一种重组聚合酶扩增检测犬耳痒螨的方法建立及应用

doi:10.12140/j.issn.1000-7423.2024.06.017

中国寄生虫学与寄生虫病杂志 ›› 2024, Vol. 42 ›› Issue (6): 802-805.doi: 10.12140/j.issn.1000-7423.2024.06.017

一种重组聚合酶扩增检测犬耳痒螨的方法建立及应用

宋绍征¹^,^*(), 孟雅琴¹, 武颖超², 于康英¹, 周哲¹

1 无锡太湖学院健康与护理学院基础医学系，江苏无锡 214064
2 江阴市领峰宠物医院，江苏无锡 214400

收稿日期:2024-05-16 修回日期:2024-08-12 出版日期:2024-12-30 发布日期:2025-01-14
作者简介:宋绍征（1984—），博士，副教授，从事临床兽医学、转基因生物医药与胚胎工程研究。E-mail：ssz0610@163.com
基金资助:
江苏省高校“青蓝工程”优秀青年骨干教师项目(Su Jiao Shi Han [2021] 11);江苏省高校自然科学基金(19KJB180030);江苏省高校自然科学基金(23KJD180008);企业委托横向课题(23WURD088)

Establishment and application of a recombinant polymerase amplification method for detecting Otodectes cynotis

SONG Shaozheng¹^,^*(), MENG Yaqin¹, WU Yingchao², YU Kangying¹, ZHOU Zhe¹

1 Department of Basic Medicine, School of Health and Nursing, Wuxi Taihu University, Wuxi 214064, Jiangsu, China
2 Jiangyin Lingfeng Pet Hospital, Wuxi 214400, Jiangsu, China

Received:2024-05-16 Revised:2024-08-12 Online:2024-12-30 Published:2025-01-14
Contact: *E-mail: ssz0610@163.com
Supported by:
“Qinglan Project” for Outstanding Young Backbone Teachers in Jiangsu Province(Su Jiao Shi Han [2021] 11);Jiangsu Provincial Natural Science Foundation for Higher Education Institutions(19KJB180030);Jiangsu Provincial Natural Science Foundation for Higher Education Institutions(23KJD180008);Enterprise-Commissioned Horizontal Project(23WURD088)

摘要/Abstract

摘要：

为建立一种利用重组聚合酶扩增（recombinant polymerase amplification，RPA）检测犬耳痒螨（Otodectes cynotis）的方法，本研究以犬耳痒螨18S核糖体DNA第一内转录间隔区（18S-ITS1）保守基因序列作为靶标序列，设计合成RPA扩增引物和探针，建立RPA反应体系，并评价该方法的灵敏度和特异性。将150例疑似犬耳痒螨感染的犬耳垢临床样品经荧光定量PCR鉴定后，采用RPA检测法和镜检法分别检测，并比较2种方法的阳性检出率差异。结果显示，构建的RPA反应体系为：重组聚合酶5 mg，反应缓冲液10 μl，OC18-F引物2 μl，OC18-R引物2 μl，标记荧光探针1 μl，DNA模板1 μl，500 mmol/L醋酸镁0.5 μl，灭菌超纯水补齐至50 μl。扩增条件为39 ℃ 30 min。该方法检测犬耳痒螨的灵敏度为1拷贝/μl，且具有较高的特异性，与猫耳痒螨、兔耳痒螨、人疥螨、皮脂蠕形螨、毛囊蠕形螨、水牛痒螨等其他螨种均无交叉反应。RPA检测法对疑似感染犬耳痒螨的犬耳垢临床样品的阳性检出率为71.33%（107/150），高于镜检法的42.67%（64/150）（χ² = 10.813，P < 0.05），与荧光定量PCR检测结果的阳性一致率为100%。本研究建立的RPA检测犬耳痒螨的方法具有检测速度快、灵敏度高、特异性强、精准度高等特点，为犬耳痒螨病的临床诊断提供参考。

关键词: 重组聚合酶扩增检测, 犬耳痒螨, 灵敏度, 特异性

Abstract:

To establish a recombinant polymerase amplification (RPA) method for detecting Otodectes cynotis, this study used the conserved 18S-ITS1 gene sequence of O. cynotis as the target sequence, designed and synthesized RPA amplification primers and probes, established an RPA reaction system, and evaluated the sensitivity and specificity of the method. After identifying 150 clinical samples of suspected O. cynotis infection in canine earwax using fluorescence quantitative PCR, the RPA detection method and microscopic examination method were used to detect the difference in positive detection rate between the two methods. The results showed that the RPA reaction system constructed consisted of 5 mg recombinant polymerase, 10 μl reaction buffer, 2 μl OC18-F primers, 2 μl OC18-R primers, 1 μl labelled fluorescent probe, 1 μl DNA template, 0.5 μl 500 mmol/L magnesium acetate, and sterilized ultrapure water added to make up to 50 μl. The amplification conditions were 39 ℃ for 30 minutes, and the sensitivity of detecting O. cynotis was 1 copy/μl, with high specificity. There was no cross-reactivity with other mite species such as O. cati, Psoroptes cuniculi, Sarcoptes scabiei, Demodex brevis, D. folliculorum and P. natalensis. The positive detection rate of RPA on clinical samples of canine earwax suspected of infection with O. cynotis was 71.33% (107/150), which was higher than the detected by microscopy with 42.67% (64/150) (χ² = 10.813, P < 0.05). The positive consistency rate between RPA detection and fluorescence quantitative PCR detection is 100%. The RPA method established in this study for detecting O. cynotis has the characteristics of fast detection speed, high sensitivity, strong specificity and high accuracy, which provid reference for the clinical diagnosis of O. cynotis disease.

Key words: Recombinant polymerase amplification detection, Otodectes cynotis, Sensitivity, Specificity

中图分类号:

R384.429

宋绍征, 孟雅琴, 武颖超, 于康英, 周哲. 一种重组聚合酶扩增检测犬耳痒螨的方法建立及应用[J]. 中国寄生虫学与寄生虫病杂志, 2024, 42(6): 802-805.

SONG Shaozheng, MENG Yaqin, WU Yingchao, YU Kangying, ZHOU Zhe. Establishment and application of a recombinant polymerase amplification method for detecting Otodectes cynotis[J]. Chinese Journal of Parasitology and Parasitic Diseases, 2024, 42(6): 802-805.

图/表 4

参考文献 20

[1]	He R, Zhang Q, Gu XB, et al. Transcriptome analysis of Otodectes cynotis in different developmental stages[J]. Front Microbiol, 2022, 13: 687387.
[2]	Wang F. Diagnosis and treatment of a case of ear hematoma caused by ear itch mite and bacterial infection in dogs[J]. Chin Livest Poult Breed, 2021, 17(10): 162-163. (in Chinese)
	(王芳. 一例耳痒螨和细菌感染引起犬耳血肿的诊治[J]. 中国畜禽种业, 2021, 17(10): 162-163.)
[3]	Fanelli A, Doménech G, Alonso F, et al. Otodectes cynotis in urban and peri-urban semi-arid areas: a widespread parasite in the cat population[J]. J Parasit Dis, 2020, 44(2): 481-485.
[4]	Bosco A, Leone F, Vascone R, et al. Efficacy of fluralaner spot-on solution for the treatment of Ctenocephalides felis and Otodectes cynotis mixed infestation in naturally infested cats[J]. BMC Vet Res, 2019, 15(1): 28.
[5]	Combarros D, Boncea AM, Brément T, et al. Comparison of three methods for the diagnosis of otoacariasis due to Otodectes cynotis in dogs and cats[J]. Vet Dermatol, 2019, 30(4): 334-e96.
[6]	Panarese R, Iatta R, Lia RP, et al. Efficacy of afoxolaner for the treatment of ear mite infestation under field conditions[J]. Vet Parasitol, 2021, 300: 109607.
[7]	Ahamed MA, Khalid MAU, Dong M, et al. Sensitive and specific CRISPR-Cas12a assisted nanopore with RPA for monkeypox detection[J]. Biosens Bioelectron, 2024, 246: 115866.
[8]	Tian J, Chen B, Zhang B, et al. A new auto-RPA-fluorescence detection platform for SARS-CoV-2[J]. Lab Med, 2023, 54(2): 182-189.
[9]	Uno N, Li ZY, Liu CC. Single-tube one-step gel-based RT-RPA/PCR for highly sensitive molecular detection of HIV[J]. Analyst, 2023, 148(4): 926-931.
[10]	Danthanarayana AN, Nandy S, Kourentzi K, et al. Smartphone-readable RPA-LFA for the high-sensitivity detection of Leishmania kDNA using nanophosphor reporters[J]. PLoS Negl Trop Dis, 2023, 17(7): e0011436.
[11]	Huang TJ, Li L, Li JH, et al. Rapid, sensitive, and visual detection of Clonorchis sinensis with an RPA-CRISPR/Cas12a-based dual readout portable platform[J]. Int J Biol Macromol, 2023, 249: 125967.
[12]	Zhao LJ, Wang HL, Chen XQ, et al. Agarose hydrogel-boosted one-tube RPA-CRISPR/Cas12a assay for robust point-of-care detection of zoonotic nematode Anisakis[J]. J Agric Food Chem, 2024, 72(14): 8257-8268.
[13]	Wang L, Li X, Li L, et al. Establishment of an ultrasensitive and visual detection platform for Neospora caninum based on the RPA-CRISPR/Cas12a system[J]. Talanta, 2024, 269: 125413.
[14]	Tyler S, Swales N, Foster AP, et al. Otoscopy and aural cytological findings in a population of rescue cats and cases in a referral small animal hospital in England and Wales[J]. J Feline Med Surg, 2020, 22(2): 161-167.
[15]	Ge R, Dai HJ, Zhang SM, et al. A collection of RPA-based photoelectrochemical assays for the portable detection of multiple pathogens[J]. Anal Chem, 2023, 95(18): 7379-7386.
[16]	Paenkaew S, Jaito N, Pradit W, et al. RPA/CRISPR-cas12a as a specific, sensitive and rapid method for diagnosing Ehrlichia canis and Anaplasma platys in dogs in Thailand[J]. Vet Res Commun, 2023, 47(3): 1601-1613.
[17]	Deng JH, Lü JZ, Chen DJ, et al. Establishment and application of a double real-time RPA method for detection of MGF-505R gene-deleted mutants of African swine fever virus[J]. Anim Husb Vet Med, 2023, 55(12): 85-90. (in Chinese)
	(邓俊花, 吕继洲, 陈冬杰, 等. 非洲猪瘟病毒MGF-505R基因缺失株双重荧光RPA检测方法的建立及应用[J]. 畜牧与兽医, 2023, 55(12): 85-90.)
[18]	Kobialka RM, Ceruti A, Bergmann M, et al. Molecular detection of feline coronavirus based on recombinase polymerase amplification assay[J]. Pathogens, 2021, 10(10): 1237.
[19]	Onchan W, Ritbamrung O, Changtor P, et al. Sensitive and rapid detection of Babesia species in dogs by recombinase polymerase amplification with lateral flow dipstick (RPA-LFD)[J]. Sci Rep, 2022, 12(1): 20560.
[20]	Du JY, Gou JM, Yao HZ, et al. Establishment of PCR method for the detection of Otodectes cynotis and its application[J]. Prog Vet Med, 2023, 44(5): 27-33. (in Chinese)
	(杜嘉玥, 缑静敏, 要慧中, 等. 一种犬耳痒螨PCR检测方法的建立及应用[J]. 动物医学进展, 2023, 44(5): 27-33.)

引物/探针名称	序列（5′→3′）	产物长度/bp
OC18-F	AGAATGCCGGAGCCACAGGTACAAAGTTATTC	211
OC18-R	TGTGAAATGCAGGACACTCCGATCACTCGAC	211
OC18-P	ATCATTGCAAGAAACATAGTACTACTGCCAGT[FAM]GGT[BHQ1]GGATCACTCGGCTCG

一种重组聚合酶扩增检测犬耳痒螨的方法建立及应用

Establishment and application of a recombinant polymerase amplification method for detecting Otodectes cynotis

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