中国寄生虫学与寄生虫病杂志 ›› 2022, Vol. 40 ›› Issue (1): 104-108.doi: 10.12140/j.issn.1000-7423.2022.01.016
收稿日期:
2021-06-04
修回日期:
2021-10-13
出版日期:
2022-02-28
发布日期:
2022-01-18
通讯作者:
周金林
作者简介:
旷策嫣(1992-),女,博士研究生,从事寄生虫及其分子生物学研究。E-mail: kcy11223@163.com
基金资助:
KUANG Ce-yan(), ZHOU Jin-lin*(
)
Received:
2021-06-04
Revised:
2021-10-13
Online:
2022-02-28
Published:
2022-01-18
Contact:
ZHOU Jin-lin
Supported by:
摘要:
蜱是一种媒介寄生虫,通过吸血可导致宿主营养不良,且能够传播多种病原体,造成经济损失,威胁公共健康。目前蜱的防治主要使用化学药物,而化学杀虫剂的广泛使用引发的环境污染与毒性问题逐年暴露,因此寻找与化学感觉相关的靶点或者天然安全的驱避剂是蜱防控的关键。目前发现蜱的化学感觉系统在蜱寻找宿主过程中起重要作用,可以作为新的研究方向。本文综述了蜱的化学感觉系统及不同驱避剂的利弊,以期为蜱的防控提供依据。
中图分类号:
旷策嫣, 周金林. 蜱的化学感觉系统与驱避剂的研究进展[J]. 中国寄生虫学与寄生虫病杂志, 2022, 40(1): 104-108.
KUANG Ce-yan, ZHOU Jin-lin. Research progress on the chemical sensing system and repellents of ticks[J]. Chinese Journal of Parasitology and Parasitic Diseases, 2022, 40(1): 104-108.
[1] |
Carr AL, Roe M. Acarine attractants: chemoreception, bioassay, chemistry and control[J]. Pestic Biochem Physiol, 2016, 131: 60-79.
doi: 10.1016/j.pestbp.2015.12.009 pmid: 27265828 |
[2] |
Zhang GS, Zheng D, Tian YQ, et al. A dataset of distribution and diversity of ticks in China[J]. Sci Data, 2019, 6(1): 105.
doi: 10.1038/s41597-019-0115-5 |
[3] |
Vandegrift KJ, Kapoor A. The ecology of new constituents of the tick virome and their relevance to public health[J]. Viruses, 2019, 11(6): 529.
doi: 10.3390/v11060529 |
[4] | Wikel SK. Ticks and tick-borne infections: complex ecology, agents, and host interactions[J]. Vet Sci, 2018, 5(2): 60. |
[5] | Hao XF, Yin H, Luo JX. Advance in the chemical and immunological controls of ticks[J]. Prog Vet Med, 2008, 29(12): 52-56. (in Chinese) |
(郝雪峰, 殷宏, 罗建勋. 蜱的化学和免疫学防治研究进展[J]. 动物医学进展, 2008, 29(12): 52-56.) | |
[6] |
Koloski CW, Cassone BJ. Transcriptional profiling of Dermacent-or variabilis (Acari ∶ Ixodidae) provides insights into the role of the Haller’s organ in spatial DEET recognition[J]. Ticks Tick Borne Dis, 2022, 13(1): 101827.
doi: 10.1016/j.ttbdis.2021.101827 |
[7] |
Josek T, Allan BF, Alleyne M. Morphometric analysis of chemoreception organ in male and female ticks (Acari ∶ Ixodidae)[J]. J Med Entomol, 2018, 55(3): 547-552.
doi: 10.1093/jme/tjx232 |
[8] |
Leonovich SA, Belozerov VN. Regeneration of Haller’s sensory organ in two species of hard ticks of the genus Haemaphysalis (Acari ∶ Ixodidae)[J]. Exp Appl Acarol, 2004, 33(1/2): 131-144.
doi: 10.1023/B:APPA.0000029924.70052.31 |
[9] |
Belozerov VN, Leonovich SA. Pathways of regeneration of Haller’s sensory organ during the life cycle of the tick Hyalomma asiaticum[J]. J Exp Zool, 1995, 271(3): 196-204.
pmid: 7699360 |
[10] |
Mcmahon C, Kröber T, Guerin PM. In vitro assays for repellents and deterrents for ticks: differing effects of products when tested with attractant or arrestment stimuli[J]. Med Vet Entomol, 2003, 17(4): 370-378.
doi: 10.1111/mve.2003.17.issue-4 |
[11] |
Steullet P, Guerin PM. Identification of vertebrate volatiles stimulating olfactory receptors on tarsus I of the tick Amblyomma variegatum Fabricius (Ixodidae). I. Receptors within the Haller’s organ capsule[J]. J Comp Physiol A, 1994, 174(1): 27-38.
doi: 10.1007/BF00192003 |
[12] |
Faraone N, Light M, Scott C, et al. Chemosensory and behavioural responses of Ixodes scapularis to natural products: role of chemosensory organs in volatile detection[J]. Insects, 2020, 11(8): 502.
doi: 10.3390/insects11080502 |
[13] |
Leonovich SA. Phenol and lactone receptors in the distal sensilla of the Haller’s organ in Ixodes ricinus ticks and their possible role in host perception[J]. Exp Appl Acarol, 2004, 32(1/2): 89-102.
doi: 10.1023/B:APPA.0000018200.24760.78 |
[14] |
Josek T, Sperrazza J, Alleyne M, et al. Neurophysiological and behavioral responses of blacklegged ticks to host odors[J]. J Insect Physiol, 2021, 128: 104175.
doi: 10.1016/j.jinsphys.2020.104175 |
[15] |
Romashchenko AV, Ratushnyak AS, Zapara TA, et al. The correlation between tick (Ixodes persulcatus Sch.) questing behaviour and synganglion neuronal responses to odours[J]. J Insect Physiol, 2012, 58(7): 903-910.
doi: 10.1016/j.jinsphys.2012.04.004 pmid: 22497860 |
[16] |
Mitchell RD III, Zhu JW, Carr AL, et al. Infrared light detection by the Haller’s organ of adult American dog ticks, Dermacentor variabilis (Ixodida ∶ Ixodidae)[J]. Ticks Tick Borne Dis, 2017, 8(5): 764-771.
doi: 10.1016/j.ttbdis.2017.06.001 |
[17] | Sun Y, Qin T. Recent advance of ticks’ chemosensory and neurophysiology as potential acaricides targets[J]. Acta Parasitol Med Entomol Sin, 2019, 26(2): 124-134. (in Chinese) |
(孙毅, 秦通. 蜱类化学感应和神经生理学研究进展及其对药物研发的启示[J]. 寄生虫与医学昆虫学报, 2019, 26(2): 124-134.) | |
[18] |
Chaisson KE, Hallem EA. Chemosensory behaviors of parasites[J]. Trends Parasitol, 2012, 28(10): 427-436.
doi: 10.1016/j.pt.2012.07.004 pmid: 22921895 |
[19] |
Renthal R, Manghnani L, Bernal S, et al. The chemosensory appendage proteome of Amblyomma americanum (Acari ∶ Ixodidae) reveals putative odorant-binding and other chemoreception-related proteins[J]. Insect Sci, 2017, 24(5): 730-742.
doi: 10.1111/1744-7917.12368 pmid: 27307202 |
[20] |
Josek T, Walden KKO, Allan BF, et al. A foreleg transcriptome for Ixodes scapularis ticks: candidates for chemoreceptors and binding proteins that might be expressed in the sensory Haller’s organ[J]. Ticks Tick Borne Dis, 2018, 9(5): 1317-1327.
doi: 10.1016/j.ttbdis.2018.05.013 |
[21] |
Iovinella I, Ban LP, Song LM, et al. Proteomic analysis of Castorbean tick Ixodes ricinus: a focus on chemosensory organs[J]. Insect Biochem Mol Biol, 2016, 78: 58-68.
doi: 10.1016/j.ibmb.2016.09.004 |
[22] |
Rimal S, Lee Y. The multidimensional ionotropic receptors of Drosophila melanogaster[J]. Insect Mol Biol, 2018, 27(1): 1-7.
doi: 10.1111/imb.12347 pmid: 28857341 |
[23] |
Carr AL, Mitchell RD Ⅲ, Dhammi A, et al. Tick Haller’s organ, a new paradigm for arthropod olfaction: how ticks differ from insects[J]. Int J Mol Sci, 2017, 18(7): 1563.
doi: 10.3390/ijms18071563 |
[24] |
Bigiani A, Mucignat-Caretta C, Montani G, et al. Pheromone reception in mammals[J]. Rev Physiol Biochem Pharmacol, 2005, 154: 1-35.
pmid: 15800771 |
[25] | Wang P, Zhao SC, Huang ZD, et al. A review on methods for screening tick repellents[J]. Chin J Hyg Insectic Equip, 2018, 24(5): 505-508, 511. (in Chinese) |
(王萍, 赵树超, 黄振东, 等. 蜱虫驱避剂筛选的常用方法[J]. 中华卫生杀虫药械, 2018, 24(5): 505-508, 511.) | |
[26] |
Legeay S, Clere N, Apaire-Marchais V, et al. Unusual modes of action of the repellent DEET in insects highlight some human side effects[J]. Eur J Pharmacol, 2018, 825: 92-98.
doi: 10.1016/j.ejphar.2018.02.033 |
[27] |
Adenubi OT, McGaw LJ, Eloff JN, et al. In vitro bioassays used in evaluating plant extracts for tick repellent and acaricidal properties: a critical review[J]. Vet Parasitol, 2018, 254: 160-171.
doi: 10.1016/j.vetpar.2018.03.008 |
[28] |
Buchel K, Bendin J, Gharbi A, et al. Repellent efficacy of DEET, Icaridin, and EBAAP against Ixodes ricinus and Ixodes scapularis nymphs (Acari, Ixodidae)[J]. Ticks Tick Borne Dis, 2015, 6(4): 494-498.
doi: 10.1016/j.ttbdis.2015.03.019 |
[29] |
Pages F, Dautel H, Duvallet G, et al. Tick repellents for human use: prevention of tick bites and tick-borne diseases[J]. Vector Borne Zoonotic Dis, 2014, 14(2): 85-93.
doi: 10.1089/vbz.2013.1410 |
[30] | Gliniewicz A, Borecka A, Przygodzka M, et al. Susceptibility of Dermacentor reticulatus tick to repellents containing different active ingrediens[J]. Przegl Epidemiol, 2019, 73(1): 117-125. |
[31] |
Mitchell C, Dyer M, Lin FC, et al. Protective effectiveness of long-lasting permethrin impregnated clothing against tick bites in an endemic Lyme disease setting: a randomized control trial among outdoor workers[J]. J Med Entomol, 2020, 57(5): 1532-1538.
doi: 10.1093/jme/tjaa061 pmid: 32277701 |
[32] |
da Silva MRM, Ricci-Júnior E. An approach to natural insect repellent formulations: from basic research to technological development[J]. Acta Trop, 2020, 212: 105419.
doi: 10.1016/j.actatropica.2020.105419 |
[33] |
Maia MF, Moore SJ. Plant-based insect repellents: a review of their efficacy, development and testing[J]. Malar J, 2011, 10(Suppl 1): S11.
doi: 10.1186/1475-2875-10-S1-S11 |
[34] |
Rehman JU, Ali A, Khan IA. Plant based products: use and development as repellents against mosquitoes: a review[J]. Fitoterapia, 2014, 95: 65-74.
doi: 10.1016/j.fitote.2014.03.002 |
[35] |
Elmhalli FH, Pålsson K, Orberg J, et al. Acaricidal effects of Corymbia citriodora oil containing Para-menthane-3, 8-diol against nymphs of Ixodes ricinus (Acari ∶ Ixodidae)[J]. Exp Appl Acarol, 2009, 48(3): 251-262.
doi: 10.1007/s10493-009-9236-4 pmid: 19169833 |
[36] |
Nwanade CF, Wang M, Wang T, et al. Botanical acaricides and repellents in tick control: current status and future directions[J]. Exp Appl Acarol, 2020, 81(1): 1-35.
doi: 10.1007/s10493-020-00489-z pmid: 32291551 |
[37] |
Koloski CW, LeMoine CMR, Klonowski AR, et al. Molecular evidence for the inhibition of cytochrome p450s and cholinesterases in ticks by the repellent DEET[J]. Ticks Tick Borne Dis, 2019, 10(3): 515-522.
doi: 10.1016/j.ttbdis.2018.12.006 |
[1] | 朱昊天, 周勇志, 曹杰, 王亚楠, 张厚双, 徐前明, 周金林. 长角血蜱天冬氨酸蛋白水解酶8基因的鉴定及其抵抗田鼠巴贝虫感染作用的研究[J]. 中国寄生虫学与寄生虫病杂志, 2024, 42(4): 433-438. |
[2] | 张钰, 张科, 刘佳伟, 王安琪, 团勇, 张东, 闫利平, 李凯. 普氏野马分布区域亚洲璃眼蜱的宏基因组分析与病原体评估[J]. 中国寄生虫学与寄生虫病杂志, 2024, 42(4): 439-446. |
[3] | 孙连阳, 崔浩, 董晓楠, 康佳美, 丁玉林, 习娟, 杨洋, 贺志雄, 刘永宏, 赵丽. 内蒙古全沟硬蜱的鉴定、人工饲养及生活史观察[J]. 中国寄生虫学与寄生虫病杂志, 2024, 42(3): 345-353. |
[4] | 李逢时, 赵姗姗, 谭文波, 吾热力哈孜·哈孜汗, 谷新利, 王素文, 刘钢, 王远志. 新疆红狐体表犬硬蜱的分子生物学和雄蜱形态学研究[J]. 中国寄生虫学与寄生虫病杂志, 2023, 41(6): 739-743. |
[5] | 纪鹏慧, 蒋甜甜, 贺志权, 王丹, 岳思宁, 李素华, 杨成运, 王昊, 张红卫, 周瑞敏. 河南省信阳地区家畜寄生蜱感染巴贝虫的分子流行病学调查[J]. 中国寄生虫学与寄生虫病杂志, 2023, 41(5): 567-572. |
[6] | 费思伟, 赵翰卿, 尹静娴, 孙芷珊, 郭晓奎, KASSEGNE Kokouvi, 周晓农. 基于文献计量分析的蜱及蜱传疾病研究领域发展趋势[J]. 中国寄生虫学与寄生虫病杂志, 2023, 41(5): 609-618. |
[7] | 刘岳青, 马林源, 陈开廷, 高金亮, 王鹏. 蜱源Kunitz型丝氨酸蛋白酶抑制分子的结构与功能研究进展[J]. 中国寄生虫学与寄生虫病杂志, 2023, 41(5): 625-630. |
[8] | 刘雅芳, 陈彬, 芦新焱, 李光华, 杜春红, 姜丹丹, 杨兴. 云南微小扇头蜱线粒体基因组全序列测定与分析[J]. 中国寄生虫学与寄生虫病杂志, 2022, 40(5): 677-681. |
[9] | 宋瑞其, 翟雪洁, 李才善, 葛婷, 甘露, 张梦圆, 樊新丽, 李永畅, 张杨, 巴音查汗. 亚洲璃眼蜱和小亚璃眼蜱新疆地理株各发育阶段生物学特性的比较分析[J]. 中国寄生虫学与寄生虫病杂志, 2022, 40(3): 369-378. |
[10] | 何文文, 伍军, 呼尔查, 阿力木江, 史倩云, 诺明达来, 甘露, 郝蕴伟, 巴音查汗. 基于最大熵模型的新疆银盾革蜱和边缘革蜱生境适应性评价[J]. 中国寄生虫学与寄生虫病杂志, 2022, 40(1): 68-75. |
[11] | 周淑姮, 曾志伟, 刘维俊, 王加熊, 徐国英, 肖方震. 闽东地区野生动物寄生蜱感染梨形虫状况的调查及基因型分析[J]. 中国寄生虫学与寄生虫病杂志, 2022, 40(1): 76-83. |
[12] | 吕立红, 张金成, 胡永红. 蜱类保护性抗原研究进展[J]. 中国寄生虫学与寄生虫病杂志, 2021, 39(4): 542-547. |
[13] | 乌兰图雅, 殷旭红, 崔云虹, 刘丹, 王亭富, 苗雨润, 阿木日汗, 曹民治, 赵志伟, 邢方超, 鲁建英, 高娃. 内蒙古中西部草原蜱媒病原体多样性及基因型分析[J]. 中国寄生虫学与寄生虫病杂志, 2021, 39(1): 27-35. |
[14] | 裴庭苇, 于志军, 刘敬泽. 蜱类miRNA研究进展[J]. 中国寄生虫学与寄生虫病杂志, 2020, 38(6): 771-776. |
[15] | 王洋, 李婷婷, 公茂庆. 蚊虫嗅觉受体研究进展[J]. 中国寄生虫学与寄生虫病杂志, 2020, 38(5): 647-652. |
阅读次数 | ||||||
全文 |
|
|||||
摘要 |
|
|||||