. We used electroporation to infuse small peptides through CA3 cell bodies into presynaptic Schaffer collateral terminals to selectively study the presynaptic effect of scavenging the G-protein Gβγ. We demonstrate here that the C terminus of SNAP-25 is necessary for expression of LTD, but not long-term potentiation (LTP), of synaptic strength. Using type A botulinum toxin (BoNT/A) to enzymatically cleave the 9 amino acid C-terminus of SNAP-25 eliminated the ability of low frequency synaptic stimulation to induce LTD, but not LTP, even if release probability was restored to pre-BoNT/A levels by elevating extracellular [Ca(2+)]. Presynaptic electroporation infusion of the 14-amino acid C-terminus of SNAP-25 (Ct-SNAP-25), to scavenge Gβγ, reduced both the transient presynaptic inhibition produced by the group II metabotropic glutamate receptor stimulation, and LTD. Furthermore, presynaptic infusion of mSIRK, a second, structurally distinct Gβγ scavenging peptide, also blocked the induction of LTD. While Gβγ binds directly to and inhibit voltage-dependent Ca(2+) channels, imaging of presynaptic [Ca(2+)] with Mg-Green revealed that low-frequency stimulation only transiently reduced presynaptic Ca(2+) influx, an effect not altered by infusion of Ct-SNAP-25.

CONCLUSIONS/SIGNIFICANCE: The C-terminus of SNAP-25, which links synaptotagmin I to the SNARE complex, is a binding target for Gβγ necessary for both transient transmitter-mediated presynaptic inhibition, and the induction of presynaptic LTD.

摘要

背景

由 G 蛋白偶联受体介导的短期突触前抑制涉及 G 蛋白与囊泡释放机制之间的直接相互作用。最近的研究表明,囊泡相关蛋白 SNAP-25 的 C 末端是 Gβγ的分子结合靶标,Gβγ 可短暂降低囊泡释放。然而,SNAP-25 是否是表达递质释放概率长期变化的分子修饰的靶标尚不清楚。

方法/主要发现:本研究利用双光子激光扫描显微镜实时成像体外海马切片中单突触前释放部位的动作电位诱发的[Ca2+]增加,同时记录 Schaffer 侧枝诱发的突触电位。我们用电穿孔将小肽通过 CA3 细胞体注入突触前 Schaffer 侧枝末端,选择性研究 G 蛋白 Gβγ 的清除对突触前的影响。我们在这里证明,SNAP-25 的 C 末端对于突触强度的 LTD 表达是必需的,但不是长时程增强(LTP)。使用 A 型肉毒杆菌毒素(BoNT/A)酶切 SNAP-25 的 9 个氨基酸 C 末端消除了低频突触刺激诱导 LTD 的能力,但不能诱导 LTP,即使通过升高细胞外[Ca2+]将释放概率恢复到 BoNT/A 前水平。突触前电穿孔输注 SNAP-25 的 14 个氨基酸 C 末端(Ct-SNAP-25),以清除 Gβγ,减少了 II 型代谢型谷氨酸受体刺激产生的短暂突触前抑制和 LTD。此外,突触前输注第二种结构不同的 Gβγ清除肽 mSIRK 也阻断了 LTD 的诱导。虽然 Gβγ 直接结合并抑制电压依赖性 Ca2+通道,但使用 Mg-Green 对突触前[Ca2+]进行成像显示,低频刺激仅短暂减少突触前 Ca2+内流,这种效应不受 Ct-SNAP-25 输注的影响。

结论/意义:SNAP-25 的 C 末端将突触融合蛋白 I 与 SNARE 复合物连接起来,是 Gβγ 的结合靶标,对于短暂的递质介导的突触前抑制和突触前 LTD 的诱导都是必需的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/ee390765b0e3/pone.0020500.g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/f25ccadf226e/pone.0020500.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/08e4e58efa7f/pone.0020500.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/2467d1572f70/pone.0020500.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/3cf726a2e4f5/pone.0020500.g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/5020236b1951/pone.0020500.g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/731a5ef7fd3f/pone.0020500.g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/ee390765b0e3/pone.0020500.g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/f25ccadf226e/pone.0020500.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/08e4e58efa7f/pone.0020500.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/2467d1572f70/pone.0020500.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/3cf726a2e4f5/pone.0020500.g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/5020236b1951/pone.0020500.g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/731a5ef7fd3f/pone.0020500.g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa46/3102109/ee390765b0e3/pone.0020500.g007.jpg

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