Seroprevalence of bovine theileriosis in northern China

Background Bovine theileriosis is a common disease transmitted by ticks, and can cause loss of beef and dairy cattle worldwide. Here, an indirect enzyme-linked immunosorbent assay (iELISA) based on Theileria luwenshuni surface protein (TlSP) was developed and used to carry out a seroepidemiological survey of bovine theileriosis in northern China. Methods We used the BugBuster Ni-NTA His•Bind Purification Kit to purify recombinant TlSP (rTlSP), which was subsequently analyzed by Western Blotting to evaluate cross-reactivity with other pathogen-positive sera. The iELISA method based on rTlSP was successfully developed. Sera from 2005 blood samples were tested with the rTlSP-iELISA method, and blood smears from these samples were observed by microscopy. Results The specificity of iELISA was 98.9%, the sensitivity was 98.5%, and the cut-off was selected as 24.6%. Western Blot analysis of rTlSP confirmed that there were cross-reactions with Theileria luwenshuni, Theileria uilenbergi, Theileria ovis, Theileria annulata, Theileria orientalis and Theileria sinensis. The epidemiological survey showed that the highest positive rate of bovine theileriosis was 98.3%, the lowest rate was 84.1%, and the average positive rate was 95.4% by iELISA. With microscopy, the highest positive rate was 38.9%, the lowest rate was 5.1%, and the relative average positive rate was 13.7%. Conclusions An rTlSP-iELISA was developed to detect circulating antibodies against bovine Theileria in northern China. This is the first report on the seroprevalence of bovine theileriosis in northern China, and it also provides seroepidemiological data on bovine theileriosis in China.


Background
Bovine theileriosis is a constraint to the cattle industry in many developing countries because it causes morbidity and mortality in calves and exotic cattle [1][2][3]. Generally, indigenous cattle have developed resistance to ticks and tick-borne pathogens in endemic areas. However, the susceptibility of exotic breeds presents a major obstacle to the improvement of cattle production and breeding [4]. The causative agents of bovine theileriosis reported in China are Theileria annulata, Theileria orientalis and Theileria sinensis [3,[5][6][7]. Five kinds of ticks, namely, Hyalomma detritum, Hyalomma anatolicum anatolicum, Haemaphysalis longicornis, Haemaphysalis qinghaiensis and Haemaphysalis japonica, can transmit ovine and bovine Theileria infection in China [8]. Of them, Hya. detritum and Hya. anatolicum anatolicum can transmit T. annulata [9], and Hya. anatolicum anatolicum can also transmit Theileria ovis [10]; Haem. longicornis and Haem. qinghaiensis can transmit Theileria luwenshuni and Theileria uilenbergi; Haem. longicornis can also transmit T. orientalis; and T. sinensis can be transmitted by Haem. qinghaiensis and Haem. japonica [6,11,12]. The geographical distribution of tick species linked to ovine and bovine Theileria spp. in China is listed in Fig. 1.
In the early phase, bovine theileriosis can be diagnosed based on observing ticks feeding on cattle, superficial lymph node enlargement, Theileria schizonts in lymphocytes with microscopic examination, and other clinical symptoms [3,9]. Subsequently, Theileria parasites can be detected and identified in animals and ticks by polymerase chain reaction (PCR) [13,14], reverse line blot (RLB) hybridization assay [15,16], and loop-mediated isothermal amplification (LAMP) [17,18]. Serodiagnosis of bovine theileriosis is performed by an indirect fluorescent antibody test (IFAT) [19][20][21]. Some enzyme-linked immunosorbent assays (ELISAs) to detect circulating antibodies against T. annulata were developed based on recombinant protein T. annulata surface protein (TaSP) or Tams1 [22][23][24]. At present, the ELISA method is widely applied as a cheap, fast and high-throughput method to screen and diagnose large numbers of clinical and field specimens.
T. luwenshuni surface protein (TlSP) is a transmembrane protein that contains eight antigen peptides [21][22][23]. It shows that TlSP owns some candidate epitopes. TlSP shares a high similarity with TaSP [25][26][27]. TaSP is identified as an immunodominant antigen, and it successfully used to develop and to validate a recombinant-proteinbased ELISA for detecting the circulating antibodies of T. annulata-infected animals [22,23,28]. So, we concluded that we could use recombinant TlSP (rTlSP) as a diagnostic antigen in the ELISA. At present, serological epidemiological data about bovine theileriosis are deficient because of a lack of commercial or mature ELISA kits in China. Therefore, the objectives of this study were to develop an iELISA based on rTlSP, and to perform a prevalence study of bovine theileriosis with the iELISA and microscopic examination in northern China.

Preparation of recombinant TlSP
The functional fragment gene of TlSP was obtained from the merozoites cDNA library of T. luwenshuni using primers TlSP-F (5′-GGA ATT CGA TCG ACA ACG GAA TCC T-3′) and TlSP-R (5′-CCA AGC TTT AAC CCG TCA GAG TCA T-3′) [25]. The TlSP gene was inserted and expressed in the pET30a vector. The expression of rTlSP was verified by Western Blotting using anti-histidine antibody, and rTlSP was purified using the BugBuster Ni-NTA His•Bind Purification Kit (Invitrogen, Carlsbad, CA, USA).

Western blotting
rTlSP was separated using 12% SDS-PAGE under reducing conditions and transferred to nitrocellulose membranes of 0.45 mm pore size (Amersham, Piscataway,

Sera
Ninety-two negative sera (negative control) were collected from Chinese Holstein cattle at Lanzhou Dairy Farm, which is located in Lanzhou City, and neither ticks nor bovine theileriosis have been detected in the region for many years. Meanwhile, the whole blood samples with anticoagulant were collected and their smears were prepared. Ninety-two blood smears were negative by microscopic examination (ME); their relative sera were also negative by IFAT; and genomic DNA from 92 blood samples was negative by PCR [29]. As the 736 positive sera by IFAT (including 90 positive sera only by IFAT, and 646 positive sera by IFAT, PCR and ME), they were randomly picked from samples which were collected from local cattle in Xinjiang, an epidemic area of bovine theileriosis. Positive (n = 736) and negative (n = 92) sera were used in the next methods. The mixture of all positive sera was used as the positive control and the mixture of all negative sera was used as the negative control in the ELISA.
There are an estimated 30 million cattle in the study region [30]. The number of samples was calculated and collected according to twenty percent of the cattle population in selected sites, where the blood samples were permitted to be collected. A total of 2005 blood samples (including sera and whole blood with anticoagulant) were collected in 2011, 2012 and 2013 from 11 different provinces of northern China (Fig. 2): Xinjiang, Tibet, Qinghai, Gansu, Inner Mongolia, Shaanxi, Hebei, Henan, Shandong, Jilin, and Liaoning, most of which are epidemic areas for bovine theileriosis. The blood smears were prepared from peripheral blood and examined by microscopy. All of the serum samples were prepared and detected with iELISA, and the genomic DNA of all whole blood samples was extracted and detected by molecular methods. All sera were divided into five equal parts. These sera and their relative genomic DNA were preserved at −20°C until utilizing them at Lanzhou Veterinary Research Institute.

Detection of samples by microscopic examination
Thin blood smears were prepared from peripheral blood of cattle. The smears were air-dried, fixed in methanol, stained with a 10% solution of Giemsa in PBS (pH 7.2), and then subjected to microscopic analysis. One hundred fields per slide were searched for the presence of Theileria piroplasms.

Cross-reactivity with hemoparasite sera
The weight of recombinant TlSP was~38 kDa. Western blotting of rTlSP confirmed that there was specific recognition of the recombinant antigen rTlSP by the positive sera of T. luwenshuni, T. uilenbergi, T. ovis, T. annulata, T. orientalis and T. sinensis; but there was no specific recognition of rTlSP with the positive sera of B. bovis, B. bigemina, B. major, A. marginale, Br. abortus and Bovine epizootic fever virus (Fig. 2).

Serological epidemiology
The prevalence of bovine theileriosis in 11 provinces is listed in Table 2 with ELISA and microscopic examination. The epidemiology results showed that the average sera-positive rate of bovine theileriosis was 95.4% by ELISA, the highest rate was 98.3% in Xinjiang Province, and the lowest rate was 84.1% in Qinhai Province. The highest prevalence was 38.9% in Shannxi Province by microscopic examination, the lowest was 5.1% in Tibet Province, and the average was 13.7%.

Discussion
Serological surveillance of bovine theileriosis has been conducted in many countries [19,20,[22][23][24][32][33][34][35]. However, there is no previous report from China because of the lack of domestic commercial or mature ELISA kits that can detect bovine Theileria antibodies. In addition, the foreign ELISA kits are more expensive. Compared to other methods, the advantages of ELISA are that they are less laborious and easier to perform, and a large number of samples can be detected and screened in a short time. In addition, compared to ELISA using crude antigens (such as whole parasite antigens), recombinant-protein-based ELISAs reduce false results. Serological assays are more suitable for diagnosis in the mid and late phase of theileriosis and in carrier animals (e.g. cattle, buffalo and yaks) in which the antibody titers against Theileria parasites are usually higher but the piroplasm parasitemia maybe drop to undetectable levels with microscopic examination [22].
The ELISA based on rTlSP has proven to be a highly specific and sensitive assay for detecting the circulating antibodies against Theileria spp. in China. Three bovine Theileria spp. have been reported in China [3,5,6,12], and their specific positive sera against each pathogen   were analyzed with Western Blotting and ELISA in this study; all of them cross-reacted with rTlSP. As a comparison, there was no cross-reactivity between rTlSP and positive sera of B. bovis, B. major, B. bigemina, A. marginale, Br. abortus and Bovine epizootic fever virus in Western Blotting. We chose 736 positive samples to calculate the sensitivity and specificity accurately. They included the strong positive samples (646 positive sera by IFAT, PCR and ME) and the faint positives samples (90 positive sera only by IFAT). The employ of weak positive specimen makes the cut-off value to be reasonable and can avoid false negative results.
The cut-off value resulting in both maximal sensitivity and specificity was determined by two-graph ROC analysis, ROC plots efficiency, Youden's index and likelihood ratios [36]. The data showed that the AUC was 0.996 in ROC plots, which demonstrated the accuracy of the index. The test was reliable, and the indexes are the best performance because the area is closer to 1 [37]. Moreover, AUC is a quantitative, descriptive expression of how close the ROC curve is to the perfect one (AUC = 1.0) [38]. Youden index J was 0.9742, which indicated that, unusually, there were neither false-positive nor false-negative results from the test [39]. Compared with the positive rate with microscopy, which was <40% at the highest, iELISA based on rTlSP is suitable for detecting antibodies against bovine Theileria spp. Therefore, the method can estimate whether the local cattle had been infected by Theileria spp. before the cattle were detected. It remains to be detected by blood smears and molecular methods, such as PCR, RLB and LAMP, to diagnose whether the cattle are infected by Theileria spp. After the cattle infected with Theileria parasites recovered, most remained in a state of low parasitemia or carrier state for 3-6 months (data unpublished). Investigation of bovine theileriosis is of veterinary significance.
The epidemiological survey indicated that all the provinces investigated had a high positive rate from 84.1 to 98.3% with iELISA. In comparison, the positive rate was 5.1-38.9% by microscopic examination. Microscopic examination can diagnose Theileria parasites in the early and middle phase of theileriosis, whereas, in the later phase and carrier state, parasitemia tends to a low level so that Theileria can not be detected by microscopic examination. For example, in Tibet, the positive rate was 5.1% by microscopic examination, but up to 98.1% by ELISA.

Conclusions
The epidemiological data showed that bovine theileriosis was widespread in northern China. Therefore, some efficient measures should be implemented for calves and exotic cattle in northern China.