Clinical, pathological and molecular evaluations and CT scan screening of coenurosis (Coenurus cerebralis) in sheep and calves / Avaliação clínica, patológica e molecular e tomografia computadorizada de cenurose (Coenurus cerebralis) em carneiros e bezerros

Abstract The aims of this study were to diagnose coenurosis by means of computerized tomography (CT) scan imaging and molecular characterization of the CO1 gene using the polymerase chain reaction (PCR). Sheep and calves were necropsied, and CT scans on the cephalic region were performed on the animals. Sections of brain tissue infected with parasites were then stained with hematoxylin and eosin for microscopic examination. Material collected from brain cysts was fixed in 70% ethanol. PCR amplification was carried out using the CO1 mitochondrial gene. A total of 60 calves and 80 sheep were examined clinically and, of these, 15 calves and 38 sheep showed signs of depression, with counterclockwise circling movements and altered head carriage. Four sheep and one calf were necropsied, and C. cerebralis cysts were detected in all of them. A hypodense cyst was monitored in the right cerebellar hemisphere on a CT scan on one sheep. A cyst was found in the left frontal lobe on a CT scan on one calf. Microscopically, C. cerebralis cysts were surrounded by a fibrous or epithelial wall that presented necrosis on cerebral sections of both the sheep and the cattle. The CO1-PCR assay yielded a 446 bp band, which was sequenced and phylogenetically analyzed: the results confirmed the presence of T. multiceps. This study reports the first use of CT imaging on naturally infected calves and sheep for diagnosing coenurosis.

Resumo Os objetivos deste estudo foram diagnosticar cenurose por tomografia computadorizada (CT) por imagem de digitalização e caracterização molecular do gene CO1, usando a Reação em Cadeia da Polimerase (PCR). Ovelhas e bezerros foram necropsiados, e uma tomografia computadorizada da região cefálica foi realizada nos animais. Em seguida, cortes microscópicos de cérebro infectado com parasitas foram corados com hematoxilina e eosina e posterior avaliação ao microscópio de luz. Em seguida, o material recolhido de cada cisto cerebral foi fixado em etanol a 70%. A amplificação pela PCR foi realizada utilizando-se o gene mitocondrial CO1. Um total de 60 bezerros e 80 ovelhas foram clinicamente examinados e, desses, 15 bezerros e 38 ovelhas apresentaram sinais de depressão, com movimentos circulares em sentido anti-horário, e desvio da cabeça. Quatro carneiros e uma vitela foram necropsiados, e cistos de C. cerebralis foram detectados nos animais. Um cisto hipodenso foi monitorado no hemisfério cerebelar direito por imagem do CT de um carneiro. O cisto foi encontrado no lobo frontal esquerdo por imagem do CT de um bezerro. Microscopicamente, cistos de C. cerebralis foram envolvidos por uma parede fibrosa ou epitelial, apresentando necrose em ambos os cortes cerebrais de ovinos e de bovinos. O ensaio CO1-PCR produziu uma banda de 446 pb, sequenciado e submetido à filogenia, confirmou ser T. multiceps. Este estudo relata a primeira utilização de imagens de CT em bezerros e ovelhas naturalmente infectados para o diagnóstico de coenurosis.

Aspectos clínicos, histopatológicos e moleculares da dermatosparaxia em ovinos White Dorper / Clinical, histopathological and molecular aspects of the dermatosparaxis in White Dorper sheep

Dermatosparaxia em animais é uma doença autossômica recessiva do tecido conjuntivo caracterizada por fragilidade e hiperextensibilidade cutânea. A doença em ovinos White Dorper é provocada pela mutação c.421G>T no gene ADAMmetalopeptidase com trombospondina tipo 1 motif, 2 (ADAMTS2). O objetivo deste estudo foi descrever os achados clínicos, moleculares e histopatológicos da dermatosparaxia em ovinos White Dorper de um rebanho localizado no Centro-Oeste Paulista. [...] Dos nove animais examinados, dois apresentavam sinais clínicos compatíveis com dermatosparaxia. O exame histopatológico de amostras cutâneas das lesões destes dois animais revelou também achados compatíveis com dermatosparaxia, sendo caracterizados por epiderme e anexos cutâneos preservados e sem características atípicas; colágeno displásico arranjado em feixes pequenos, fragmentados e com focos de degeneração, anexos cutâneos proeminentes e na região da derme foco hemorrágico intenso associado a moderado infiltrado neutrofílico na derme profunda. Com o objetivo de realizar o diagnóstico molecular da enfermidade, uma PCR foi padronizada utilizando primers específicos desenhados para amplificar a região do gene ADAMTS2 que continha a mutação c.421G>T e o DNA obtido de amostras de sangue de todos os animais do rebanho. O sequenciamento direto dos produtos da PCR, comprovou que os dois animais clinicamente afetados possuíam a mutação responsável pela dermatosparaxia. A metodologia descrita neste estudo possibilitou o diagnóstico definitivo da doença. Segundo a literatura consultada, esta é a primeira vez que a dermatosparaxia é descrita em ovinos White Dorper no Brasil. A metodologia aqui descrita poderá ser empregada em estudos futuros que avaliem a prevalência desta mutação no Brasil, possibilitando a adoção de medidas que previnam a disseminação dessa mutação no rebanho brasileiro de ovinos White Dorper.

Dermatosparaxis in animals is an autosomal recessive disorder of the connective-tissue clinically characterized by skin fragility and hiperextensibility. The disease in White Dorper sheep is caused by mutation (c.421G>T) in the ADAM metalloproteinase with thrombospondin type 1 motif, 2 (ADAMTS2) gene. This study describes the dermatological, histological and the molecular findings of the dermatosparaxis in White Dorper sheep from a herd located in the center-west of São Paulo State. [...] The herd consisted of one ram, four ewe and their lambs. In this herd two lambs had clinical signs consistent with dermatosparaxis. Histopathological evaluation of the affected skin of these two animals also revealed consistent findings with dermatosparaxis, characterized by dysplasia of the collagen, which were arranged in small and fragmented collagen bundles and with foci of degeneration of collagen. Prominent cutaneous appendages and severe hemorrhagic focus in dermis region associated with mild neutrophilic infiltrate in the deep dermis. PCR using DNA blood and specific primers to amplify the mutation region c.421G>T was optimized in order to perform molecular diagnosis of the disease. The direct sequencing of the PCR products proved that the two clinically affected animals had the mutation responsible for dermatosparaxis, previously described for this breed and allowed the definitive diagnosis of the disease. This is the first report of the dermatosparaxis in White Dorper sheep in Brazil and the methodology used to confirm the diagnosis could be used in future studies to assess the prevalence of this mutation in Brazil, allowing the adoption of measures to prevent the spread of this mutation in the Brazilian White Dorper herd.

Ovar-Mhc - ovine major histocompatibility complex: structure and gene polymorphisms

The major histocompatibility complex (MHC) in sheep, Ovar-Mhc, is poorly characterised, when compared to other domestic animals. However, its basic structure is similar to that of other mammals, comprising class I, II and III regions. Currently, there is evidence for the existence of four class I loci. The class II region is better characterised, with evidence of one DRA, four DRB (one coding and three non-coding), one DQA1, two DQA2, and one each of the DQB1, DQB2, DNA, DOB, DYA, DYB, DMA, and DMB genes in the region. The class III region is the least characterised, with the known presence of complement cascade (C4, C2 and Bf), TNFalpha and CYP21 genes. Products of the class I and II genes, MHC molecules, play a pivotal role in antigen presentation required for eliciting immune responses against invading pathogens. Several studies have focused on polymorphisms of Ovar-Mhc genes and their association with disease resistance. However, more research emphasis is needed on characterising the remaining Ovar-Mhc genes and developing simplified and cost-effective methods to score gene polymorphisms. Haplotype screening, employing multiple markers rather than single genes, would be more meaningful in MHC-disease association studies, as it is well known that most of the MHC loci are tightly linked, exhibiting very little recombination. This review summarises the current knowledge of the structure of Ovar-Mhc and polymorphisms of genes located in the complex.