昆虫感觉神经元膜蛋白(SNMPs)功能研究进展

doi:10.16380/j.kcxb.2025.05.014

摘要/Abstract

摘要： 感觉神经元膜蛋白(sensory neuron membrane proteins, SNMPs)是一类在昆虫中特有的膜蛋白，一般具有2个典型的跨膜结构域，也是CD36家族的重要成员之一。目前，昆虫SNMPs已扩展了5个亚家族类型，即SNMP1, SNMP2, SNMP3, SNMP4和SNMP5，分别在不同昆虫种中表现出不同的表达模式。在昆虫触角和嗅觉感觉神经元(olfactory sensory neurons, OSNs)中表达的SNMP1亚家族基因被广泛研究，已在不同昆虫中证实SNMP1在昆虫信息素感知中发挥重要作用；SNMP2亚家族基因广泛的表达模式也暗示了其在嗅觉和味觉中发挥作用；在鳞翅目(Lepidoptera)昆虫中肠中特异性表达的SNMP3亚家族基因，可能在昆虫消化和免疫等方面发挥功能；对于鞘翅目(Coleoptera)昆虫特有的SNMP4和SNMP5亚族基因，可能参与昆虫更多生命活动。过去几十年，尽管SNMPs在昆虫嗅觉系统中起着至关重要的作用，但SNMP1与其他受体蛋白的作用机制仍不明确。此外，对于其他SNMPs亚家族成员的具体功能和作用机制，尤其是在非模式昆虫中的研究仍然有限。本文总结和讨论了SNMPs各亚家族基因的多样化表达模式，SNMPs可能在昆虫生理活动中发挥的多种生理和生物学功能，以及分子生物学、分子遗传学、异源细胞表达系统、酵母双杂交等方法和技术在当前昆虫SNMPs功能研究中的应用，为今后昆虫SNMPs功能研究提供参考。最后，提出了如下研究重点展望：(1)深入开展SNMP1与昆虫信息素的关系的研究有助于开发新型信息素诱捕剂的应用；(2)未来利用人工智能和蛋白结构解析有助于揭示SNMPs与其他受体蛋白互作参与气味识别的机制；(3)进一步开展昆虫SNMPs其他亚家族在味觉、消化、免疫以及生存发展等方面的研究，有助于我们深入理解昆虫的基本生物学特性，还可能为害虫管理提供新的策略和方法。

关键词: 昆虫, 感觉神经元膜蛋白, 表达模式, 蛋白结构, 气味识别

Abstract: Sensory neuron membrane proteins (SNMPs) are a class of membrane proteins uniquely to insects, typically possessing two characteristic transmembrane domains, and are also an important member of the CD36 family. Currently, insect SNMPs have been classified into five subfamily types, namely SNMP1, SNMP2, SNMP3, SNMP4 and SNMP5, each exhibiting distinct expression patterns across different insect species. SNMP1 subfamily genes, which are expressed in the antennae and olfactory sensory neurons (OSNs) of insects, have been extensively studied and confirmed to play a significant role in pheromone detection across various insect species. The widespread expression pattern of SNMP2 subfamily genes also suggests their role in olfaction and gustation. SNMP3 subfamily genes, which are specifically expressed in the midgut of lepidopteran insects, may function in digestion and immunity in insects. SNMP4 and SNMP5 subfamily genes which are unique to coleopteran insects, may be involved in a broader range of life activities in insects. Despite of the crucial role of SNMPs in insect olfactory system, the mechanism of action of SNMP1 with other receptor proteins has remained unclear. Additionally, research on the functions and mechanisms of action of the members of the other SNMP subfamilies especially in non-model insects remains limited. In this article, we summarized and discussed the diverse expression patterns of SNMP subfamily genes, various physiological and biological functions of SNMPs that may play in insect physiological activities, and the application of molecular biology, molecular genetics, heterologous cell expression systems, yeast two-hybrid, and other methods and technologies in the current functional study of insect SNMPs, providing references for future research on the function of insect SNMPs. Lastly, we put forward the following prospects of research focuses: (1) In-depth research on the relationship between SNMP1 and insect pheromones will contribute to the development of novel pheromone-based lures for pest control applications; (2) In the future, the use of artificial intelligence and protein structure analysis will aid in uncovering the mechanisms by which SNMPs interact with other receptor proteins to participate in odor recognition; and (3) Further research on other subfamilies of insect SNMPs in the realms of taste, digestion, immunity, and survival and development will not only enhance our understanding of the fundamental biological characteristics of insects but may also provide new strategies and methods for pest management.

Key words: Insects, sensory neuron membrane proteins, expression patterns, protein structure, odor recognition

郭晓丽, 杨丹慧, 孙学文, 宋威, 温俊宝. 昆虫感觉神经元膜蛋白(SNMPs)功能研究进展[J]. 昆虫学报, 2025, 68(5): 679-696.

GUO Xiao-Li, YANG Dan-Hui, SUN Xue-Wen, SONG-Wei, WEN Jun-Bao. Research progress of the functions of sensory neuron membrane proteins (SNMPs) in insects[J]. Acta Entomologica Sinica, 2025, 68(5): 679-696.

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昆虫感觉神经元膜蛋白(SNMPs)功能研究进展

Research progress of the functions of sensory neuron membrane proteins (SNMPs) in insects

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