Surveillance of tick-borne viruses in the border regions of the Tumen River Basin: Co-circulation in ticks and livestock.

IF 3.4 2区医学 Q1 PARASITOLOGY

PLoS Neglected Tropical Diseases Pub Date : 2025-09-04 eCollection Date: 2025-09-01 DOI:10.1371/journal.pntd.0013500

Zhe Liu, Shengwei Ji, Qiaocheng Chang, Jinqi Wang, Eloiza May Galon, Ying Xu, Guolu Yin, Jixu Li, Xu Gao, Wannian Tian, Zhenzhen Han, Chenghui Li, Zhiqiang Xu, Rui Du, Shujiang Xue

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Abstract

Background: The unique eco-geographical patterns and climatic conditions of the China-Tumen River border region, combined with frequent cross-border tourism and trade activities, collectively establish this area as a recognized hotspot for tick-borne disease outbreaks. However, critical knowledge gaps persist regarding the eco-epidemiology of emerging tick-borne viruses and the distribution of their potential reservoir hosts within this trinational ecosystem spanning China, North Korea, and Russia.

Methods: We collected a total of 2,004 ticks from the study area, along with blood samples obtained from 42 sheep and 45 cattle. Following viral metagenomic analysis of the ticks, dual verification of target pathogens in all samples was performed using qRT-PCR and RT-PCR assays. Phylogenetic trees were constructed and nucleotide sequences were analyzed to delineate relationships between the obtained virus strains and reference sequences.

Results: Viral metagenomics identified three viruses in ticks: Dabieshan tick virus (DBTV), Songling virus (SGLV), and Yanggou tick virus (YGTV). PCR analysis detected DBTV exclusively in Hunchun ticks (minimum infection rates, MIR:4.73%) and YGTV in Antu specimens (MIR:0.97%). Conversely, SGLV was detected in ticks from all four regions, with MIR of 1.68% (Helong), 0.74% (Hunchun), 1.61% (Antu), and 4.79% (Longjing). Concurrently, SGLV was detected in 19 sheep blood samples from Longjing, yielding a positivity rate of 45.24%, while YGTV was identified in 13 cattle blood samples from Antu, with a positivity rate of 28.89%. Phylogenetically, the DBTV strain clustered with previously reported DBTV and Yongjia tick virus 1 isolates. Sheep-derived SGLV strains shared close evolutionary ties with tick-borne SGLV, whereas YGTV from cattle and ticks formed a distinct cluster with Russian strains but diverged into two branches from Chinese variants, suggesting evolutionary instability.

Conclusion: These findings address critical knowledge gaps in the transmission dynamics and genetic diversity of emerging arboviruses while providing vital insights for developing cross-border surveillance strategies with significant public health implications.

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图们江流域边境地区蜱传病毒监测：蜱与牲畜共循环

背景：中国—图们江边境地区独特的生态地理格局和气候条件，加上频繁的跨境旅游和贸易活动，使该地区成为公认的蜱传疾病暴发热点地区。然而，关于新兴蜱传病毒的生态流行病学及其潜在宿主在跨越中国、朝鲜和俄罗斯的国家生态系统中的分布，仍然存在关键的知识空白。方法：在研究区共采集蜱虫2004只，采集42只羊和45只牛的血液样本。在对蜱虫进行病毒宏基因组分析后，采用qRT-PCR和RT-PCR方法对所有样本中的目标病原体进行双重验证。构建系统发育树，分析核苷酸序列，以描述获得的病毒株与参考序列之间的关系。结果：病毒宏基因组学鉴定出3种蜱病毒：大别山蜱病毒（DBTV）、松岭病毒（SGLV）和羊沟蜱病毒（YGTV）。PCR检测结果显示，珲春蜱中只检测到DBTV，感染率最低，MIR为4.73%；安图蜱中只检测到YGTV， MIR为0.97%。4个地区蜱中均检出SGLV， MIR分别为和龙1.68%、珲春0.74%、安图1.61%和龙井4.79%。同时，龙井地区19份羊血中检出SGLV，阳性率为45.24%；安图地区13份牛血中检出YGTV，阳性率为28.89%。在系统发育上，该株与先前报道的DBTV和永嘉蜱病毒1型分离株聚集在一起。绵羊衍生的SGLV菌株与蜱传播的SGLV具有密切的进化联系，而来自牛和蜱的YGTV与俄罗斯菌株形成了一个独特的集群，但从中国变体中分化成两个分支，表明进化不稳定。结论：这些发现填补了新出现虫媒病毒传播动力学和遗传多样性方面的关键知识空白，同时为制定具有重大公共卫生影响的跨境监测战略提供了重要见解。

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PLoS Neglected Tropical Diseases PARASITOLOGY-TROPICAL MEDICINE

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10.50%

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723

期刊介绍： PLOS Neglected Tropical Diseases publishes research devoted to the pathology, epidemiology, prevention, treatment and control of the neglected tropical diseases (NTDs), as well as relevant public policy. The NTDs are defined as a group of poverty-promoting chronic infectious diseases, which primarily occur in rural areas and poor urban areas of low-income and middle-income countries. Their impact on child health and development, pregnancy, and worker productivity, as well as their stigmatizing features limit economic stability. All aspects of these diseases are considered, including: Pathogenesis Clinical features Pharmacology and treatment Diagnosis Epidemiology Vector biology Vaccinology and prevention Demographic, ecological and social determinants Public health and policy aspects (including cost-effectiveness analyses).