Isolation and attempted cultivation of an Anaplasma marginale strain from Brazilian brown brocket deer (Mazama gouazoubira, Fisher, 1814) in the tick cell line IDE8.

The aim of the study was to isolate and establish an Anaplasma marginale strain from Brazilian brown brocket deer, Mazama gouazoubira, in the Ixodes scapularis cell line IDE8. Blood from a free-living adult female M. gouazoubira naturally infected with A. marginale (MGI5) was inoculated intravenously into a splenectomized calf. When A. marginale rickettsemia was 2.5%, blood was collected and cryopreserved in liquid nitrogen with dimethylsulfoxide (DMSO). IDE8 cell cultures were infected with calf blood inoculated with the A. marginale (MG15) isolate. The cultures were monitored by examination of Giemsa-stained cytocentrifuge smears. Light microscopy of stained IDE8 samples revealed the first inclusions of A. marginale (MGI5) at 48days post-inoculation (d.p.i). The IDE8-infected cells contained parasitophorous vacuoles with amorphous material and a few cocci-like organisms. A sample from IDE8-infected cells from the 16th subculture (336 d.p.i.) was analyzed by nPCR, nucleotide sequencing, electron microscopy, and an indirect fluorescent antibody test (IFAT). The IFAT highlighted some IDE8-infected cells with intense fluorescence in the parasitophorous vacuole, while in other cells, fluorescence was observed only at the periphery. DNA from a culture of the MG15 isolate was amplified with A. marginale msp4 gene primers, and nucleotide sequencing of the PCR product and BLAST software analysis further confirmed 100% identity with the MGI5 blood isolate (GenBank no. JN022558.1). Electron microscopy revealed increased numbers of lysosomes in the cytoplasm of IDE8 cells. Several cells exhibited large vacuoles containing cellular debris and amorphous material. After the 29th subculture, it was not possible to detect compatible Anaplasma structures by light microscopy, and subculture samples tested negative in nPCR. Despite the failure of the attempt to establish A. marginale (MGI5) in IDE8 cells, the results demonstrated the isolate's ability to infect, survive and multiply, although in limited numbers, in IDE8 cells.

Molecular and immunological characterization of three strains of Anaplasma marginale grown in cultured tick cells.

Anaplasma marginale is an economically important tick-borne pathogen of cattle that causes bovine anaplasmosis. A wide range of geographic strains of A. marginale have been isolated from cattle, several of which have been characterized using genomics and proteomics. While many of these strains have been propagated in tick lines, comparative analyses after propagation in tick cells have not been reported. The overall purpose of this research therefore was to compare the degree of conservation of selected genes after propagation in tick cell culture among A. marginale strains from the U.S. (the Virginia strain) and Brazil (UFMG1 and UFMG2 strains). The genes studied herein included those which encode the proteins HSP70 and SODB involved in heat shock and stress responses, respectively, and two genes that encode major surface proteins MSP4 and MSP5. Strain identities were first confirmed by sequencing the tandem repeats of the msp1a gene which encodes for the adhesin, MSP1a. The results of these studies demonstrated that the genes encoding for both stress response and heat shock proteins were highly conserved among the three A. marginale strains. Antibodies specific for MSP4, MSP5, SODB and HSP70 proteins were used to further characterize the A. marginale strains, and they reacted with all of these strains propagated in tick cell culture, providing further evidence for antigenic conservation. Although antigenic differences were not found among the three A. marginale strains, multi-locus sequence analysis (MLSA) performed with nucleotide sequences of these genes demonstrated that the A. marginale Brazilian and U.S. strains fall in different clades. These results showed that phylogenetically distant strains of A. marginale are antigenically conserved, even after several in vitro passages, supporting the use of some of the above conserved proteins as candidates for universal vaccines.

In vitro culture and structural differences in the major immunoreactive protein gp36 of geographically distant Ehrlichia canis isolates.

Ehrlichia canis, the etiologic agent of canine ehrlichiosis, is an obligate intracytoplasmic Gram-negative tick-borne bacterium belonging to the Anaplasmataceae family. E. canis is distributed worldwide and can cause serious and fatal infections in dogs. Among strains of E. canis, the 16S rRNA gene DNA sequences are highly conserved. Using this gene to genetically differentiate isolates is therefore difficult. As an alternative, the gene gp36, which encodes for a major immunoreactive protein in E. canis, has been successfully used to characterize the genetic diversity of this pathogen. The present study describes the isolation and continuous propagation of a Spanish and 2 South African isolates of E. canis in IDE8 tick cells. Subsequently, canine DH82 cell cultures were infected using initial bodies obtained from infected IDE8 cultures. It was possible to mimic the life cycle of E. canis in vitro by transferring infection from tick cells to canine cells and back again. To characterize these E. canis strains at the molecular level, the 16S rRNA and gp36 genes were amplified by PCR, sequenced, and aligned with corresponding sequences available in GenBank. All 16S rRNA sequences amplified in this study were identical to previously reported E. canis strains. Maximum likelihood analysis based on the gp36 amino acid sequences showed that the South African and Spanish strains fall into 2 well-defined phylogenetic clusters amongst other E. canis strains. The members of these 2 phylogenetic clusters shared 2 unique molecular properties in the gp36 amino acid sequences: (i) deletion of glycine 117 and (ii) the presence of an additional putative N-linked glycosylation site. We further show correlation between the putative secondary structure and the theoretical isoelectric point (pI) of the gp36 amino acid sequences. A putative role of gp36 as an adhesin in E. canis is discussed. Overall, we report the successful in vitro culture of 3 new E. canis strains which present different molecular properties in their gp36 sequences.

Evaluating the effectiveness of an inactivated vaccine from Anaplasma marginale derived from tick cell culture / Avaliação da eficácia de uma vacina inativada de Anaplasma marginale derivada de cultura de células de carrapato

The protective efficacy of an inactivated vaccine from Anaplasma marginale that was cultured in tick cells (IDE8) for use against bovine anaplasmosis was evaluated. Five calves (Group 1) were inoculated subcutaneously, at 21-day intervals, with three doses of vaccine containing 3 × 10(9) A. marginale initial bodies. Five control calves received saline solution alone (Group 2). Thirty-two days after the final inoculation, all the calves were challenged with approximately 3 × 10(5) erythrocytes infected with A. marginale high-virulence isolate (UFMG2). The Group 1 calves seroconverted 14 days after the second dose of vaccine. After the challenge, all the animals showed patent rickettsemia. There was no significant difference (p > 0.05) between the Group 1 and 2 calves during the incubation period, patency period or convalescence period. All the animals required treatment to prevent death. The results suggest that the inactivated vaccine from A. marginale produced in IDE8 induced seroconversion in calves, but was not effective for preventing anaplasmosis induced by the UFMG2 isolate under the conditions of this experiment.

Foi avaliada a eficácia de uma vacina protetora para Anaplasma marginale cultivada em células de carrapato (IDE8) para uso contra a anaplasmose bovina. Cinco bezerros (Grupo 1) foram inoculados por via subcutânea com três doses, intervalados de 21 dias, de vacina contendo 3 × 10(9) corpúsculos iniciais de A. marginale inicial. Cinco bezerros do grupo controle receberam apenas solução salina (Grupo 2). Trinta e dois dias após a inoculação final, todos os bezerros foram desafiados com aproximadamente 3 × 10(5) eritrócitos infectados com isolado de A. marginale alta virulência (UFMG2). Os bezerros do Grupo 1 soroconverteram-se 14 dias após a segunda dose da vacina. Após o desafio, todos os animais mostraram riquestsemia patente. Não houve diferença significativa (p > 0,05) entre bezerros do Grupo 1 e 2 em período de incubação, período de patência, ou período de convalescença. Todos os animais necessitaram de tratamento para prevenir a morte. Os resultados sugerem que uma vacina inativada de A. marginale, produzida em IDE8, induz soroconversão em bezerros, mas não é eficaz na prevenção de anaplasmose induzida pelo isolado UFMG2 nas condições deste experimento.

In vitro establishment and propagation of a Brazilian strain ofAnaplasma marginale with appendage in IDE8 (Ixodes scapularis) cells / Estabelecimento e propagação in vitro de uma amostra brasileira de Anaplasma marginale com apêndice em células IDE8 (Ixodes scapularis)

A Brazilian isolate of Anaplasma marginale with appendage was successfully established and maintained in vitro in a tick cell line (IDE8). Infection was confirmed by optical and transmission electron microscopy. In addition, primers MSP1aNF2 and MSP1aNR2 amplified products from DNA extracted from infected IDE8 cells. Comparisons with partial sequences of the msp1α gene and the complete genome of A. marginale confirmed that the sequences of amplified fragments were from the A. marginale genome. This is the first establishment of a Brazilian A. marginale isolate in tick cells, representing a new system for biological and molecular studies and also a new source of material for diagnosis and development of vaccines.

Uma amostra brasileira de Anaplasma marginale com apêndice foi estabelecida e mantida in vitro em uma linhagem de células de carrapatos (IDE8). A infecção foi confirmada através de microscopia ótica e eletrônica de transmissão. Além disso, os primers MSP1aNF2 e MSP1aNR2 amplificaram produtos do DNA extraído das células infectadas. Comparações de sequências parciais do gene msp1α e do genoma completo de A. marginale confirmaram que as sequências dos fragmentos amplificados pertenciam ao genoma de A. marginale. Este é o primeiro estabelecimento in vitro de uma amostra brasileira de A. marginale em células de carrapatos, representando um novo sistema para estudos biológicos e moleculares, além de ser uma nova fonte de material para o desenvolvimento de testes diagnósticos e de vacinas.

In vitro establishment and propagation of a Brazilian strain of Anaplasma marginale with appendage in IDE8 (Ixodes scapularis) cells.

A Brazilian isolate of Anaplasma marginale with appendage was successfully established and maintained in vitro in a tick cell line (IDE8). Infection was confirmed by optical and transmission electron microscopy. In addition, primers MSP1aNF2 and MSP1aNR2 amplified products from DNA extracted from infected IDE8 cells. Comparisons with partial sequences of the msp1α gene and the complete genome of A. marginale confirmed that the sequences of amplified fragments were from the A. marginale genome. This is the first establishment of a Brazilian A. marginale isolate in tick cells, representing a new system for biological and molecular studies and also a new source of material for diagnosis and development of vaccines.