日本石川县野猪源蛔虫中与人类相关的遗传相似性及隐秘谱系的证据。
Evidence of human-associated genetic similarity and a cryptic lineage in wild boar-derived Ascaris from Ishikawa Prefecture in Japan.
作者信息
Matsumura Takahiro, Mochizuki Kota, Matsuo Kayoko, Komiya Tomoyoshi, Tokoro Masaharu
机构信息
Faculty of Health and Medical Sciences, Hokuriku University, 1-1 Taiyogaoka, Kanazawa, Ishikawa, 920-1180, Japan.
Department of Medical Zoology, Kanazawa Medical University, 1-1 Daigaku, Uchinada, Kahoku, Ishikawa, 920-0293, Japan.
出版信息
Trop Med Health. 2025 Jul 1;53(1):87. doi: 10.1186/s41182-025-00769-7.
BACKGROUND
Two species of Ascaris nematodes infect humans: Ascaris lumbricoides, a human parasite, and Ascaris suum, which primarily infects pigs. Since these species are morphologically similar, molecular techniques are necessary for species identification in human Ascaris cases. A common method involves analyzing nucleotide sequences in the internal transcribed spacer 1 (ITS-1) region, particularly at positions 133 and 246. Although Ascaris nematodes have also been detected in wild boars, they are often classified as A. suum without molecular analysis due to their genetic similarity to pigs. In this study, we conducted molecular identification of Ascaris specimens collected from wild boars in Ishikawa Prefecture to examine their potential origin.
METHODS
Six Ascaris specimens from wild boars in Ishikawa Prefecture were analyzed by PCR and sequencing of the ITS-1 and COX1 regions. ITS-1 sequences were aligned to reference data, and phylogenetic analysis was performed using COX1 sequences.
RESULTS
Alignment analysis of the ITS-1 region revealed a nucleotide deletion at position 129, with guanine (G) at position 133 and thymine (T) at position 246. This sequence was 100% identical to the reference A. lumbricoides sequence derived from humans. However, phylogenetic analysis of the COX1 region revealed that these wild boar-derived genotypes belonged to a clade that has not been identified in human-derived A. lumbricoides.
DISCUSSION
The ITS-1 sequences of Ascaris from wild boars were identical to those of "lumbricoides" genotypes, suggesting possible past transmission from humans. However, COX1-based phylogenetic analysis revealed a distinct clade, indicating a potentially novel lineage within wild boars. These findings highlight the limitations of relying solely on ITS-1 for determining host origin and suggest that wild boars may serve as reservoirs of zoonotic Ascaris in Japan.
CONCLUSIONS
This study highlights the presence of "lumbricoides" genotypes sequences in wild boars and their potential role in human ascariasis. Reevaluation of unexplained cases in relation to wild boar distribution is warranted, along with enhanced attention to zoonotic transmission risks.
背景
有两种蛔虫线虫可感染人类:人蛔虫,一种人体寄生虫;猪蛔虫,主要感染猪。由于这两个物种在形态上相似,因此在人类蛔虫病例中进行物种鉴定需要分子技术。一种常用方法是分析内部转录间隔区1(ITS-1)区域的核苷酸序列,特别是第133和246位的序列。虽然在野猪中也检测到了蛔虫线虫,但由于它们与猪的遗传相似性,在没有分子分析的情况下,它们通常被归类为猪蛔虫。在本研究中,我们对从石川县野猪采集的蛔虫标本进行了分子鉴定,以研究它们可能的来源。
方法
对来自石川县野猪的6个蛔虫标本进行PCR分析,并对ITS-1和COX1区域进行测序。将ITS-1序列与参考数据进行比对,并使用COX1序列进行系统发育分析。
结果
ITS-1区域的比对分析显示,第129位存在核苷酸缺失,第133位为鸟嘌呤(G),第246位为胸腺嘧啶(T)。该序列与源自人类的参考人蛔虫序列100%相同。然而,COX1区域的系统发育分析表明,这些源自野猪的基因型属于一个在源自人类的人蛔虫中未被鉴定出的进化枝。
讨论
野猪蛔虫的ITS-1序列与“似蚓蛔线虫”基因型的序列相同,表明过去可能存在从人类传播的情况。然而,基于COX1的系统发育分析显示出一个独特的进化枝,表明野猪体内可能存在一个新的谱系。这些发现突出了仅依靠ITS-1来确定宿主来源的局限性,并表明野猪可能是日本蛔虫人畜共患病的宿主。
结论
本研究突出了野猪中“似蚓蛔线虫”基因型序列的存在及其在人类蛔虫病中的潜在作用。有必要根据野猪分布情况重新评估不明原因的病例,并加强对人畜共患病传播风险的关注。
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