5种南海产芋螺粗毒组分对α3β2和α4β2乙酰胆碱受体阻断活性研究

张雨; 李丞; 鞠双; 符影; 罗素兰

张雨,李丞,鞠双,等.5种南海产芋螺粗毒组分对α3β2和α4β2乙酰胆碱受体阻断活性研究[J].中国海洋药物,2020,39(5):29-37.

5种南海产芋螺粗毒组分对α3β2和α4β2乙酰胆碱受体阻断活性研究

Blocking activity study of crude venom fractions of five cone snails from South China Sea against α3β2 and α4β2 nAChRs

投稿时间：2020-07-13 修订日期：2020-08-17

DOI：

中文关键词: 芋螺毒液 α4β2乙酰胆碱受体豹芋螺黑芋螺

English Keywords:Cone snail vemon α4β2 nAChR Conus leopardus Conus marmoreus

Fund Project:

作者	单位	E-mail
张雨	海南大学热带生物资源教育部重点实验室	zhy9426498@163.com
李丞	海南大学热带生物资源教育部重点实验室
鞠双	海南大学热带生物资源教育部重点实验室
符影^*	海南大学热带生物资源教育部重点实验室	fuying926@163.com
罗素兰	海南大学热带生物资源教育部重点实验室

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中文摘要:

目的为南海产丰富的芋螺生物资源的深入挖掘和开发利用,为从毒液中发现和寻找新型活性强、选择性好的阻断α4β2 nAChR的芋螺毒素奠定基础。方法通过对五种南海常见芋螺(豹芋螺、黑芋螺、玉女芋螺、信号芋螺、和帝王芋螺)的毒液进行提取、分段,并采用双电极电压膜片钳技术测定了五种毒液各个组分对α4β2 nAChR和α3β2 nAChR的阻断活性。结果豹芋螺、黑芋螺、信号芋螺和帝王芋螺这四种芋螺毒液的部分组分表现出较好的α4β2 nAChR阻断活性,同时也对α3β2 nAChR具有一定的阻断作用。豹芋螺大部分组分和黑芋螺毒液Mar-2组分对α4β2 nAChR有明显的阻断作用,阻断率分别高达40 %以上和73.6%,且这些组分未对α3β2 nAChR表现出阻断作用或作用很弱,即对α4β2 nAChR有良好活性且相比于α3β2 nAChR对α4β2 nAChR有较好的选择性。结论本研究结果为后续对豹芋螺粗毒组分进行活性跟踪的分离纯化,为获得豹芋螺来源的新型芋螺毒素并阐明其结构和功能提供理论依据,为后续寻找选择性阻断α4β2 nAChR的新型芋螺毒素指明了研究方向,为深入开发利用南海产芋螺生物资源奠定了坚实基础。

English Summary:

Objective To deeply develop and utilize the rich biological resources of cone snails in the South China Sea, and lay the foundation for the discovery of new conotoxins that block α4β2 nAChR with potent activity and high selectivity from cone snail venom. Methods The crude venom of five common species of cone snails (Conus leopardus, Conus marmoreus, Conus virgo, Conus litteratus, Conus imperialis) from South China Sea were extracted and fractionated. The blocking activities of the five venom fractions on α4β2 and α3β2 nAChRs were detected by the two-electrode voltage patch clamp technique. Results Partial fractions of four cone snail venom from Conus leopardus, Conus marmoreus, Conus litteratus, Conus imperialis exhibited good α4β2 nAChR blocking activity, and also showed a certain blocking effect on α3β2 nAChR. Significant blocking activities on α4β2 nAChR were demonstrated for most fractions of Conus leopardus and the fraction Mar-2 of Conus marmoreus, with the blocking rate were as high as more than 40% and 73.6%, respectively. These fractions presented a weak or barely no blocking effect on α3β2 nAChR, which meant they showed good activity and high selectivity on α4β2 nAChR rather than on α3β2 nAChR. Conclusion The results of this study have provided a theoretical basis for the follow-up bioactive-guided purification of the venom fraction of Conus leopardus to obtain Conus leopardus-derived new conotoxins for their structure and function study, and pointed out the research direction for discovering new conotoxins which potently and selectively block α4β2 nAChR from cone snail venom, and laid a solid foundation for further development and utilization of the biological resources of cone snails derived from the South China Sea.

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