Detección molecular de patógenos emergentes de importancia médica y veterinaria en garrapatas capturadas sobre caballos domésticos / Molecular detection of emerging pathogens of medical and veterinary importance in ticks found in domestic horses

En la actualidad son varias las especies de patógenos emergentes de importancia médica y veterinaria transmitidos por garrapatas. Los estudios sobre estos agentes y sus enfermedades han sido escasos en Cuba. Conocer la presencia de algunos de estos patógenos en garrapatas cubanas que afectan el ganado equino. Se procesaron 95 garrapatas colectadas de caballos domésticos, conservadas en alcohol e identificadas taxonómicamente según claves convencionales. A cada una se le realizó extracción de ADN y posteriormente diferentes reacciones en cadena de la polimerasa utilizando cebadores específicos para los grupos microbianos Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Cada uno de los productos de las reacciones en cadena de la polimerasa fue sometido a hibridaciones en línea reversa utilizando sondas para cada grupo en cuestión, así como específicas para las principales especies de estos. Las garrapatas estudiadas pertenecían a las especies Dermacentor (Anocentor) nitens (60 por ciento), Amblyomma cajennense (38 por ciento) y Rhipicephalus (Boophilus) microplus (2 por ciento). Se detectaron 7 garrapatas Dermacentor (Anocentor) nitens infectadas con bacterias del grupo Anaplasma/Ehrlichia, y no se pudo identificar la especie en cuestión con las sondas utilizadas. Una de estas garrapatas estaba además coinfectada con Babesia bovis. Se sugiere la circulación de una nueva especie de Anaplasma o Ehrlichia no reportada antes en Cuba, por lo que se necesita estudiar un número mayor de garrapatas, así como la incorporación de nuevas sondas en la hibridación en línea reversa u otras metodologías que permitan conocer con exactitud las especies que pudiesen afectar hoy día los caballos domésticos.

At present, there are several tick-borne emerging pathogen species of medical and veterinary importance. Few studies on these agents and its diseases have been made in Cuba. To determine the presence of some of these pathogens in Cuban ticks existing in the equine cattle. Ninety five ticks collected from domestic use horses were processed, preserved in alcohol and taxonomically identified according to the set classifications. Their DNA was extracted and subjected to several polymerase chain reactions with specific primers for microbial groups Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Each of the products from polymerase chain reactions underwent reverse line blot hybridation using probes for each group as well as specific probes for the main species included in these groups. The studied ticks belonged to Dermacentor (Anocentor) nitens (60 percent), Amblyomma cajennense (38 percent) y Rhipicephalus (Boophilus) microplus (2 percent). Seven Dermacentor (Anocentor) nitens ticks infested with Anaplasma/Ehrlichia bacteria were detected but the species in question could not be detected by the used probes. One of these ticks was also co-infested with Babesia bovis. It is suggested that a new species of Anaplasma o Ehrlichia, not reported in Cuba before now, is circulating, so studying a higher number of ticks is needed and new probes in reverse line blot hybridation or other methodologies must be incorporated to allow exactly determining the species that may affect the Cuban domestic horses at present.

Detección molecular de patógenos emergentes de importancia médica y veterinaria en garrapatas capturadas sobre caballos domésticos / Molecular detection of emerging pathogens of medical and veterinary importance in ticks found in domestic horses

En la actualidad son varias las especies de patógenos emergentes de importancia médica y veterinaria transmitidos por garrapatas. Los estudios sobre estos agentes y sus enfermedades han sido escasos en Cuba. Conocer la presencia de algunos de estos patógenos en garrapatas cubanas que afectan el ganado equino. Se procesaron 95 garrapatas colectadas de caballos domésticos, conservadas en alcohol e identificadas taxonómicamente según claves convencionales. A cada una se le realizó extracción de ADN y posteriormente diferentes reacciones en cadena de la polimerasa utilizando cebadores específicos para los grupos microbianos Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Cada uno de los productos de las reacciones en cadena de la polimerasa fue sometido a hibridaciones en línea reversa utilizando sondas para cada grupo en cuestión, así como específicas para las principales especies de estos. Las garrapatas estudiadas pertenecían a las especies Dermacentor (Anocentor) nitens (60 por ciento), Amblyomma cajennense (38 por ciento) y Rhipicephalus (Boophilus) microplus (2 por ciento). Se detectaron 7 garrapatas Dermacentor (Anocentor) nitens infectadas con bacterias del grupo Anaplasma/Ehrlichia, y no se pudo identificar la especie en cuestión con las sondas utilizadas. Una de estas garrapatas estaba además coinfectada con Babesia bovis. Se sugiere la circulación de una nueva especie de Anaplasma o Ehrlichia no reportada antes en Cuba, por lo que se necesita estudiar un número mayor de garrapatas, así como la incorporación de nuevas sondas en la hibridación en línea reversa u otras metodologías que permitan conocer con exactitud las especies que pudiesen afectar hoy día los caballos domésticos(AU)

At present, there are several tick-borne emerging pathogen species of medical and veterinary importance. Few studies on these agents and its diseases have been made in Cuba. To determine the presence of some of these pathogens in Cuban ticks existing in the equine cattle. Ninety five ticks collected from domestic use horses were processed, preserved in alcohol and taxonomically identified according to the set classifications. Their DNA was extracted and subjected to several polymerase chain reactions with specific primers for microbial groups Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Each of the products from polymerase chain reactions underwent reverse line blot hybridation using probes for each group as well as specific probes for the main species included in these groups. The studied ticks belonged to Dermacentor (Anocentor) nitens (60 percent), Amblyomma cajennense (38 percent) y Rhipicephalus (Boophilus) microplus (2 percent). Seven Dermacentor (Anocentor) nitens ticks infested with Anaplasma/Ehrlichia bacteria were detected but the species in question could not be detected by the used probes. One of these ticks was also co-infested with Babesia bovis. It is suggested that a new species of Anaplasma o Ehrlichia, not reported in Cuba before now, is circulating, so studying a higher number of ticks is needed and new probes in reverse line blot hybridation or other methodologies must be incorporated to allow exactly determining the species that may affect the Cuban domestic horses at present(AU)

Amplification of 16S rRNA genes of Anaplasma species in China for phylogenetic analysis.

In this study, a phylogenetic tree was inferred through comparing five 16S rRNA gene sequences of four isolates of Anaplasma ovis and one of Anaplasma marginale in China with all nineteen 16S rRNA gene sequences deposited in GenBank (12 A. marginale, 3 A. ovis and 4 Anaplasma centrale derived from America, Uruguay, South Africa, Zimbabwe, Australia, Isreal and Japan). The analysis showed that all A. ovis isolated in China were separated into an A. ovis cluster, while the A. marginale in China was separated into an A. marginale cluster (see Fig. 1). This analysis demonstrated that there are at least two different Anaplasma species widespread among ruminants in North China.

The hypervariable region of Anaplasma marginale major surface protein 2 (MSP2) contains multiple immunodominant CD4+ T lymphocyte epitopes that elicit variant-specific proliferative and IFN-gamma responses in MSP2 vaccinates.

Major surface protein 2 (MSP2) is an immunodominant outer membrane protein of Anaplasma marginale and Anaplasma phagocytophilum pathogens that cause bovine anaplasmosis and human granulocytic ehrlichiosis, respectively. MSP2 has a central hypervariable region (HVR) flanked by highly conserved amino and carboxyl termini. During A. marginale infection, dynamic and extensive amino acid sequence variation in MSP2 occurs through recombination of msp2 pseudogenes into the msp2 expression site, followed by sequential segmental gene conversions to generate additional variants. We hypothesized that MSP2 variation leads to significant changes in Th cell recognition of epitopes in the HVR. T cell epitopes were mapped using T cells from native MSP2-immunized cattle and overlapping peptides spanning the most abundant of five different MSP2 HVRs in the immunogen. Several epitopes elicited potent effector/memory Th cell proliferative and IFN-gamma responses, including those in three discreet blocks of sequence that undergo segmental gene conversion. Th cell clones specific for an epitope in the block 1 region of the predominant MSP2 variant type failed to respond to naturally occurring variants. However, some of these variants were recognized by oligoclonal T cell lines from MSP2 vaccinates, indicating that the variant sequences contain immunogenic CD4(+) T cell epitopes. In competition/antagonism assays, the nonstimulatory variants were not inhibitory for CD4(+) T cells specific for the agonist peptide. Dynamic amino acid sequence variation in MSP2 results in escape from recognition by some effector/memory MSP2-specific Th cells. Antigenic variation in MSP2 Th cell and B cell epitopes may contribute to immune evasion that allows long-term persistence of A. marginale in the mammalian reservoir.

Phylogenetic analysis of the erythrocytic Anaplasma species based on 16S rDNA and GroEL (HSP60) sequences of A. marginale, A. centrale, and A. ovis and the specific detection of A. centrale vaccine strain.

Phenotypic criteria for the identification of erythrocytic ruminant Anaplasma species has relied on subjective identification methods such as host pathogenicity (virulence for cattle or sheep) and/or the location of Anaplasma inclusion bodies within the host's red cells. Sequence comparisons of new and available GenBank Accessions were investigated to elucidate the relationships among these closely related Anaplasma species. Twenty-one 16S rDNA and GroEL (HSP60) sequences from 13 Anaplasma marginale (South Africa, Namibia, Zimbabwe, Israel, USA, Australia and Uruguay), three A. centrale (South Africa and Japan), two A. ovis (USA and South Africa), and two unknown Anaplasma species isolated from wild ruminants (South Africa), were compared. 16S rDNA maximum-likelihood and distance trees separated all A. marginale (and the two wild ruminant isolates) from the two South African A. centrale (including original vaccine strain, Theiler, 1911). The Japanese A. centrale (Aomori) demonstrated the lowest sequence identity to the remaining erythrocytic Anaplasma species. A. ovis inter-species relationships could not be resolved through the 16S rDNA analyses, whereas strong bootstrap branch support is demonstrated in the GroEL distance tree using A. ovis OVI strain. All erythrocytic Anaplasma species and isolates were confirmed to belong to the same cluster showing strong branch support to Anaplasma (Ehrlichia) phagocytophilum with Ehrlichia (Cowdria) ruminantium and Rickettsia rickettsii serving as appropriate out-groups. Based on groEL sequences, a specific PCR method was developed which amplified A. centrale vaccine (Theiler, 1911) specifically. This study confirms the suitability of 16S rDNA sequences to define genera and demonstrates the usefulness of GroEL sequences for defining species of erythrocytic Anaplasma.

Comparison of surface proteins of Anaplasma marginale grown in tick cell culture, tick salivary glands, and cattle.

Anaplasma marginale, a tick-borne rickettsial pathogen of cattle, infects bovine erythrocytes, resulting in mild to severe hemolytic disease that causes economic losses in domestic livestock worldwide. Recently, the Virginia isolate of A. marginale was propagated in a continuous tick cell line, IDE8, derived from embryonic Ixodes scapularis. Development of A. marginale in cell culture was morphologically similar to that described previously in ticks. In order to evaluate the potential of the cell culture-derived organisms for use in future research or as an antigen for serologic tests and vaccines, the extent of structural conservation of the major surface proteins (MSPs) between the cell culture-derived A. marginale and the bovine erythrocytic stage, currently the source of A. marginale antigen, was determined. Structural conservation on the tick salivary-gland stage was also examined. Monoclonal and monospecific antisera against MSPs 1 through 5, initially characterized against erythrocyte stages, also reacted with A. marginale from cell culture and tick salivary glands. MSP1a among geographic A. marginale isolates is variable in size because of different numbers of a tandemly repeated 28- or 29-amino-acid peptide. The cell culture-derived A. marginale maintained the same-size MSP1a as that found on the Virginia isolate of A. marginale in bovine erythrocytes and tick salivary glands. Although differences were observed in the polymorphic MSP2 antigen between culture and salivary-gland stages, MSP2 did not appear to vary, by two-dimensional gel electrophoresis, during continuous passage in culture. These data show that MSPs of erythrocyte-stage A. marginale are present on culture stages and may be structurally conserved during continuous culture. The presence of all current candidate diagnostic and vaccine antigens suggests that in vitro cultures are a valuable source of rickettsiae for basic research and for the development of improved diagnostic reagents and vaccines against anaplasmosis.

Protein analysis of Anaplasma marginale and Anaplasma centrale by two-dimensional polyacrylamide gel electrophoresis.

Protein compositions of Anaplasma marginale and A. centrale were analyzed by two-dimensional gel electrophoresis. Both species had a major protein which was composed of 3-4 spots. The molecular weights of these two proteins were approximately 39 kDa. However, the position of these proteins in the gels were slightly different when 2 gel maps were superimposed. Five other protein spots were shared by A. marginale and A. centrale, whereas all the other protein spots were appeared to be unique to each of the species.

Putative adhesins of Anaplasma marginale: major surface polypeptides 1a and 1b.

Genes for the MSP1a and MSP1b subunits of the Anaplasma marginale surface antigen complex MSP1 were previously cloned and expressed in Escherichia coli. We report here the localization of MSP1a and MSP1b polypeptides on the surface of recombinant E. coli by using a live cell indirect immunofluorescent antibody assay. Recombinant E. coli cells expressing the msp1 alpha gene or the msp1 beta gene encoding the MSP1a and MSP1b polypeptide subunits, respectively, were shown by a culture recovery adhesion assay and by direct microscopic examination to specifically adhere to bovine erythrocytes. This adhesion was more than additive when both genes were coexpressed in a single recombinant construct. Similarly, these recombinants hemagglutinated bovine erythrocytes in a microtiter hemagglutination assay. Inhibition of recombinant E. coli adhesion to bovine erythrocytes and hemagglutination inhibition were observed in the presence of homologous monospecific polyclonal antiserum raised against purified MSP1a or MSP1b polypeptide. These data suggest that the MSP1a and MSP1b polypeptides have functions as adhesins on A. marginale initial bodies, probably during erythrocyte invasion.

Intermolecular relationships of major surface proteins of Anaplasma marginale.

Immunization with Anaplasma marginale membranes containing major surface proteins (MSPs) induces protective immunity against clinical disease (N. Tebele, T. C. McGuire, and G. H. Palmer, Infect. Immun. 59:3199-3204, 1991). For use in design of a recombinant antigen subunit vaccine for A. marginale, intermolecular relationships of known A. marginale MSPs were analyzed. Under nonreducing conditions, MSP-2 and MSP-5 occur as multimers. A large (> 300-kDa-molecular-mass), nonreduced protein complex contained MSP-1a linked by disulfide bonds to MSP-1b and by noncovalent bonds to MSP-5. MSP-2 was also noncovalently bound to this complex. The nearest neighbor membrane proteins were identified by cross-linking reactions followed by immunoblotting with anti-MSP antibodies. A cross-linked aggregate retained in the stacking gel contained MSP-1a, MSP-1b, MSP-2, MSP-3, MSP-4, and MSP-5. Collectively, the data indicate that MSP-2 and MSP-5 occur as monomers and disulfide-bonded multimers. The MSP-1 complex occurs as both disulfide-bonded and noncovalently associated MSP-1 and MSP-1b, and MSP-2 and MSP-5 are noncovalently associated with MSP-1. Also, MSP-1, MSP-2, MSP-3, and MSP-4 are nearest neighbors, and MSP-5 is noncovalently associated with this cross-linked complex.