Molecular and genetic characterization of avian laryngotracheitis virus isolates obtained in Ukraine

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY Agricultural Science and Practice Pub Date : 2021-06-10 DOI:10.15407/agrisp8.01.032
A. Veretsun, B. Stegniy, O. Rula, V. Bolotin, A. Stegniy, A. Gerilovych, D. Muzyka
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Abstract

Aim. To conduct a virological, PCR, PCR-RFLP and sequencing study of infectious laryngotracheitis virus (ILTV) isolates obtained from sick and dead chickens at industrial and backyard poultry farms in the eastern region of Ukraine collected over the years 2010–2019 and to establish their pathotype and relationship with internationally occurring strains. Methods. Material for virological studies was collected in the framework of research program of the NSC IEСVM during 2010-2019 in the poultry farms in the North-Eastern region of Ukraine, where the birds with the respiratory clinical signs were found. In total, 28 poultry farms were observed. ILTV isolates were obtained with conventional methods, using 10–12-day-old chicken embryos. A 0,2 ml of 10–20 % suspension of pathological material in PBS was used for inoculation. For in-depth studies, we used 4 isolates of ILTV obtained from sick and dead chickens from industrial and backyard poultry farms in Kharkiv, Luhansk, Donetsk, and Sumy regions from 2010–2019. The identification of ILTV isolates was performed via conventional PCR. The pathotype of ILTV strains was determined using PCR-RFLP (polymerase chain reaction – restriction fragment length polymorphism) analysis. The PCR-RFLP was performed at Royal GD, the Netherlands. The (partial) sequencing of the US8 gene was performed using Sanger sequencing method. The phylogenetic analysis, using sequences of 2 Ukrainian strains (MZ323228, MZ333273) and 17 international gene sequences present in GenBank, was performed using the Maximum Likelihood method. For comparative analysis, sequences of vaccine ILT virus strains were used. Results. Over the years 2010-2019, 7 isolates of ILTV were obtained from sick and dead poultry with typical clinical signs and internal lesions at industrial and backyard farms of the Kharkiv, Donetsk, Luhansk and Sumy regions, and the Autonomous Republic of Crimea. Other avian respiratory viral and bacterial pathogens were not detected. Five isolates were obtained from poultry of industrial holdings where vaccination against ILT is carried out. Using PCR-RFLP analysis of 4 isolates, we found that three of them (Sumy 6-11/19, A 04-12, B 2-10) to belong to vaccine-type ILTV strains and only one, B 59-11strain, belongs to wild-type ILTV. Vaccine-type ILTV strains circulated and possibly still circulate in Ukraine in industrial and backyard poultry farms among both vaccinated and non- vaccinated poultry. An ILTV wild-type strain was obtained from non-vaccinated chickens from a backyard farm, which may indicate an important role of backyard farms in maintaining the circulation of the virus. After partial sequencing and phylogenetic analysis of the ILTV US8 gene the two Ukrainian strains studied were placed into two different clusters: The vaccine-type B 2-10 strain, obtained from sick vaccinated chickens from an industrial farm, was close to vaccine-type strains circulating in, China, Italy and the USA. The wild-type B 59-11strain, obtained from sick non-vaccinated backyard chickens, was located in another cluster and closest to a the wild-type B 59-11 ILTV strain from Brazil. Conclusions. In this article we describe for the first time the characterization of vaccine-type and wild-type isolates of ILTV in industrial and backyard poultry farms, proving their relevance for the poultry production in Ukraine. The results obtained show the need and prospects for further monitoring of ILTV circulation in small backyard poultry farms and in industrial poultry farms, especially following the frequent use for vaccination of live attenuated wild-type ILTV strains in Ukraine. Further molecular, phylogenetic and epidemiological characterization of the strains obtained should be performed in the near future to further precise their attributes, epidemiology and origin.
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在乌克兰获得的禽喉气管炎病毒分离株的分子和遗传特征
目标对2010-2019年在乌克兰东部地区工业和后院家禽养殖场收集的病死鸡传染性喉气管炎病毒(ILTV)分离株进行病毒学、PCR、PCR-RFLP和测序研究,并确定其病理类型和与国际流行毒株的关系。方法。2010-2019年期间,在乌克兰东北部地区的家禽养殖场,在NSC IEСVM的研究计划框架内收集了病毒学研究材料,在那里发现了具有呼吸道临床特征的鸟类。总共观察到28个家禽养殖场。ILTV分离株是用常规方法获得的,使用10–12天大的鸡胚。使用0.2 ml的10-20%病理材料PBS悬浮液进行接种。为了进行深入研究,我们使用了2010-2019年从哈尔科夫、卢甘斯克、顿涅茨克和苏梅地区工业和后院家禽养殖场的病鸡和死鸡中获得的4个ILTV分离株。通过常规聚合酶链式反应对ILTV分离株进行鉴定。应用PCR-RFLP(聚合酶链式反应-限制性片段长度多态性)分析确定ILTV菌株的病理类型。PCR-RFLP在荷兰皇家GD进行。使用Sanger测序方法对US8基因进行(部分)测序。使用GenBank中存在的2个乌克兰菌株(MZ3323228、MZ333273)和17个国际基因序列的序列,使用最大似然法进行系统发育分析。为了进行比较分析,使用了疫苗ILT病毒株的序列。后果在2010-2019年期间,在哈尔科夫、顿涅茨克、卢甘斯克和苏梅地区以及克里米亚自治共和国的工业和后院农场,从具有典型临床症状和内部病变的病死家禽中获得了7个ILTV分离株。未检测到其他禽类呼吸道病毒和细菌病原体。从进行ILT疫苗接种的工业饲养场的家禽中获得5个分离株。通过对4株分离株的PCR-RFLP分析,我们发现其中3株(Sumy 6-11/19,A 04-12,B 2-10)属于疫苗型ILTV菌株,只有一株(B 59-11)属于野生型ILTV。疫苗型ILTV菌株在乌克兰的工业和后院家禽养殖场中循环传播,可能仍在接种疫苗和未接种疫苗的家禽中传播。从后院农场的未接种疫苗的鸡身上获得了一株ILTV野生型菌株,这可能表明后院农场在维持病毒传播方面发挥着重要作用。在对ILTV US8基因进行部分测序和遗传学分析后,将研究的两个乌克兰菌株分为两个不同的簇:从一个工业农场接种过疫苗的生病鸡中获得的B 2-10型疫苗菌株与在中国、意大利和美国流行的疫苗型菌株接近,位于另一个簇中,并且最接近来自巴西的野生型B 59-11 ILTV菌株。结论。在这篇文章中,我们首次描述了工业和后院家禽养殖场中ILTV的疫苗型和野生型分离株的特征,证明了它们与乌克兰家禽生产的相关性。所获得的结果显示了进一步监测小型后院家禽养殖场和工业家禽饲养场中ILTV循环的必要性和前景,特别是在乌克兰频繁使用减毒野生型ILTV活毒株进行疫苗接种之后。应在不久的将来对获得的菌株进行进一步的热相似性、系统发育和流行病学表征,以进一步精确其属性、流行病学和起源。
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Agricultural Science and Practice
Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-
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