Hydrosalpinx Fluid Syndrome in Ducks Caused by Avian Metapneumovirus Subgroup C
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摘要:
目的 明确引起种(蛋)鸭特征性输卵管积液和产蛋下降的新发疫病[俗称种(蛋)鸭输卵管积液综合征]的病原。 方法 对自闽粤赣浙皖桂等地产蛋率较高的部分鸭群表现以输卵管内乳糜性积液、黏膜出血水肿增厚及不同程度产蛋下降为特征的病(死)麻鸭、樱桃谷种鸭和种番鸭中采集的样品(输卵管积液、输卵管黏膜、卵巢和肝脾脏器),开展鸭已知病原核酸监测、病原分离鉴定和开产麻鸭人工感染试验。 结果 细菌分离显示,输卵管积液里未分离到细菌,排除细菌感染引起;经病毒核酸监测,只有C型禽偏肺病毒(Avain metapneumoviurs subgroup C,aMPV/C)阳性,未检测到其他引起禽产蛋异常的病毒;以aMPV/C单一阳性的样品经鸭胚进行病毒分离与传代,发现接种鸭胚未见死亡,但胚体表面稍水肿和出血、肝脏出血;对第5代鸭胚液进行RT-PCR检测,结果显示aMPV/C分离阳性率为72.2%;对获得的4株分离株(JX2126、FJ2228、FJ2375和GD2381株)的基因片段进行测序和序列分析发现,该片段与最早报道的番鸭aMPV/C法国分离株(Muscovy duck/1999/99178/France)同源性最高,为96.1%,而与A、B、D型禽偏肺病毒(Avain metapneumoviurs subgroup A, B, D,aMPV/A, B, D)分离株的同源性仅分别为67.8%~68.7%、66.1%~66.8%和71.4%,与人偏肺病毒(Human metapneumoviurs,hMPV)分离株的同源性为67.7%~68.3%;遗传进化分析表明,以上4株分离株与aMPV/C处于同一进化分支上,而与其他亚型aMPV和hMPV亲缘关系较远;经开产麻鸭人工感染试验,成功复制出与自然感染病例相同的临床病症,并能回收到病毒。 结论 明确引起种(蛋)鸭输卵管积液综合征的病原为C型禽偏肺病毒。本研究为该病的快速准确诊断和精准防控提供科学依据。 Abstract:Objective Pathogen causing the hydrosalpinx fluid syndrome (HFS) with a declined egg-laying in breeding and egg-laying ducks was investigated for the disease control. Method Nucleic acid amplification, pathogen isolation and identification, and artificial infection on ducks were carried out on tissue samples collected from the live or dead Sheldrake Ducks, Cherry Valley Ducks, and Muscovy Ducks that were found infected by HFS at farms in Fujian, Guangdong, Jiangxi, Zhejiang, Anhui, and Guangxi autonomous region. The disease symptoms included chylous hydrosalpinx fluids and hemorrhagic, edematous, and thickened mucosa, in addition to a declined egg-laying on the ducks. Result No bacteria were detected in the hydrosalpinx fluid. In the clinical specimens, RT-PCR tested positive on avian metapneumovirus subgroup C (aMPV/C) but no other commonly known viruses that cause a declined egg-laying in ducks. Subsequently, the duck embryos inoculated with the viral infected samples were aMPV/C-positive and showed slight embryonic edema and bleeding on the embryo surface and liver. The virus isolation rate on the F5 embryo fluid by RT-PCR was 72.2%. The nucleotide sequences of the isolated FJ2375, GD2381, FJ2228, and JX2126 had a homology of 96.1% with the earliest reported aMPV/C-infected Muscovy duck/1999/99178/France, those of 67.8-68.7%, 66.1-66.8%, and 71.4% with aMPV/A, B, and D, respectively, and that of 67.7-68.3% with the human MPV. The sequences were more closely related to aMPV/C than the others in genetic evolution. Furthermore, the virus was successfully recovered from the artificially infected ducks that exhibited similar HFS symptoms observed in naturally diseased birds. Conclusion The pathogenic virus that caused HFS in ducks was identified as aMPV/C. It paved the way for the development of means to accurately diagnose and effectively prevent and control the disease. -
图 2 输卵管黏膜出血水肿增厚
Figure 2. Hemorrhagic, edematous, and thickened mucosa in duck fallopian tubes
图 3 临床样品中C型禽偏肺病毒(RT-)PCR检测结果
M为DL2000 maker,1~4分别为输卵管积液、输卵管黏膜、卵巢、肝脾脏器中C型禽偏肺病毒,5~14分别为禽流感病毒、禽坦布苏病毒、鸭减蛋综合征病毒、鸭瘟病毒、禽副黏病毒、鸭星状病毒3型、巴泰病毒、鸭1型甲肝病毒、A型禽偏肺病毒和B型禽偏肺病毒,15为空白对照。
Figure 3. RT-PCR detection of aMPV/C in clinical samples
M: DL2000 maker; 1-4: hydrosalpinx fluid, hydrosalpinx mucosa, ovarium, liver, and spleen, respectively; 5-14: AIV, ATV, EDS, DPV, APMV, DAstV-3, BTV, DHAV-1, aMPV/A and aMPV/B, respectively; 15: control.
图 4 胚体稍水肿和表面出血
左边胚体为接毒组,右边胚体为对照组。
Figure 4. Slight edema and surface bleeding on embryo
Left: infected embryos; right: control.
图 5 分离株C型禽偏肺病毒RT-PCR检测结果
M为DL2000 maker,1~5、7、8、10、14~18为aMPV/C阳性,6、9、11~13为aMPV/C阴性,19为空白对照。
Figure 5. RT-PCR analysis on isolated aMPV/C
M: DL2000 maker; 1-5, 7, 8, 10, and 14-18: aMPV/C positive; 6, 9, 11-13: aMPV/C negative; 19: control.
表 1 麻鸭感染试验结果
Table 1. Results of infection test on Sheldrake Ducks
组别
Groups数量
Number /n攻毒前产蛋数和
产蛋率
Eggs and laying rate
before Infection/(n/%)攻毒后14 d内产蛋数和产蛋率
Eggs and laying rate during 14 days post infectious/(n/%)攻毒后总产蛋数和
平均产蛋率
Total eggs and the mean of
laying rate during 14 days
post infectious/(n/%)1 2 3 4 5~9 10 11 12 13 14 攻毒组
Infection group25 22/88 18/72 18/72 15/60 11/44 8/32 9/36 10/40 9/36 10/40 11/44 151/43.1 对照组
Control group25 22/88 19/76 18/72 17/68 18/72 19/76 20/80 21/84 20/80 21/84 21/84 270/77.1 
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[1] 侯水生, 刘灵芝. 2022年水禽产业现状、未来发展趋势与建议 [J]. 中国畜牧杂志, 2023, 59(3):274−280.HOU S S, LIU L Z. Present situation, future development trend and suggestions of waterfowl industry in 2022 [J]. Chinese Journal of Animal Science, 2023, 59(3): 274−280.(in Chinese) [2] PRINGLE C R. Virus taxonomy–San diego 1998 [J]. Archives of Virology, 1998, 143(7): 1449−1459. doi: 10.1007/s007050050389 [3] ALKHALAF A N, WARD L A, DEARTH R N, et al. Pathogenicity, transmissibility, and tissue distribution of avian pneumovirus in Turkey poults [J]. Avian Diseases, 2002, 46(3): 650−659. doi: 10.1637/0005-2086(2002)046[0650:PTATDO]2.0.CO;2 [4] SAIF Y M. 禽病学(第12版) [M] . 苏敬良, 高福, 索勋, 译. 北京: 中国农业出版社, 2012: 110-122.SAIF Y M. Diseases of poultry(12th edition)[M]. SU J L, GAO F, SUO X, Translate. Beijing: China Agriculture Press, 2012: 110-122. (in Chinese) [5] MAHARAJ S B, THOMSON D K, DA GRACA J V. Isolation of an avian pneumovirus-like agent from broiler breeder chickens in South Africa [J]. The Veterinary Record, 1994, 134(20): 525−526. doi: 10.1136/vr.134.20.525 [6] ABDEL-AZEEM A A S, FRANZO G, DALLE ZOTTE A, et al. First evidence of avian metapneumovirus subtype A infection in turkeys in Egypt [J]. Tropical Animal Health and Production, 2014, 46(6): 1093−1097. doi: 10.1007/s11250-014-0591-8 [7] RIVERA-BENITEZ J F, MARTÍNEZ-BAUTISTA R, RÍOS-CAMBRE F, et al. Molecular detection and isolation of avian metapneumovirus in Mexico [J]. Avian Pathology:Journal of the W V P A, 2014, 43(3): 217−223. doi: 10.1080/03079457.2014.903557 [8] HOSSEINI H, KAFI Z Z, MALEKAN M, et al. Molecular characterization of circulating avian metapneumovirus, subgroup B, in broiler chickens, Iran, 2016-2018 [J]. Iranian Journal of Veterinary Research, 2021, 22(3): 217−221. [9] TOQUIN D, GUIONIE O, JESTIN V, et al. European and American Subgroup C Isolates of Avian Metapneumovirus belong to Different Genetic Lineages [J]. Virus Genes, 2006, 32(1): 97−103. doi: 10.1007/s11262-005-5850-3 [10] LEE E H, SONG M S, SHIN J Y, et al. Genetic characterization of avian metapneumovirus subtype C isolated from pheasants in a live bird market [J]. Virus Research, 2007, 128(1/2): 18−25. [11] WEI L, ZHU S S, YAN X, et al. Avian metapneumovirus subgroup C infection in chickens, China [J]. Emerging Infectious Diseases, 2013, 19(7): 1092−1094. doi: 10.3201/eid1907.121126 [12] SUN S K, CHEN F, CAO S, et al. Isolation and characterization of a subtype C avian metapneumovirus circulating in Muscovy ducks in China [J]. Veterinary Research, 2014, 45(1): 74. doi: 10.1186/s13567-014-0074-y [13] BÄYON-AUBOYER M H, ARNAULD C, TOQUIN D, et al. Nucleotide sequences of the F, L and G protein genes of two non-A/non-B avian pneumoviruses (APV) reveal a novel APV subgroup[J]. The Journal of General Virology, 2000, 81(Pt 11): 2723-2733. [14] TOQUIN D, BÄYON-AUBOYER M H, SENNE D A, et al. Lack of antigenic relationship between French and recent North American non-A/non-B Turkey rhinotracheitis viruses [J]. Avian Diseases, 2000, 44(4): 977−982. doi: 10.2307/1593075 [15] 贠炳岭, 刘在斯, 吴关, 等. 我国部分地区种鸡禽肺病毒感染的血清学调查 [J]. 中国家禽, 2012, 34(12):64−65. doi: 10.3969/j.issn.1004-6364.2012.12.023YUN B L, LIU Z S, WU G, et al. Serological investigation of avian pulmonary virus infection in breeders in some areas of China [J]. China Poultry, 2012, 34(12): 64−65.(in Chinese) doi: 10.3969/j.issn.1004-6364.2012.12.023 [16] 徐仕忠, 秦云, 于鹏, 等. 中国鸡群禽偏肺病毒感染的流行病学调查报告 [J]. 中国家禽, 2013, 35(6):59−60.XU S Z, QIN Y, YU P, et al. Epidemiological investigation report on metapneumovirus infection in chickens in China [J]. China Poultry, 2013, 35(6): 59−60.(in Chinese) [17] 张丽华, 李和鸣, 袁园, 等. 广西地区规模化鸡场禽偏肺病毒感染情况的血清学调查 [J]. 中国预防兽医学报, 2017, 39(6):439−442.ZHANG L H, LI H M, YUAN Y, et al. Survey of avian metapneumovirus in chickens of Guangxi region [J]. Chinese Journal of Preventive Veterinary Medicine, 2017, 39(6): 439−442.(in Chinese) [18] 王奕澄. 鸭群中C亚型禽偏肺病毒血清抗体间接ELISA检测方法的建立与应用[D]. 泰安: 山东农业大学, 2022.WANG Y C. Establishment and application of indirect ELISA for detection of serum antibody of avian metapneumovirus subtype C in ducks[D]. Taian: Shandong Agricultural University, 2022. (in Chinese) [19] 黄瑜, 李文杨, 程龙飞, 等. 种(蛋)鸭产蛋异常研究: I. 临床调查及病原初步研究 [J]. 福建畜牧兽医, 2001, 23(3):8.HUANG Y, LI W Y, CHENG L F, et al. Study on abnormal egg laying of breeding (laying) ducks—I. Clinical investigation and preliminary study on pathogens [J]. Fujian Journal of Animal Husbandry and Veterinary, 2001, 23(3): 8.(in Chinese) [20] 黄瑜, 苏荣茂, 傅光华, 等. 蛋鸭主要病毒病感染检测与分析 [J]. 福建农业学报, 2016, 31(9):908−911.HUANG Y, SU R M, FU G H, et al. Major viral infections on egg-laying ducks in China [J]. Fujian Journal of Agricultural Sciences, 2016, 31(9): 908−911.(in Chinese) [21] 傅光华, 陈翠腾, 傅秋玲, 等. 鸭巴泰病毒一步法RT-PCR检测方法的建立 [J]. 福建农业学报, 2017, 32(11):1193−1196.FU G H, CHEN C T, FU Q L, et al. Establishment of one-step RT-PCR for batai virus detection in ducks [J]. Fujian Journal of Agricultural Sciences, 2017, 32(11): 1193−1196.(in Chinese) [22] 万春和, 施少华, 程龙飞, 等. 一种引起种(蛋)鸭产蛋骤降新病毒的分离与初步鉴定 [J]. 福建农业学报, 2010, 25(6):663−666. doi: 10.3969/j.issn.1008-0384.2010.06.001WAN C H, SHI S H, CHENG L F, et al. A newly identified Flavivirus Virus causing abrupt egg-laying reduction in ducks [J]. Fujian Journal of Agricultural Sciences, 2010, 25(6): 663−666.(in Chinese) doi: 10.3969/j.issn.1008-0384.2010.06.001 [23] 陈红梅, 陈珍, 程龙飞, 等. 樱桃谷种鸭鸭1型甲肝病毒的分离鉴定及其VP1基因的序列分析 [J]. 福建农业学报, 2014, 29(11):1066−1069. doi: 10.3969/j.issn.1008-0384.2014.11.004CHEN H M, CHEN Z, CHENG L F, et al. Identification and sequence analysis of duck hepatitis virus A type 1 isolated from cherry valley breeding duck [J]. Fujian Journal of Agricultural Sciences, 2014, 29(11): 1066−1069.(in Chinese) doi: 10.3969/j.issn.1008-0384.2014.11.004 [24] 傅秋玲, 傅光华, 程龙飞, 等. 鸭星状病毒3型TaqMan探针荧光定量PCR检测方法的建立与应用 [J]. 中国兽医学报, 2022, 42(7):1363−1368.FU Q L, FU G H, CHENG L F, et al. Development and application of a TaqMan real-time PCR assay for duck astrovirus-3 [J]. Chinese Journal of Veterinary Science, 2022, 42(7): 1363−1368.(in Chinese) [25] 邹书余. 影响连城白鸭产蛋的重要病毒病调查与分析 [J]. 福建畜牧兽医, 2023, 45(4):40−42.ZOU S Y. Investigation and analysis of major viral diseases in laying Liancheng white duck [J]. Fujian Journal of Animal Husbandry and Veterinary Medicine, 2023, 45(4): 40−42.(in Chinese) [26] 陈珍, 傅秋玲, 陈红梅, 等. 持续低产蛋率蛋鸭群主要病毒感染的检测与分析 [J]. 中国兽医学报, 2017, 37(12):2288−2293,2299.CHEN Z, FU Q L, CHEN H M, et al. Detection and analysis of primary virus infection in laying duck flocks with persistent low-productivity [J]. Chinese Journal of Veterinary Science, 2017, 37(12): 2288−2293,2299.(in Chinese) [27] 傅秋玲, 程龙飞, 傅光华, 等. 福建省蛋鸭主要细菌感染检测及其生物学特性测定与分析 [J]. 中国兽医杂志, 2016, 52(11):10−13.FU Q L, CHENG L F, FU G H, et al. Epidemiological Survey and Analysis on main bacteria from Fujian laying ducks [J]. Chinese Journal of Veterinary Medicine, 2016, 52(11): 10−13.(in Chinese) -
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