Development and application of an indirect ELISA to detect antibodies to Neospora caninum in cattle based on a chimeric protein rSRS2-SAG1-GRA7.

Neospora caninum is an important apicomplexan parasite causing neosporosis in cattle. The disease is recognized as one of the most important cause of reproductive problems and abortion in cattle worldwide. In this context, we developed an indirect enzyme-linked immunosorbent assays (ELISA) with chimeric protein rSRS2-SAG1-GRA7 to diagnose antibodies to Neospora-infection. This indirect ELISA was compared to indirect fluorescent antibody test (IFAT) and western blotting (WB), and the sensitivity and specificity results of ELISA were calculated to be 86.7 and 96.1%, respectively. The overall coincidence rate was 92.6% using IFAT and WB. Additionally, 329 aborting dairy cattle serum samples were tested using this ELISA to evaluate the prevalence of N. caninum in Ningxia, China. The positive rate of N. caninum in these farms was from 19.05 to 57.89%, and the mean rate was 41.64% (±11.01%), indicating that infection with N. caninum may be one of the important causes of cattle abortion in this region. This established rSRS2-SAG1-GRA7 indirect ELISA is capable for detecting the antibodies against N. caninum, and it could be a useful screening tool for monitoring the epidemiology of neosporosis in cattle.

The mitogenome of Ophidascaris wangi isolated from snakes in China.

Different species of the genus Ophidascaris (Baylis, 1921; Nematoda: Ascaridida, Ascaridoidea) are intestinal parasites of various snake species. More than 30 Ophidascaris species have been reported worldwide; however, few molecular genetic studies have been conducted on this genus. We sequenced the complete mitogenome of Ophidascaris wangi parasitizing two snake species of the family Colubridae, i.e., Elaphe carinata (Günther, 1864) and Dinodon rufozonatum. The mitogenome sequence of O. wangi was approximately 14,660 base pairs (bp) long and encoded 36 genes, including 12 protein-coding genes (PCGs), 2 ribosomal RNA (rRNA) genes, and 22 transfer RNA genes. Gene arrangement, genome content, and transcription direction were in line with those in Toxascaris leonina (Linstow, 1902; Ascaridida: Ascarididae). Phylogenetics of O. wangi and other ascaridoids were reconstructed based on the concatenated amino acid sequences of 12 PCGs, and on nucleotide sequences of 12 PCGs and two rRNA genes. Phylogenetic analyses were performed using maximum likelihood and Bayesian inference methods, and the results suggested that O. wangi constitutes a sister clade of Ascaris, Parascaris, Baylisascaris, and Toxascaris within the family Ascarididae, which is a sister clade of Toxocaridae. The mitogenome sequence of O. wangi obtained from the present study will be useful for future identification of the nematode worms in the genus Ophidascaris and will increase the understanding of population genetics, molecular epidemiology, and phylogenetics of ascaridoid nematodes in snakes.

Molecular detection and genotype distribution of Enterocytozoon bieneusi in farmed silver foxes (Vulpes vulpes) and arctic foxes (Vulpes lagopus) in Shandong Province, eastern China.

Enterocytozoon bieneusi is an opportunistic enteric pathogen which can infect a wide range of animal species and humans. It is the most diagnosed species of Microsporidia in humans and has an impact on public health. Many infected animals including foxes may be a potential source for transmitting E. bieneusi to humans. However, limited information is available on the E. bieneusi prevalence and genotypes in farmed foxes in China. Therefore, in the present study, 344 fresh fecal samples were collected from farmed foxes (Vulpes vulpes and Vulpes lagopus) in Shandong Province, and the prevalence and genotypes of E. bieneusi were examined based on sequence analysis of the ribosomal internal transcribed spacer (ITS) region. The overall E. bieneusi prevalence was 9% (31/344); of them, 6.5% (9/138) in farmed silver foxes (V. vulpes) and 10.7% (22/206) in farmed arctic foxes (V. lagopus). Moreover, four known (Hum-q1, NCF2, HND-1, and Type IV) and two novel E. bieneusi genotypes (SDF1 and SDF2) were identified in farmed foxes in the present study. All of the E. bieneusi genotypes belonged to the zoonotic group based on phylogenetic analysis. In addition, 2, 4, 0, and 11 samples were successfully amplified at MS1, MS3, MS4, and MS7 loci, respectively. The present study reveals E. bieneusi prevalence and genotype distribution in farmed foxes in Shandong Province and enlarged the host and geographic information of E. bieneusi in China.

Evaluation of immune protection against Toxoplasma gondii infection in mice induced by a multi-antigenic DNA vaccine containing TgGRA24, TgGRA25 and TgMIC6.

Toxoplasma gondii infection is prevalent in humans and animals worldwide. In this study, recombinant eukaryotic expression plasmids (pVAX-GRA24, pVAX-GRA25 and pVAX-MIC6) were constructed, and then injected into Kunming mice intramuscularly, as cocktailed plasmids or as single-gene plasmids. We evaluated immune protective responses by detecting the titer of antibodies and cytokine production of IFN-γ, IL-2, IL-4, IL-10, IL-12 and IL-23, the percentages of the subclasses of T lymphocytes, as well as the records of the survival time and cyst decrement in the brain of the mouse model after challenge with the T. gondii RH and Pru strains, respectively. Compared with the control groups, antibody and cytokine production were significantly increased, while the survival times of mice in all immunized groups were also prolonged, and the number of T. gondii cysts in their brains were decreased significantly (29.03% for pVAX-GRA24; 40.88% for pVAX-GRA25; 37.70% for pVAX-MIC6; 48.06% for pVAX-GRA24 + pVAX-GRA25; and 55.37% for pVAX-GRA24 + pVAX-GRA25 + pVAX-MIC6). The mouse group immunized with the three-gene cocktail (TgGRA24 + TgGRA25 + TgMIC6) had better performance in each detection index than the mouse groups immunized with the two-gene cocktail of TgGRA24 + TgGRA25, which was better than that in the group immunized with the single gene vaccine of TgGRA24, TgMIC6 or TgGRA25. In conclusion, TgGRA24 or TgGRA25 may be good vaccine candidates against T. gondii infection, but the three-gene cocktail of TgGRA24, TgMIC6 and TgGRA25 may induce the strongest protective immunity. Further studies of multi-antigenic DNA vaccines or cocktailed vaccines against T. gondii infection are necessary.

TITLE: Évaluation de la protection immunitaire contre l'infection par Toxoplasma gondii chez la souris, induite par un vaccin à ADN multi-antigénique contenant TgGRA24, TgGRA25 et TgMIC6. ABSTRACT: L'infection à Toxoplasma gondii est répandue chez les humains et les animaux dans le monde entier. Dans cette étude, des plasmides d'expression eucaryotes recombinants (pVAX-GRA24, pVAX-GRA25 et pVAX-MIC6) ont été construits, puis injectés à des souris Kunming par voie intramusculaire, comme cocktails de plasmides ou comme plasmides à un seul gène. Nous avons évalué les réponses de protection immunitaire en détectant le titre des anticorps et la production de cytokines IFN-γ, IL-2, IL-4, IL-10, IL-12 et IL-23, les pourcentages des sous-classes des lymphocytes T, ainsi qu'en mesurant les temps de survie et de décrément des kystes dans le cerveau du modèle souris après challenge par les souches RH et Pru de T. gondii, respectivement. Comparativement aux groupes témoins, la production d'anticorps et de cytokines était significativement accrue, tandis que le temps de survie des souris de tous les groupes immunisés était également prolongé et que le nombre de kystes de T. gondii dans leur cerveau diminuait de manière significative (29,03 % pour pVAX-GRA24 ; 40,88 % pour pVAX-GRA25 ; 37,70 % pour pVAX-MIC6 ; 48,06 % pour pVAX-GRA24 + pVAX-GRA25 ; 55,37 % pour pVAX-GRA24 + pVAX-GRA25 + pVAX-MIC6). Le groupe de souris immunisées avec les cocktails à trois gènes (TgGRA24 + TgGRA25 + TgMIC6) présentait la meilleure performance dans chaque indice de détection par rapport aux groupes de souris immunisées avec des cocktails à deux gènes de TgGRA24 + TgGRA25, qui était supérieur à ceux immunisés avec les vaccins monogéniques TgGRA24, TgMIC6 ou TgGRA25. En conclusion, TgGRA24 ou TgGRA25 peuvent être de bons candidats au vaccin contre l'infection à T. gondii, mais un cocktail à trois gènes de TgGRA24, TgMIC6 et TgGRA25 peut induire la plus forte immunité protectrice. Des études supplémentaires sur les vaccins à ADN multi-antigéniques ou les vaccins en cocktail contre l'infection à T. gondii sont nécessaires.

The complete mitochondrial genomes of Gnathostoma doloresi from China and Japan.

Gnathostoma doloresi is one of the neglected pathogens causing gnathostomiasis. Although this zoonotic parasite leads to significant socioeconomic concerns globally, little is known of its genetics and systematics. In the present study, we sequenced and characterized the complete mitochondrial (mt) genomes of G. doloresi isolates from China and Japan. The lengths of the mt genomes of the G. doloresi China and Japan isolates are 13,809 and 13,812 bp, respectively. Both mt genomes encode 36 genes, including 12 protein-coding genes (PCGs), 2 ribosomal RNA genes, and 22 transfer RNA genes. The gene order, transcription direction, and genome content are identical with its congener G. spinigerum. Phylogenetic analyses based on concatenated amino acid sequences of 12 PCGs by Bayesian inference (BI) indicated that G. doloresi are closely related to G. spinigerum. Our data provide an invaluable resource for studying the molecular epidemiology, phylogenetics, and population genetics of Gnathostoma spp. and should have implications for further studies of the diagnosis, prevention, and control of gnathostomiasis in humans and animals.

MIC16 gene represents a potential novel genetic marker for population genetic studies of Toxoplasma gondii.

BACKGROUND: The zoonotic agent Toxoplasma gondii is distributed world-wide, and can infect a broad range of hosts including humans. Microneme protein 16 of T. gondii (TgMIC16) is responsible for binding to aldolase, and is associated with rhomboid cleavage and presence of trafficking signals during invasion. However, little is known of the TgMIC16 sequence diversity among T. gondii isolates from different hosts and geographical locations. RESULTS: In this study, we examined sequence variation in MIC16 gene among T. gondii isolates from different hosts and geographical regions. The entire genomic region of the MIC16 gene was amplified and sequenced, and phylogenetic relationship was reconstructed using Bayesian inference (BI) and maximum parsimony (MP) based on the MIC16 gene sequences. The results of sequence alignments showed two lengths of the sequence of MIC16 gene among all the examined 12 T. gondii strains: 4391 bp for strains TgCatBr5 and MAS, and 4394 bp for strains RH, TgPLH, GT1, PRU, QHO, PTG, PYS, GJS, CTG and TgToucan. Their A+T content ranged from 50.30 to 50.59 %. A total of 107 variable nucleotide positions (0.1-0.9 %) were identified, including 29 variations in 10 exons and 78 variations in 9 introns. Phylogenetic analysis of MIC16 sequences showed that typical genotypes (Type I, II and III) were able to be grouped into their respective genotypes. Moreover, the three major clonal lineages (Type I, II and III) can be differentiated by PCR-RFLP using restriction enzyme Pst I. CONCLUSIONS: Phylogenetic analysis and PCR-RFLP of the MIC16 locus among T. gondii isolates from different hosts and geographical regions allowed the differentiation of three major clonal lineages (Type I, II and III) into their respective genotypes, suggesting that MIC16 gene may provide a novel potential genetic marker for population genetic studies of T. gondii isolates.

[Morphological Characteristics and Molecular Identification of Trichuris sp. from Giraffe].

Objective: To investigate the morphological characteristics of Trichuris sp. from giraffe in Hefei wild zoo and identify its species using molecular techniques. Methods: Morphological characteristics of Trichuris collected from giraffe were analyzed. The internal transcribed spacer 1（ITS-1） was amplified by PCR and the PCR product was sequenced. The resulting sequence was homology analysis in GenBank and its heredity evolution tree was constructed by MEGA 4.0 software. Results: The male worms had a body length of 35.89-58.56 mm, an esophagus to body length ration of 0.29-0.40, and a spicule length of 1.96-3.89 mm. The thick and thin proportions of body were 7.02-23.45 mm and 28.05-40.05 mm respectively. These data showed different degrees of variation with previous reports. The PCR resulted in a product of 491 bp, comprising part of 18S rRNA and full length ITS-1. Sequence alignment showed that the identified Trichuris was most homologous（98.6%） with T. bos taurus HE608848, T. capreolus JX218218, and T. japanese AB367795, but it was only 46.0% homologous with T. discolor AB367794. In the heredity evolution tree, it was not located on the same branch as T. discolor, T. ovis and T. bos taurus. Conclusions: The Trichuris sp. collected from giraffe is different from previous reports in morphology and ITS-1 sequence. Further research is needed to determine if it is a new species.

[Establishment of LAMP Detection for Toxoplasma gondii Based on the 529 bp Repeat Sequence].

Objective: To establish the loop mediated isothermal amplification（LAMP） technique for determining Toxoplama gondii. Methods: The primers for LAMP of the conserved 529 bp sequence was designed by the Primer Explorer 4.0 software. The LAMP reaction was made on the constructed pMD-19T-529 bp recombinant plasmid as a template, and was optimized in loop primer, concentrations of betaine and MgSO4, and reaction temperature. The optimized LAMP and PCR were performed in ultra-pure water, on pig genome, Cryptosporidium parvum genome, Isospora suis genome, and pMD-19T-529 bp, respectively, to test the sensitivity of LAMP. The pMD-19T-529 bp was serially diluted to 109-100 copies/ml to test the specificity of LAMP. Results: LAMP using the designed primers amplified the 529 bp fragment of T. gondii. The optimized LAMP system had a total reaction volume of 25 µl, with the optimal concentrations of betaine and MgSO4 being 0.4 mol/L and 6 mmol/L, respectively. The amplification efficiency of 30 min reaction in the presence of loop primer was comparable to that of 60 min reaction without loop primer, which indicated that addition of loop primer shortened the reaction time by 30 min. The optimal reaction condition was 63 ℃ 30 min, 80 ℃ 3 min. The established LAMP method specifically amplifed the 529 bp fragment of T. gondii, and its efficiency was 10 times of PCR（detection threshold 103 copies/ml vs. 104 copies/ml）. Conclusion: The established LAMP for detecting Toxoplama gondii 529 bp repeat sequence shows high specificity and sensitivity.

Genetic Diversity of Toxoplasma gondii Strains from Different Hosts and Geographical Regions by Sequence Analysis of GRA20 Gene.

Toxoplasma gondii is a eukaryotic parasite of the phylum Apicomplexa, which infects all warm-blood animals, including humans. In the present study, we examined sequence variation in dense granule 20 (GRA20) genes among T. gondii isolates collected from different hosts and geographical regions worldwide. The complete GRA20 genes were amplified from 16 T. gondii isolates using PCR, sequence were analyzed, and phylogenetic reconstruction was analyzed by maximum parsimony (MP) and maximum likelihood (ML) methods. The results showed that the complete GRA20 gene sequence was 1,586 bp in length among all the isolates used in this study, and the sequence variations in nucleotides were 0-7.9% among all strains. However, removing the type III strains (CTG, VEG), the sequence variations became very low, only 0-0.7%. These results indicated that the GRA20 sequence in type III was more divergence. Phylogenetic analysis of GRA20 sequences using MP and ML methods can differentiate 2 major clonal lineage types (type I and type III) into their respective clusters, indicating the GRA20 gene may represent a novel genetic marker for intraspecific phylogenetic analyses of T. gondii.

Evaluation of immuno-efficacy of a novel DNA vaccine encoding Toxoplasma gondii rhoptry protein 38 (TgROP38) against chronic toxoplasmosis in a murine model.

BACKGROUND: Toxoplasma gondii is an obligate intracellular parasite which can infect almost all mammalian animals, leading to toxoplasmosis. T. gondii rhoptry protein 38 (TgROP38) is an active rhoptry protein kinase which is involved in the inhibitory effect on host cell transcription by down-regulating the MAPK signaling track. METHODS: TgROP38 gene was amplified and inserted into eukaryotic vector pVAX I and formed the DNA vaccine pVAX-ROP38. Mice in the experimental group were intramuscularly immunized with pVAX-ROP38 and those injected with pVAX I, PBS or nothing were treated as controls. After three injections at two week intervals, all mouse groups were challenged intraperitoneally with 1000 tachyzoites of the virulent T. gondii RH strain (Type I, ToxoDB #10) and 10 cysts of the PRU strain (Type II, ToxoDB #1), respectively. RESULTS: Mice inoculated with pVAX-ROP38 vaccine had a higher level of IgG antibodies (P < 0.01) and T lymphoproliferative response. The high ratio of IgG2a/IgG1 and the increasing levels of IFN-γ and IL-2 (P < 0.05) indicated an activated Th1 cell-mediated immune responses. Furthermore, the CD4+ and CD8+ proportions in vaccinated mice were also increased significantly compared with that in mice of the three control groups (P < 0.01). In the model of acute infection, the average survival time of mice in the pVAX-ROP38 group (8.1 days ± 0.75) was no statistically different compared to that in the PBS, pVAX I and blank control groups which died within 7 days. However, in the model of chronic infection, the brain cyst reduction in the pVAX-ROP38 group reached 76.6%, compared to controls (P < 0.01). CONCLUSIONS: The present study revealed that the pVAX-ROP38 vaccine could elicit strong humoral and cell immunity response against chronic T. gondii infection in mice, resulting in the reduction of the brain cyst formation effectively, which suggests that TgROP38 is a desirable vaccine candidate against chronic T. gondii infection.

[Detection of immunity and antioxidant indexes in dairy cows infected with Cryptosporidium].

OBJECTIVE: To detect the immune status and antioxidant system indexes of cows infected with Cryptosporidium. METHODS: Fecal samples of 325 dairy cows were collected at a farm in Anhui and examined by floating saturated solution. 7 positive cows and 7 negative cows from the farm were selected as infection group and non-infection group, respectively. Blood samples were taken from cow's jugular vein before feeding in the morning. 19 indexes of total protein (TP), albumin (ALB), IgG, IgM, IgA, phagocytic rate of white blood cells, T lymphocyte transformation rate, IL-2, superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), malondialdehyde (MDA), NO, alanine aminotransferase (ALT), aspartate aminotransferase (AST), alkaline phosphatase (ALP), glucose (GLU), triglyceride (TG), Cl-, and Ca2+ were tested, respectively. RESULTS: The infection rate of 325 cows was 31.7% (103/325). The Cryptosporidium was identified as C. andersoni according to the morphology and size of oocysts. Compared with the non-infection group, there was no significant difference in the concentration of TP, ALB, IgM, IgA, GSH-Px, ALT, AST, ALP and Cl- (P > 0.05). The concentration of MDA and NO in the infection group increased by 59.9% and 28.1% (P < 0.05 or 0.01), and that of IgG, SOD, GLU, TG, Ca2+, IL-2 and the activities of T lymphocyte transformation rate, phagocytic rate of white blood cells decreased by 32.9%, 11.1%, 18.6%, 78.9%, 14.5%, 7.0%, 22.0%, and 20.2%, respectively (P < 0.05). CONCLUSION: The change of antioxidant and immune indexes shows that the capability of eliminating free radicals and the immune function have decreased in the Cryptosporidium andersoni-infected cows.