RESUMO

Diverse wild animal species can be reservoirs of zoonotic flagellate parasites, which can cause pathologic Chagas disease. The present study aimed to detect the natural occurrence of flagellate parasites through direct microscopic examination of the parasites in blood samples and through PCR of whole blood and blood culture (haemoculture) samples from 38 captive and 65 free-living wild animals in the Centre for Conservation of Wild Fauna (CCWF), an area endemic for leishmaniasis. For this study, PCR was accomplished using primers for the ribosomal region (ITS-1) of the flagellate parasites. The amplified fragments were cloned and sequenced to identify DNA of the Trypanosomatid parasite species, observed in blood cultures from 3.9% (04/103) of the animals. Through these techniques, Trypanosoma cruzi was identified in haemoculture samples of the following three free-living species: common agouti (Dasyprocta aguti), white-eared opossum (Didelphis albiventris), and nine-banded armadillo (Dasypus novemcinctus). Furthermore, Trypanosoma minasense was identified in whole blood samples from 01 (0.9%) captive animal (black howler monkey-Alouatta caraya). These results demonstrated the first report of T. cruzi isolation in wild species from the CCWF using blood culture, which can be applied in addition to molecular tools for epidemiological studies and to identify trypanosomatids in wild animals.

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RESUMO

O objetivo foi estudar a presença de neutrófilos e eosinófilos na região intestinal de cães naturalmente infectados com Leishmania infantum em presença e ausência do parasita. Foram analisados 11 cães positivos para Leishmaniose Visceral Canina (LVC) diagnosticados e eutanasiados pelo Centro de Controle de Zoonoses (CCZ) da cidade de Ilha Solteira, SP. Dois grupos foram estabelecidos: cães infectados com LVC com presença de amastigotas de Leishmania no intestino (P, n=5) e cães infectados com LVC, mas sem a presença do parasita no intestino (N, n=6). Secções histológicas do intestino delgado (duodeno, jejuno e íleo) e intestino grosso (cólon) foram submetidos ao processo de coloração por H&E e imunoistoquímica para identificação das células e do parasita, respectivamente. A quantificação celular foi realizada em 10 unidades de vilo/cripta (UVCs) do duodeno, jejuno, íleo e cólon, de cada animal.  Verificou-se que nos tecidos dos cães mais infectados com amastigotas (grupo P) havia menor número de neutrófilos e eosinófilos do que

RESUMO

O objetivo foi estudar a presença de neutrófilos e eosinófilos na região intestinal de cães naturalmente infectados com Leishmania infantum em presença e ausência do parasita. Foram analisados 11 cães positivos para Leishmaniose Visceral Canina (LVC) diagnosticados e eutanasiados pelo Centro de Controle de Zoonoses (CCZ) da cidade de Ilha Solteira, SP. Dois grupos foram estabelecidos: cães infectados com LVC com presença de amastigotas de Leishmania no intestino (P, n=5) e cães infectados com LVC, mas sem a presença do parasita no intestino (N, n=6). Secções histológicas do intestino delgado (duodeno, jejuno e íleo) e intestino grosso (cólon) foram submetidos ao processo de coloração por H&E e imunoistoquímica para identificação das células e do parasita, respectivamente. A quantificação celular foi realizada em 10 unidades de vilo/cripta (UVCs) do duodeno, jejuno, íleo e cólon, de cada animal.  Verificou-se que nos tecidos dos cães mais infectados com amastigotas (grupo P) havia menor número de neutrófilos e eosinófilos do que

RESUMO

Canine visceral leishmaniasis (CVL) is caused by a protozoa parasite of the specie Leishmania (L.) chagasi endemic for humans and dogs in many regions of Brazil. The purpose of the present study was the detection of (L.) chagasi in canine skin tissues from three different groups of clinical signs: asymptomatic, oligosymptomatic and polysymptomatic Leishmania-infected dogs. Lesional or non-lesional skin tissue samples from 34 naturally infected dogs were obtained and processed by histochemistry (HE) and immunohistochemistry (IMHC) for direct parasitological examination and the results were compared with a polymerase chain reaction (PCR) method. IMHC and HE methods detected intact Leishmania-amastigote parasites in lesional and no lesional skin, particularly in asymptomatic and oligosymptomatic dogs. 50% of skin samples collected from asymptomatic and 21.4% from oligosymptomatic dogs had parasites in their skins even though with mild inflammatory reaction or without any macroscopic dermatological alterations. On the other hand, 100% of polysymptomatic dogs showed several forms of clinical dermatological alterations and 91.7% had intact amastigotes with parasite load ranging from mild to intense. By PCR, DNA of Leishmania spp. was detected in 97.8% skin samples regardless clinical status of the dogs or IMHC/HE test results. PCR on skin was a sensitive procedure for CVL diagnosis, but direct observation of intact parasite in skin biopsies, particularly by IMHC, may be also considered to support the diagnosis.

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RESUMO

Humoral immune response of water buffalo naturally infected with Toxocara vitulorum was monitored using three different antigens of this parasite in serum and colostrum of buffalo cows and calves. Soluble extract (Ex) and excretory/secretory (ES) larval antigens and perienteric fluid antigen (Pe) of adult T. vitulorum were used to measure the antibody levels by an indirect ELISA. Serum of 7-12 buffalo cows for the first 365 days and colostrum of the same number of buffalo cows for the first 60 days of parturition, and serum of 8-10 buffalo calves for the first 365 days after birth were assayed. The ELISA detected antibodies against all three T. vitulorum antigens in the colostrum and serum of 100% of buffalo cows and calves examined. The highest antibody levels against Ex, ES and Pe antigens were detected in the buffalo cow sera during the perinatal period and were maintained at high levels through 300 days after parturition. On the other hand, colostrum antibody concentrations of all three antigens were highest on the first day post-parturition, but decreased sharply during the first 15 days. Concomitantly to the monitoring of immune response, the parasitic status of the calves was also evaluated. In calves, antibodies passively acquired were at the highest concentrations 24 h after birth and remained at high levels until 45 days coincidentally with the peak of T. vitulorum infection. The rejection of the worms by the calves occurred simultaneously with the decline of antibody levels, which reached their lowest levels between 76 and 150 days. Thereafter, probably because of the presence of adults/larvae stimulation, the calves acquired active immunity and the antibodies started to increase slightly in the serum and plateaued between the days 211 and 365. All three antigens were detected by the serum antibodies of buffalo calves; however, the concentration of anti-Pe antibody was higher than anti-EX and anti-ES, particularly after 90 days of age. By conclusion, the buffalo cows develop immunity and keep high levels of antibodies against T. vitulorum-Ex, ES and Pe antigens and these antibodies are transferred to their calves through the colostrum. This passively acquired immunity does not protect the calves against the acquisition of the infection, but these antibodies, passively or actively acquired, may have an important role during worm rejection by the calves and prevention of intestinal reinfection.

Assuntos

RESUMO

Toxocara vitulorum, a parasite of the small intestine of cattle and water buffaloes, is mainly acquired by calves via the colostrum/milk from infected cows. To understand the development of immune responses in calves, antibody levels to a soluble extract antigen (Ex) from T. vitulorum infective larvae were measured by an indirect ELISA with sera of 15 buffalo calves, which were sampled every 15 days for the first 180 days after birth and 9 buffalo cows during the perinatal period. From all serum samples examined during the first 180 days, antibody level was lowest and highest in calves at 1 day of age before and after suckling colostrum, respectively, suggesting that the origin of antibodies was the colostrum. Immediately after birth, antibody levels in suckled calves remained at high levels until day 15, began to decrease to lower levels between 15 and 30 days and remained relatively stable until 120 days. By comparing the immune responses of these animals with their parasitological status it was considered possible to determine if passively acquired or actively produced antibodies provided protection against the infection. High numbers of T. vitulorum eggs in the feces between 30 and 60 days indicated that passively acquired antibodies did not provide protection against the infection, at least during these first days, and the maximum fecal egg counts during 30-45 days were coincident with decreased antibody levels. Between 60 and 120 days, when serum antibodies were detected at reduced, but stable levels, adult nematodes were expelled from the intestines and no more T. vitulorum eggs were found, suggesting development of acquired resistance. However, the potential and functional protective role of the antibodies against T. vitulorum infection and the process of self-cure requires further investigation.

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