Simultaneous Detection and Genotyping of Hydatid Cysts in Slaughtered Livestock via a Direct PCR Approach.

The article's abstract is not available.


Dear Editor-in-Chief
ystic echinococcosis (CE) is a parasitic zoonosis caused by the larval stage (hydatid cysts) of Echinococcus granulosus sensu lato (s.l.), resulting in large economic losses to livestock husbandry (1). A high degree of genetic diversity between E. granulosus strains (G1, G3, G4-G8, and G10) is one of main features of this parasite, and identifying its genotype would be advantageous for prevention and control of the disease (2).
Macroscopic diagnosis at necropsy alone would resulted in a 15.4% error due to the variability of cystic morphology (3). If the cysts are small (especially below 0.2 cm), develop incomplete as well as present on uncommon parasitic sites, it would more difficult to accurately identify and distinguish them from other metacestodes of the family Taeniidae, or some cyst-like lesions (unspecific granulomas, tumours and abscesses).
Compared with visual inspection, molecular techniques, especially PCR assays using mitochondrial markers (e.g., COX1 and ND1), are being increasingly applied to CE clinical detection due to the accuracy and specificity (4). The PCR assay usually includes DNA extraction, PCR amplification and then amplification product sequencing, of which the first two steps are time consuming. To overcome this problem, a direct PCR assay has been emerged from conventional PCR and applied in parasitic species including helminths, protozoans and insect vectors (5 Herein, we specifically developed a direct PCR assay for detection and genotyping of hydatid cysts in slaughtered livestock by amplifying the complete mitochondrial NADH dehydrogenase subunit 6 gene (ND6, 457bp) of E. granulosus s.l.
In this study, the lysate of washed hydatid cysts, treated by an Animal Tissue Direct PCR Kit (Foregene, Chengdu, China) within 0.5 h, could be directly used as template in our PCR protocol.
Then, the forward (5'-TTTCGTGCTGTAGATGGT-3') and reverse (5'-CACAGATTTCAAAGGGTT-3') primers designed based on the conserved regions of eight genotypes of E. granulosus s.l., were used to amplify the complete ND6 gene (558 bp). PCR reaction volume contained 10 μL 2×PCR Easy Mix (containing D-Taq DNA polymerase), 0.5 μL of each primer (20 mM), 4.0 μL of lysate and 5 μL of doubledistilled water (dd H2O). Thermal cycling proceeded within 1 h, and conditions included an initial denaturation at 95 °C for 3 min, fol-lowed by 30 cycles of denaturation at 95 °C for 10 s, annealing at 58°C for 20 s, and extension at 72 °C for 20 s, then a final extension at 72 °C for 5 min. All testing were performed and analysed in triplicate.
The results showed that DNA of lysate of hydatid cysts could be used for this direct PCR amplification, and the amplified sequences shared a 100% identity with published ND6 gene sequence of E. granulosus (Accession Nos. KJ559023.1). No crossreactivities were found between hydatid cysts and six other metacestodes commonly found in China including E. alveolaris, Cysticercus tenuicollis, Coenurus cerebralis, C. bovis, C. cellulosa and C. viscerotropica, indicating a high species specificity of this method (Fig.1). The sensitivity analysis using serially diluted DNA with concentrations ranging from 500 ng to 2 pg revealed that DNA yielded specific bands with a detection sensitivity as low as 4 pg of DNA, indicating a high sensitivity (Fig. 2). In addition, out of 72 ambiguous hydatid cysts from the slaughter houses of Qinghai and Xinjiang provinces, 94.4% (68/72) samples were positive by the direct PCR. Moreover, the sequence data of ND6 genes showed that 65 cysts belonged to G1 genotype and three cysts belonged to G3 genotype, which were the same as the genotyping results of the COX1 gene (not shown), suggesting the ND6 gene can be also a good genetic marker for the genotyping of E. granulosus.
In conclusion, the direct PCR assay developed in this study displayed a high specificity, sensitivity and effectiveness. Moreover, a low cost with ~$0.58 per should make it an ideal tool for large-scale CE clinical detection in future.