电压依赖性N型钙通道在小鼠卵子受精中的作用。

Development & reproduction Pub Date : 2020-12-01 Epub Date: 2020-12-31 DOI:10.12717/DR.2020.24.4.297
Jin Hee Eum, Miseon Park, Jung Ah Yoon, Sook Young Yoon
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引用次数: 1

摘要

细胞内钙浓度([Ca2+]i)的反复变化触发卵子激活,包括皮质颗粒胞外分泌、第二次减数分裂恢复、多精阻滞和胚胎发育启动。持续数小时的[Ca2+]i振荡是卵子激活的早期事件所必需的,并且可能与囊胚阶段的进一步发育有关。[Ca2+]i振荡过程中Ca2+离子升高的来源是Ca2+通过肌醇1,4,5三磷酸受体从内质网释放和Ca2+离子通过质膜上的Ca2+通道内流。Ca2+通道被表征为电压依赖性Ca2+通道(VDCCs),配体门控Ca2+通道和泄漏通道。根据其激活阈值或对锥螺和蜘蛛肽毒素的敏感性,可将表达于肌肉细胞或神经元上的VDCs分为L、T、N、P、Q和R型VDCs。本研究旨在探讨小鼠卵细胞中N和P/Q型电压依赖性钙离子通道的定位模式及其在受精中的作用。[Ca2+]i振荡在含Ca2+的精子因子或注射腺磷酸腺苷a的培养基中观察到,但在无Ca2+的培养基中消失。在SrCl2处理下,laa - N-VDCC特异性抑制剂ω-Conotoxin CVIIA诱导的异常[Ca2+]i振荡谱降低了Ca2+内流。N或P/Q型VDC以皮质簇状分布在质膜上,不在细胞质中。Ca2+内流是哺乳动物受精过程中[Ca2+]i振荡的必要条件。这种Ca2+内流可能通过N或P/Q型vdcs来控制。卵细胞中VDCCs的异常表达可以在受精失败或低受精女性卵细胞中进行检测。
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Voltage Dependent N Type Calcium Channel in Mouse Egg Fertilization.

Repetitive changes in the intracellular calcium concentration ([Ca2+]i) triggers egg activation, including cortical granule exocytosis, resumption of second meiosis, block to polyspermy, and initiating embryonic development. [Ca2+]i oscillations that continue for several hours, are required for the early events of egg activation and possibly connected to further development to the blastocyst stage. The sources of Ca2+ ion elevation during [Ca2+]i oscillations are Ca2+ release from endoplasmic reticulum through inositol 1,4,5 tri-phosphate receptor and Ca2+ ion influx through Ca2+ channel on the plasma membrane. Ca2+ channels have been characterized into voltage-dependent Ca2+ channels (VDCCs), ligand-gated Ca2+ channel, and leak-channel. VDCCs expressed on muscle cell or neuron is specified into L, T, N, P, Q, and R type VDCs by their activation threshold or their sensitivity to peptide toxins isolated from cone snails and spiders. The present study was aimed to investigate the localization pattern of N and P/Q type voltage-dependent calcium channels in mouse eggs and the role in fertilization. [Ca2+]i oscillation was observed in a Ca2+ contained medium with sperm factor or adenophostin A injection but disappeared in Ca2+ free medium. Ca2+ influx was decreased by Lat A. N-VDCC specific inhibitor, ω-Conotoxin CVIIA induced abnormal [Ca2+]i oscillation profiles in SrCl2 treatment. N or P/Q type VDC were distributed on the plasma membrane in cortical cluster form, not in the cytoplasm. Ca2+ influx is essential for [Ca2+]i oscillation during mammalian fertilization. This Ca2+ influx might be controlled through the N or P/Q type VDCCs. Abnormal VDCCs expression of eggs could be tested in fertilization failure or low fertilization eggs in subfertility women.

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