立陶宛牛源四种肉孢子虫（包括人源肉孢子虫）的分子鉴定及快速分子检测方法的建立。

Molecular identification of four Sarcocystis species in cattle from Lithuania, including S. hominis, and development of a rapid molecular detection method.

机构信息

Nature Research Centre, Vilnius, Lithuania.

Lithuanian University of Health Science, Kaunas, Lithuania.

出版信息

Parasit Vectors. 2020 Dec 7;13(1):610. doi: 10.1186/s13071-020-04473-9.

DOI:10.1186/s13071-020-04473-9

PMID:33287879

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7720396/

Abstract

BACKGROUND

Six Sarcocystis species are known to use cattle (Bos taurus) as the intermediate host, two of which, S. hominis and S. heydorni, are zoonotic. There is a need for a method that will enable rapid identification of the Sarcocystis species in cattle.

METHODS

The diaphragm muscles of 102 cattle from Lithuania were examined for the presence of Sarcocystis spp., using two different methods for species identification. Individual sarcocysts were isolated from squash preparations of the diaphragm muscle under the light microscope, followed by genetic characterisation of excised cysts using sequence analysis of the 18S rRNA (18S rRNA) and cytochrome c oxidase subunit I (cox1) genes. The same cattle muscle samples were digested and species-specific PCR analyses targeting cox1 were developed to identify the Sarcocystis isolates to the species level.

RESULTS

Under the light microscope, sarcocysts were detected in 87.3% of animals, and Sarcocystis infection was verified in all digested samples. Three species, namely S. cruzi (n = 20), S. bovifelis (n = 23) and S. hirsuta (n = 6), were identified by DNA sequence analysis of isolated sarcocysts. Based on sequence analysis of cox1, the level of genetic variability depended on Sarcocystis species and geographical location. Four Sarcocystis species, S. cruzi (96.1%), S. bovifelis (71.6%), S. hirsuta (30.4%) and S. hominis (13.7%), were confirmed in the digested samples. In individual samples, the most common finding was two species of Sarcocystis (44.1%), followed by three species (26.5%), a single species (24.5%) and four species (4.9%).

CONCLUSIONS

Although examination of tissue preparations under the light microscrope did not detect any sarcocysts belonging to S. hominis, this species was identified in the digested samples subjected to a cox1-specific PCR analysis. These results demonstrate the need for effective molecular diagnosis techniques to detect Sarcocystis spp., which may be present at a lower prevalence and not detectable among the limited number of sarcocysts identified individually under the light microscope.

摘要

背景

已知有 6 种肉孢子虫物种以牛（Bos taurus）为中间宿主，其中 2 种，即 S. hominis 和 S. heydorni，是人畜共患病。因此，需要一种能够快速识别牛中肉孢子虫物种的方法。

方法

使用两种不同的物种鉴定方法，检查来自立陶宛的 102 头牛的膈肌肌肉中是否存在 Sarcocystis spp。使用光学显微镜从膈肌的挤压准备物中分离单个肉孢子囊，然后对切除的囊进行遗传特征分析，使用 18S rRNA（18S rRNA）和细胞色素 c 氧化酶亚基 I（cox1）基因的序列分析。对相同的牛肌肉样本进行消化，并针对 cox1 开发了种特异性 PCR 分析，以将肉孢子虫分离物鉴定到种的水平。

结果

在光学显微镜下，87.3%的动物中检测到肉孢子囊，所有消化样本均验证了肉孢子虫感染。通过对分离肉孢子囊的 DNA 序列分析，鉴定出 3 种肉孢子虫，即 S. cruzi（n = 20）、S. bovifelis（n = 23）和 S. hirsuta（n = 6）。基于 cox1 的序列分析，遗传变异程度取决于肉孢子虫物种和地理位置。通过消化样本中的 cox1 特异性 PCR 分析，确认了 4 种肉孢子虫，即 S. cruzi（96.1%）、S. bovifelis（71.6%）、S. hirsuta（30.4%）和 S. hominis（13.7%）。在单个样本中，最常见的发现是两种肉孢子虫（44.1%），其次是三种（26.5%）、一种（24.5%）和四种（4.9%）。

结论

尽管在光学显微镜下检查组织准备物时未检测到属于 S. hominis 的肉孢子囊，但在进行 cox1 特异性 PCR 分析的消化样本中鉴定出了该物种。这些结果表明，需要有效的分子诊断技术来检测肉孢子虫属，该属可能存在较低的流行率，并且在光学显微镜下单独识别的有限数量的肉孢子囊中可能无法检测到。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e131/7720396/66bddad4b414/13071_2020_4473_Fig1_HTML.jpg

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立陶宛牛源四种肉孢子虫（包括人源肉孢子虫）的分子鉴定及快速分子检测方法的建立。

Molecular identification of four Sarcocystis species in cattle from Lithuania, including S. hominis, and development of a rapid molecular detection method.

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BACKGROUND

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