Abstracts

Introduction

Neospora caninum is a protozoan parasite that is distributed worldwide and is a major cause of abortion in cattle (DUBEY; SCHARES, 2006Dubey JP, Schares G. Diagnosis of bovine neosporosis. Vet Parasitol 2006; 140(1-2): 1-34. PMid:16730126. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.03.035
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.... ). Animals may be infected via three routes: ingestion of sporulated oocysts; transmission from dams to fetuses (vertical); and through meat containing tissue cysts. Cattle, as herbivorous animals, are infected via the first and second routes. In dairy herds, transmission principally occurs vertically (SCHARES et al., 1998Schares G, Peters M, Wurm R, Bärwald A, Conraths FJ. The efficiency of vertical transmission of Neospora caninum in dairy cattle analysed by serological techniques. Vet Parasitol 1998; 80(2): 87-98. http:∕∕dx.doi.org∕10.1016∕S0304-4017(98)00195-2
http:∕∕dx.doi.org∕10.1016∕S0304-4017(98)... ; BARTELS et al., 2007Bartels CJM, Huinink I, Beiboer ML, Van Schaik G, Wouda W, Dijkstra T, et al. Quantification of vertical and horizontal transmission of Neospora caninum infection in Dutch dairy herds. Vet Parasit 2007; 148(2): 83-92. PMid:17640807. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2007.06.004
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2007.... ). Vertical transmission can occur throughout the gestation period; however, abortions are most prevalent at 3 to 6 months of pregnancy (DUBEY; SCHARES, 2006Dubey JP, Schares G. Diagnosis of bovine neosporosis. Vet Parasitol 2006; 140(1-2): 1-34. PMid:16730126. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.03.035
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.... ). However, female calves can be born infected without any sign of infection and can keep the parasite in their tissue while they are raised, such that when they become pregnant, they may transmit the parasite to their offspring. This type of transmission is known as endogenous transplacental infection (TREES; WILLIAMS, 2005Trees AJ, Williams DJL. Endogenous and exogenous transplacental infection in Neospora caninum and Toxoplasma gondii. Trends Parasitol 2005; 21(12): 558-561. PMid:16223599. http:∕∕dx.doi.org∕10.1016∕j.pt.2005.09.005
http:∕∕dx.doi.org∕10.1016∕j.pt.2005.09.0... ).

Neosporosis has been described as an important cause of abortion in southern Brazil (CORBELLINI et al., 2001Corbellini LG, Driemeier D, Mori AM, Traverso SD. Evaluation of Neospora caninum-associated abortion storm in a dairy herd in Santa Catarina, Brazil. Rev Bras Reprod Animal 2001; 25(2): 258-259., 2002Corbellini LG, Driemeier D, Cruz CFE, Gondim LFP, Wald V. Neosporosis as a cause of abortion in dairy cattle in Rio Grande do Sul, southern Brazil. Vet Parasitol 2002; 103(3): 195-202. http:∕∕dx.doi.org∕10.1016∕S0304-4017(01)00600-8
http:∕∕dx.doi.org∕10.1016∕S0304-4017(01)... ; LOCATELLI-DITTRICH et al., 2001Locatelli-Dittrich R, Soccol VT, Richartz RRTB, Gasino-Joineau ME, Vinne R, Pinckney RD. Serological diagnosis of neosporosis in a herd of dairy cattle in southern Brazil. J Parasitol 2001; 87(6): 1493-1494. PMid:11780849.). Locatelli-Dittrich et al. (2001)Locatelli-Dittrich R, Soccol VT, Richartz RRTB, Gasino-Joineau ME, Vinne R, Pinckney RD. Serological diagnosis of neosporosis in a herd of dairy cattle in southern Brazil. J Parasitol 2001; 87(6): 1493-1494. PMid:11780849. reported that the abortion risk in N. caninum-seropositive dairy cows was four times higher than in seronegative dairy cows. Corbellini et al. (2002)Corbellini LG, Driemeier D, Cruz CFE, Gondim LFP, Wald V. Neosporosis as a cause of abortion in dairy cattle in Rio Grande do Sul, southern Brazil. Vet Parasitol 2002; 103(3): 195-202. http:∕∕dx.doi.org∕10.1016∕S0304-4017(01)00600-8
http:∕∕dx.doi.org∕10.1016∕S0304-4017(01)... used both histopathological and serum sample examination from bovine aborted fetuses, and described a high rate of occurrence ofN. caninum as the cause of abortion throughout the state of Rio Grande do Sul.

Although several studies relating to neosporosis among dairy cattle have been conducted, the documentation of vertical transmission in Brazilian herds remains inadequate. Thus, the aim of the present study was to evaluate anti-N. caninum antibody occurrence in serum samples, and vertical transmission of N. caninum from dairy cows slaughtered at an abattoir located in the southern region of Brazil.

Materials and Methods

The 120 samples were obtained from pregnant and non-pregnant dairy cows (Bos taurus) and their respective fetuses at an abattoir located in the municipality of Presidente Getúlio, state of Santa Catarina, southern Brazil during 2010 year. The present study was approved by the Animal Ethics Committee of the State University of Londrina (N. 018∕2009).

Antibodies against N. caninum were detected by means of the HerdCheck Neospora caninum Antibody Test Kit (Idexx Laboratories). Serum samples from the cows were diluted at the ratio of 1:100, and serum from fetuses at 1:25.

Blood samples with EDTA were collected individually in sterile tubes from the pregnant cows after they had been bled along the inspection line (during bleeding of the animals) and from their fetuses by means of cardiac puncture. The white blood cells were separated by centrifugation (550 g for 10 minutes), and were used for DNA extraction and subsequent PCR analyses. The uterus of the dams was obtained individually with the fetuses inside. Each uterine horn containing the fetuses was aseptically opened, the fetuses were taken out from the uterus, and organ material was collected on individual sterilized Petri plates. At the laboratory, approximately 10 g of tissue fragments (brain and myocardium) were collected from fetuses ≥ 3 months of age, while similar tissue fragments (10 g) for fetuses ≤2 months were pooled for DNA extraction. The tissue samples were homogenized with 10 mL of saline solution (0.14 M of NaCl), after which the homogenate was filtered, and 2 mL were used for DNA extraction.

The DNA extraction was performed using the DNeasy Blood & Tissue Kit (QIAGEN Sample & Assay Technologies, Brazil), following the manufacturer's recommendations. PCR analyses were performed as previously described (MARQUES et al., 2011Marques FAC, Headley SA, Figueredo-Pereira V, Taroda A, Barros LD, Cunha IAL, et al. Neospora caninum: evaluation of vertical transmission in slaughtered beef cows (Bos indicus). Parasitol Res 2011; 108(4): 1015-1019. PMid:21063729. http:∕∕dx.doi.org∕10.1007∕s00436-010-2146-x
http:∕∕dx.doi.org∕10.1007∕s00436-010-214... ). Amplification of N. caninum DNA was done by using the Np21 and Np6 primers (MULLER et al., 1996Muller N, Zimmermann V, Hentrich B, Gottstein B. Diagnosis of Neospora caninum and Toxoplasma gondii infection by PCR and DNA hybridization immunoassay. J Clin Microbiol 1996; 34(11): 2850-2852.). The PCR cycle was performed on a mixture (final volume of 25 mL) containing 5 mL of extracted DNA admixed with 20 mL of a solution containing 1.0 mM of each primer, 100 mM of dNTP (Invitrogen, Life Technologies, USA), 60 mM of Tris-HCl (pH 9.0), 15 mM of (NH₄)₂SO₄, 1.5 mM of MgCl₂, and 0.5 U of Taq DNA polymerase (Invitrogen Life Technologies, USA). Amplification of parasitic genomic DNA was done over 35 cycles in a PTC-100 thermocycler (MJ-Research), using the following cycling conditions: 5 minutes at 94 °C, followed by 35 cycles of 30 seconds at 94 °C, 30 seconds at 65 °C and 60 seconds at 72 °C; the 35^thcycle was followed by a final extension of 7 minutes at 72 °C. Aliquots from each PCR were viewed by means of electrophoresis on 2% agarose gel. For positive controls, DNA extracted from tachyzoites of the NC-1 strain (10⁶∕mL) of N. caninum, diluted in TE buffer, were used. The negative control consisted of commercially prepared water samples without N. caninum. One positive and one negative control was included in each assay.

All variables were analyzed by means of the chi-square test (χ²), with Yates correction, using the Epi Info software (CDC, version 6.04b). P-values ≤ 0.05 were taken to be significant.

Results

The serological results for N. caninum are presented inTable 1. Out of a total of 120 cows, samples from 51 (42.5%) reacted positively to N. caninum. Positive seroreactivity to N. caninumoccurred in samples from 41.6% (25∕60) of the pregnant cows, while the positivity rate among non-pregnant animals was 43.3% (26∕60); these values were not statistically different (p = 1.0). There was no statistical difference in relation to the breed of cattle (Table 1, p = 1.0). When the period of gestation was evaluated, there were no differences in the prevalence of N. caninum relative to the first (50%), second (35.7%) or third trimester (44.4%). Considering that almost all of the cows were more than four years old (116 animals), no comparisons regarding prevalence and proportionality with age were calculated.

The average optical density (OD) of the positive samples obtained from the pregnant animals was 1.64 ± 0.92, compared with 1.82 ± 0.1.05 among their non-pregnant counterparts (Table 2). In relation to the period of gestation, the mean OD was 1.18 ± 0.89 for the first, 2.16 ± 0.90 for the second and 1.28 ± 0.83 for the third trimester (p = 0.051). Comparative analysis on the PCR and serological results revealed that one of the two cows that was PCR-positive was also serologically negative, while the other was seropositive (mean OD = 1.83). Only one (cow no. 131) out of the four cows that had positive fetuses in the PCR analysis was positive in the serological test (OD = 0.55). The serological test revealed three positive fetuses; however, one of the dams was negative in ELISA.

Sixty fetuses were collected for evaluation: 14 were in the first, 28 in the second and 18 in the third trimester of gestation. Additionally, six fetuses were less than two months of age, and serum samples were not obtained from these animals. Thus, 54 serum samples from the fetuses were evaluated, and three (5.5%) of these samples were serologically positive with high antibody titers (OD > 3.1).

During this study, vertical transmission was demonstrated in 11.6% (7∕60) of the fetuses by means of PCR and serological tests. Cerebral-derived DNA from the fetuses of cow no. 87 and cow N. 111 was positive in PCR analysis. Myocardial-derived DNA from the fetuses of cow no. 74 and cow no. 131 was positive in PCR reactions (Table 2). The DNA-derived blood samples from two cows (animal nos. 13 and 95) were PCR-positive, but only one animal (no. 26) had a corresponding serum titer (OD = 1.83). However, the fetuses of these animals were PCR-negative.

Discussion

In our study, we investigated vertical transmission of N. caninum in dairy cattle slaughtered in southern Brazil. The overall results demonstrated an N. caninum vertical transmission rate of 11.6% (7∕60). Three fetuses (3∕7) had antibodies that were detected by ELISA (high levels of antibodies) and were N. caninum DNA negative in their tissue samples. One dam was serologically negative, and two others had higher antibody titers. Conversely, the other fetuses (4∕7) were positive for the presence of N. caninum DNA in their tissues and were serologically negative, and their dams had low titers of antibodies (OD = 0.2 to 0.5). Fluctuations in the results similar to these have previously been described (McINNES et al., 2006McInnes LM, Ryan UM, O'Handley R, Sager H, Forshaw D, Palmer DG. Diagnostic significance of Neospora caninum DNA detected by PCR in cattle serum. Vet Parasitol 2006; 142(3-4): 207-213. PMid:16934934. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.07.013
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.... ; DIJKSTRA et al., 2008Dijkstra T, Lam TJGM, Bartels CJM, Eysker M, Wouda W. Natural postnatal Neospora caninum infection in cattle can persist and lead to endogenous transplacental infection. Vet Parasitol 2008; 152(3-4): 220-225. PMid:18280662. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2007.12.034
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2007.... ; MORÉ et al., 2009Moré G, Bacigalupe D, Basso W, Rambeaud M, Beltrame F, Ramirez B, et al. Frequency of horizontal and vertical transmission for Sarcocystis cruzi and Neospora caninum in dairy cattle. Vet Parasitol 2009; 160(1-2): 51-54. PMid:19070964. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2008.10.081
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2008.... ; YAO et al., 2009Yao L, Yang N, Liu Q, Wang M, Zhang W, Qian WF, et al. Detection of Neospora caninum in aborted bovine fetuses and dam blood samples by nested PCR and ELISA and seroprevalence in Beijing and Tianjin, China. Parasitology 2009; 136(11): 1251-1256. PMid:19660160. http:∕∕dx.doi.org∕10.1017∕S0031182009990813
http:∕∕dx.doi.org∕10.1017∕S0031182009990... ; MARQUES et al., 2011Marques FAC, Headley SA, Figueredo-Pereira V, Taroda A, Barros LD, Cunha IAL, et al. Neospora caninum: evaluation of vertical transmission in slaughtered beef cows (Bos indicus). Parasitol Res 2011; 108(4): 1015-1019. PMid:21063729. http:∕∕dx.doi.org∕10.1007∕s00436-010-2146-x
http:∕∕dx.doi.org∕10.1007∕s00436-010-214... ).McInnes et al. (2006)McInnes LM, Ryan UM, O'Handley R, Sager H, Forshaw D, Palmer DG. Diagnostic significance of Neospora caninum DNA detected by PCR in cattle serum. Vet Parasitol 2006; 142(3-4): 207-213. PMid:16934934. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.07.013
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.... reported that there was no correlation between the serological tests on dams and the PCR on their fetuses, and a high percentage of infected fetuses had serologically negative dams. Moré et al. (2009)Moré G, Bacigalupe D, Basso W, Rambeaud M, Beltrame F, Ramirez B, et al. Frequency of horizontal and vertical transmission for Sarcocystis cruzi and Neospora caninum in dairy cattle. Vet Parasitol 2009; 160(1-2): 51-54. PMid:19070964. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2008.10.081
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2008.... showed that transplacental infection in dairy cattle may occur when antibody titers are low in adult cows.

Cabral et al. (2009)Cabral AD, Camargo CN, Galleti NTC, Okuda LH, Pituco EM, Fava CD. Diagnosis of Neospora caninum in bovine fetuses by histology, immunohistochemistry, and nested-PCR. Rev Bras Parasitol Vet 2009; 18(4): 14-19. PMid:20040203. http:∕∕dx.doi.org∕10.4322∕rbpv.01804003
http:∕∕dx.doi.org∕10.4322∕rbpv.01804003... used histology, immunohistochemistry and nested-PCR to evaluate 105 aborted fetuses that were sent to the Biological Institute of São Paulo, Brazil, and found a neosporosis rate of 24.8%. In addition, Corbellini et al. (2002)Corbellini LG, Driemeier D, Cruz CFE, Gondim LFP, Wald V. Neosporosis as a cause of abortion in dairy cattle in Rio Grande do Sul, southern Brazil. Vet Parasitol 2002; 103(3): 195-202. http:∕∕dx.doi.org∕10.1016∕S0304-4017(01)00600-8
http:∕∕dx.doi.org∕10.1016∕S0304-4017(01)... found that 23% of the aborted fetuses that they collected in Rio Grande do Sul, Brazil, were infected byN. caninum. The rate of vertical transmission of neosporosis may vary between cattle herds, and it can range from 4.0 to 100% (DUBEY; SCHARES, 2011Dubey JP, Schares G. Neosporosis in animals - The last five years. Vet Parasitol 2011; 180(1-2):90-108. PMid:21704458. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2011.05.031
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2011.... ).

Just three cows in the present study had positive blood samples in PCR, in spite of the relatively high prevalence of IgG anti-N. caninumin serum samples. Yao et al. (2009)Yao L, Yang N, Liu Q, Wang M, Zhang W, Qian WF, et al. Detection of Neospora caninum in aborted bovine fetuses and dam blood samples by nested PCR and ELISA and seroprevalence in Beijing and Tianjin, China. Parasitology 2009; 136(11): 1251-1256. PMid:19660160. http:∕∕dx.doi.org∕10.1017∕S0031182009990813
http:∕∕dx.doi.org∕10.1017∕S0031182009990... reported that negative PCR results of blood samples did not exclude N. caninum infection, which corroborates the observation that fewN. caninum are present in the blood of intermediate hosts. Additionally, Okeoma et al. (2005)Okeoma CM, Stowell KM, Williamson NB, Pomroy WE. Neospora caninum: Quantification of DNA in the blood of naturally infected aborted and pregnant cows using real-time PCR. Exp Parasitol 2005; 110(1):48-55. PMid:15804378. http:∕∕dx.doi.org∕10.1016∕j.exppara.2005.01.008
http:∕∕dx.doi.org∕10.1016∕j.exppara.2005... observed greater variation in the concentration of N. caninum DNA in blood samples than in heifer brain samples, which indicated that this organ should be chosen for isolating DNA from the parasite.

Therefore, since seronegative dams generate congenitally infected fetuses, the presence or absence of antibodies for N. caninumpossibly neither supports nor rules out vertical transmission. Yao et al. (2009)Yao L, Yang N, Liu Q, Wang M, Zhang W, Qian WF, et al. Detection of Neospora caninum in aborted bovine fetuses and dam blood samples by nested PCR and ELISA and seroprevalence in Beijing and Tianjin, China. Parasitology 2009; 136(11): 1251-1256. PMid:19660160. http:∕∕dx.doi.org∕10.1017∕S0031182009990813
http:∕∕dx.doi.org∕10.1017∕S0031182009990... stated that seronegative abortion cases should be confirmed by means of PCR analysis on the fetus tissues. The mechanism for Neospora infection in seronegative dams might be explained in terms of: a) early-stage infection; b) the sensitivity of the serological assay (low antibody levels); or c) seronegative conversion in infected cows and immunotolerance of early in-utero infection (McINNES et al., 2006McInnes LM, Ryan UM, O'Handley R, Sager H, Forshaw D, Palmer DG. Diagnostic significance of Neospora caninum DNA detected by PCR in cattle serum. Vet Parasitol 2006; 142(3-4): 207-213. PMid:16934934. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.07.013
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2006.... ; WILLIAMS; TREES, 2006Williams DJL, Trees AJ. Protecting babies: vaccine strategies to prevent foetopathy in Neospora caninum-infected cattle. Parasite Immunol 2006; 28(3): 61-67. PMid:16441503. http:∕∕dx.doi.org∕10.1111∕j.1365-3024.2005.00809.x
http:∕∕dx.doi.org∕10.1111∕j.1365-3024.20... ; YAO et al., 2009Yao L, Yang N, Liu Q, Wang M, Zhang W, Qian WF, et al. Detection of Neospora caninum in aborted bovine fetuses and dam blood samples by nested PCR and ELISA and seroprevalence in Beijing and Tianjin, China. Parasitology 2009; 136(11): 1251-1256. PMid:19660160. http:∕∕dx.doi.org∕10.1017∕S0031182009990813
http:∕∕dx.doi.org∕10.1017∕S0031182009990... ). Under natural conditions, most infections caused by N. caninum are “in utero”, and parasite-induced reactions can be classified as self-infections (as are observed in some viral infections) without producing an immune response.

Previously, Marques et al. (2011)Marques FAC, Headley SA, Figueredo-Pereira V, Taroda A, Barros LD, Cunha IAL, et al. Neospora caninum: evaluation of vertical transmission in slaughtered beef cows (Bos indicus). Parasitol Res 2011; 108(4): 1015-1019. PMid:21063729. http:∕∕dx.doi.org∕10.1007∕s00436-010-2146-x
http:∕∕dx.doi.org∕10.1007∕s00436-010-214... studied vertical transmission in zebu cattle in southern Brazil and found a rate of 4.8%, which is a lower rate than what was observed in the present study (11.6%). This phenomenon might represent the manifestation associated with each management system, i.e. the difference between having or not having access to infectious sources, nutritional differences and emphasis on production activity (such as milking or weaning), or the variability in the duration of time for which the animals are kept within breeding programs (MARQUES et al., 2011Marques FAC, Headley SA, Figueredo-Pereira V, Taroda A, Barros LD, Cunha IAL, et al. Neospora caninum: evaluation of vertical transmission in slaughtered beef cows (Bos indicus). Parasitol Res 2011; 108(4): 1015-1019. PMid:21063729. http:∕∕dx.doi.org∕10.1007∕s00436-010-2146-x
http:∕∕dx.doi.org∕10.1007∕s00436-010-214... ).

The prevalence of N. caninum among the cows in the present study was similar to what was described in some previous reports (RAGOZO et al., 2003Ragozo AMA, Paula VSO, Souza SLP, Bergamaschi DP, Gennari SM. Ocorrência de anticorpos anti-Neospora caninum em soros bovinos procedentes de seis estados brasileiros. Rev Bras Parasitol Vet 2003; 12(1): 33-37.; SARTOR et al., 2003Sartor IF, Hasegawa MY, Canavessi AMO, Pinckney RD. Ocorrence of Neospora caninum antibody in dairy cows assayed by ELISA and IFAT from Avaré county, SP Semina: Cienc Agrar 2003; 24(1): 3-10.; LOCATELLI-DITTRICH et al., 2008; BENETTI et al., 2009), but was lower than in other studies (COSTA et al., 2001Costa GHN, Cabral DD, Varandas NP, Sobral EA, Borges FA, Castagnolli KC. Frequence of antibodies for Neospora caninum and Toxoplasma gondii in cattle, São Paulo and Minas Gerais States. Semina: Cienc Agrar 2001; 22(1): 61-66.; GUIMARÃES JUNIOR et al., 2004; MINERVINO et al., 2008Minervino AHH, Ragozo AM, Monteiro RM, Ortolani EL, Gennari SM. Prevalence of Neospora caninum antibodies in cattle from Santarém, Pará, Brazil. Res Vet Sci 2008; 84(2): 254-256. PMid:17619028.http:∕∕dx.doi.org∕10.1016∕j.rvsc.2007.05.003
http:∕∕dx.doi.org∕10.1016∕j.rvsc.2007.05... ; MUNHOZ et al., 2009Munhoz AD, Pereira MJS, Flausino W, Lopes CWG. Neospora caninum seropositivity in cattle breeds in the South Fluminense Paraíba Valley, state of Rio de Janeiro. Pesq Vet Bras 2009; 29(1): 29-32. http:∕∕dx.doi.org∕10.1590∕S0100-736X2009000100004
http:∕∕dx.doi.org∕10.1590∕S0100-736X2009... ; EIRAS et al., 2011Eiras C, Arnaiz I, Álvarez-García G, Ortega-Mora LM, Sanjuánl ML, Yusc E, et al. Neospora caninum seroprevalence in dairy and beef cattle from the northwest region of Spain, Galicia. Prev Vet Med 2011; 98(2-3): 128-132. PMid:21145605. http:∕∕dx.doi.org∕10.1016∕j.prevetmed.2010.10.014
http:∕∕dx.doi.org∕10.1016∕j.prevetmed.20... ). The prevalence of N. caninum in dairy cattle in Brazil was previously described as ranging from 15.1 to 91.2% (LOCATELLI-DITTRICH et al., 2001Locatelli-Dittrich R, Soccol VT, Richartz RRTB, Gasino-Joineau ME, Vinne R, Pinckney RD. Serological diagnosis of neosporosis in a herd of dairy cattle in southern Brazil. J Parasitol 2001; 87(6): 1493-1494. PMid:11780849., 2008; RAGOZO et al., 2003Ragozo AMA, Paula VSO, Souza SLP, Bergamaschi DP, Gennari SM. Ocorrência de anticorpos anti-Neospora caninum em soros bovinos procedentes de seis estados brasileiros. Rev Bras Parasitol Vet 2003; 12(1): 33-37.; GUIMARÃES JUNIOR et al., 2004; ). Therefore, caution is needed in evaluating the results from prevalence studies, since the differences in results might be directly related to the serological techniques used, the cutoff values, the sample size or the type (breed and∕or species) of animal that is being investigated.

Locatelli-Dittrich et al. (2008) and Munhoz et al. (2009)Munhoz AD, Pereira MJS, Flausino W, Lopes CWG. Neospora caninum seropositivity in cattle breeds in the South Fluminense Paraíba Valley, state of Rio de Janeiro. Pesq Vet Bras 2009; 29(1): 29-32. http:∕∕dx.doi.org∕10.1590∕S0100-736X2009000100004
http:∕∕dx.doi.org∕10.1590∕S0100-736X2009... in Brazil, Wang et al. (2010)Wang C, Wang Y, Zou X, Zhai Y, Gao J, Hou M, et al. Seroprevalence of Neospora caninum Infection in Dairy Cattle in Northeastern China. J Parasitol 2010; 96(2): 451-452. PMid:19895158. http:∕∕dx.doi.org∕10.1645∕GE-2310.1
http:∕∕dx.doi.org∕10.1645∕GE-2310.1... and Xia et al. (2011)Xia HY, Zhou DH, Jia K, Zeng XB, Zhang DW, She LX, et al. Seroprevalence of Neospora caninum Infection in Dairy Cattle of Southern China. J Parasitol 2011; 97(1): 172-173. PMid:21348632. http:∕∕dx.doi.org∕10.1645∕GE-2643.1
http:∕∕dx.doi.org∕10.1645∕GE-2643.1... in China and Eiras et al. (2011)Eiras C, Arnaiz I, Álvarez-García G, Ortega-Mora LM, Sanjuánl ML, Yusc E, et al. Neospora caninum seroprevalence in dairy and beef cattle from the northwest region of Spain, Galicia. Prev Vet Med 2011; 98(2-3): 128-132. PMid:21145605. http:∕∕dx.doi.org∕10.1016∕j.prevetmed.2010.10.014
http:∕∕dx.doi.org∕10.1016∕j.prevetmed.20... in Spain evaluated anti-N. caninum antibodies in dairy cattle by using ELISA (Idexx). These authors observed a seroprevalence range from 13.3 to 38.2%. Thus, the results obtained from these previous studies might be easier to compare with those from the present study.

In our study, it was difficult to precisely determine whether endogenous or exogenous transmission had higher or lower importance. We could speculate, considering that 5∕6 of the N. caninum-positive fetuses had ≥ 5 months of gestation and were almost ready to be born, that endogenous transplacental infection could be considered to be a major infection source for fetuses, but further studies need to be performed to confirm this hypothesis. Bartels et al. (2007)Bartels CJM, Huinink I, Beiboer ML, Van Schaik G, Wouda W, Dijkstra T, et al. Quantification of vertical and horizontal transmission of Neospora caninum infection in Dutch dairy herds. Vet Parasit 2007; 148(2): 83-92. PMid:17640807. http:∕∕dx.doi.org∕10.1016∕j.vetpar.2007.06.004
http:∕∕dx.doi.org∕10.1016∕j.vetpar.2007.... described rates of 44.9% and 4.5%, respectively, for vertical and horizontal transmission in Dutch dairy herds.

We did not observe any statistical difference between seropositive pregnant (41.6%) and non-pregnant cows (43.3%) during this study. This finding could mean that natural immune suppression during the gestational period does not change the prevalence of antibodies againstN. caninum. The events that occur during pregnancy and the influences of prenatal exposure to the parasite on the development of an immune response are critical issues (INNES et al., 2002Innes EA, Andrianarivo AG, Björkman C, Williams DJ, Conrad PA. Immune responses to Neospora caninum and prospects for vaccination. Trends Parasitol 2002; 18(11): 497-504. http:∕∕dx.doi.org∕10.1016∕S1471-4922(02)02372-3
http:∕∕dx.doi.org∕10.1016∕S1471-4922(02)... ) that have to be addressed if the associated mechanism is to be completely understood (WILLIAMS; TREES, 2006Williams DJL, Trees AJ. Protecting babies: vaccine strategies to prevent foetopathy in Neospora caninum-infected cattle. Parasite Immunol 2006; 28(3): 61-67. PMid:16441503. http:∕∕dx.doi.org∕10.1111∕j.1365-3024.2005.00809.x
http:∕∕dx.doi.org∕10.1111∕j.1365-3024.20... ).

In conclusion, this study demonstrated a vertical transmission rate forN. caninum of 11.6% in naturally infected pregnant dairy cows in southern Brazil. Additionally, this study was the first description of the occurrence of anti-N. caninum antibodies in dairy cattle (42.5%) in the state of Santa Catarina.

J.L. Garcia is the recipient of a CNPq fellowship.

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