David Stiller

Babesia bovis Merozoite Surface Antigen 1 and Rhoptry-Associated Protein 1 Are Expressed in Sporozoites, and Specific Antibodies Inhibit Sporozoite Attachment to Erythrocytes

ABSTRACT We examined Babesia bovis sporozoites for the expression of two molecules, merozoite surface antigen 1 (MSA-1) and rhoptry-associated protein 1 (RAP-1), that are postulated to be involved in the invasion of host erythrocytes. Both MSA-1 and RAP-1 were transcribed and expressed in infectious sporozoites. Importantly, monospecific MSA-1 and RAP-1 antisera each inhibited sporozoite invasion of erythrocytes in vitro. This is the first identification of antigens expressed in Babesia sp. sporozoites and establishes that, at least in part, sporozoites and merozoites share common targets of antibody mediated inhibition of erythrocyte invasion.

Molecular and Biological Characterization of a Newly Isolated Anaplasma Marginale Strain

Anaplasma marginale, a rickettsial hemoparasite of cattle and other ruminants, results in significant economic losses worldwide. Distinct strains of A. marginale have been identified based on differences in tick transmissibility, molecular size of surface proteins and DNA restriction fragments, and reactivity to a panel of monoclonal antibodies. These different strains vary considerably in their virulence, antigenic composition, and ability to protect against heterologous challenge. In this paper, we report on the molecular characterization of a newly isolated strain of A. marginale, designated St. Maries, recovered from an acutely infected cow in northern Idaho. Dermacentor andersoni ticks taken from the infected animal were tested for infection by RNA probe analysis. The infection rate of male ticks (as determined by midgut infection) was 100%, and the infection rate of female ticks was 83%. Infected male ticks were able to transmit the St. Maries strain to a susceptible calf. The high infection rate in male ticks may be particularly relevant, given that male ticks are believed to be epidemiologically important in transmission of A. marginale because of their intermittent feeding behavior, which promotes interhost transfer. The newly isolated strain differs from other US strains, including strains previously isolated in Idaho and Washington, based on reactivity to a panel of monoclonal antibodies and restriction fragment length polymorphisms. These results imply that antigenically distinct strains of A. marginale may arise within the same region. However, because epitopes previously demonstrated to be conserved in other A. marginale strains were also present in the St. Maries strain, it is possible to develop diagnostic tests against conserved epitopes that could be used for early identification of infected cows or ticks.

Dermacentor variabilis and Boophilus microplus (Acari: Ixodidae): Experimental Vectors of Babesia equi to Equids

Abstract The experimental vector competence of five laboratory-reared ixodid tick species representing three genera [Amblyomma americanum (L.), Boophilus microplus (Canestrini), D. andersoni Stiles, D. occidentalis Marx, and D. variabilis (Say)] for Babesia equi (Laveran 1901) was evaluated by delayed transfer of male ticks from infected to susceptible equids or by infesting the latter animals with adult ticks previously fed as nymphs on infected equids. After feeding for 5, 6, or 13 d on acquisition hosts, ticks were forcibly removed and held off the host at 26°C, ≈93% RH, and a photoperiod of 14:10 (L:D) h for 6, 12, or 27 d. Intrastadial transmission to susceptible ponies by D. variabilis males, and transstadial transmission to susceptible burros by B. microplus adults, was demonstrated by blood smear and indirect immunofluorescence serology. The data indicated that male D. variabilis and adult B. microplus, tick species that occur on equids in North America and, in the case of the latter tick, also extensively in tropical and subtropical regions of the world, may be competent natural vectors of B. equi

Comparison of a DNA probe, complement-fixation and indirect immunofluorescence tests for diagnosing Anaplasma marginale in suspected carrier cattle.

Most estimates of the prevalence of anaplasmosis have been based on serologic data using the complement-fixation (CF) and/or card agglutination tests. Since these tests are considered to be only about 50 percent reliable for detecting carrier cattle in enzootically stable herds, the need for more sensitive diagnostic tests is widely recognized. The objective in the present study was to compare the sensitivity of the CF test with that of the indirect immunofluorescence (IIF) test and a recently developed DNA probe in determining the prevalence of Anaplasma marginale infection in cattle from an enzootic area. The study herd consisted of 52 8-month-old steers and 13 3-year-old cows of mixed beef breed. All cattle were initially tested for this comparative purpose. All but one animal (one that was a positive reactor as assessed by all three tests, and served as a positive control), were treated with long-acting oxytetracycline in an attempt to clear any carrier infections. Each animal was then retested at 1 month and 2 months post-treatment (PT), in an effort to determine if the DNA probe could be used to evaluate the effectiveness of the drug. Six of the 65 (9.2%) initial serum samples were CF positive. In contrast, 60 (92.3%) and 64 (98.5%) of the samples were positive as assessed with the IIF test and the DNA probe, respectively. The DNA hybridization reactions varied in intensity within the sample population indicating different individual levels of infection. The DNA probe hybridized with two samples taken at 1 month PT, and with two different samples taken at 2 months PT. The mean IIF titers were reduced at both the 1 month and 2 month sampling times. These results suggest that the drug did not eliminate infections in all cattle. Some may have been cleared, but, in any event, the drug did reduce the level of infections below the sensitivity of the DNA probe and interrupted continuity of stimulation of antibody. Therefore, the DNA probe and the IIF test appear to be considerably more sensitive in detecting carrier infections than the CF test, and should be considered in future epidemiologic studies.

Strain diversity in major surface protein 2 expression during tick transmission of Anaplasma marginale.

ABSTRACT Specific major surface protein 2 (MSP2) variants are expressed byAnaplasma marginale within the tick salivary gland and, following transmission, are expressed during acute rickettsemia. In previous work, we have shown that a restricted pattern of MSP2 variants is expressed in the salivary glands of Dermacentor andersoni ticks infected with the South Idaho strain of A. marginale. Now we demonstrate that the identical restriction does not apply to two other strains of A. marginale, and that different variants are also expressed when the same strain is transmitted by different Dermacentor spp. This indicates that antigenic diversity among strains is maintained in tick transmission and may be a significant constraint to MSP2 vaccine development.

DNA probes distinguish geographical isolates and identify a novel DNA molecule of Babesia bovis.

A genomic DNA library of Babesia bovis was screened to identify DNA probe candidates for direct detection of the parasite. Two sequences, Bo6 and Bo25, had the highest sensitivity and further analysis revealed unique characteristics of each of these. Neither sequence hybridized detectably to bovine DNA. Bo6 detected 100 pg of both a Mexican and an Australian isolate of B. bovis, but Bo6 also detected 1.0 ng of Babesia bigemina DNA under identical conditions. A unique characteristic of Bo6 is that it hybridizes to an apparent 7.4-kilobase DNA in undigested genomic DNA of both B. bovis and B. bigemina. The sequence is well conserved between the 2 geographic isolates of B. bovis, but it is apparently divergent in B. bigemina. Bo25 did not hybridize detectably to bovine or B. bigemina DNA. This sequence detected 100 pg of homologous B. bovis Mexican isolate DNA, but the sensitivity was reduced to 1 ng for the Australian isolate DNA. The restriction enzyme profile of the Bo25 sequence in genomic DNA differed markedly in the number, size, and intensity of bands between the 2 B. bovis geographic isolates tested. Thus, the Bo25 sequence can distinguish geographic isolates of B. bovis.

Susceptibility of two Rocky Mountain bighorn sheep to experimental infection with Anaplasma ovis.

In North America, the role of wild ruminants in the epidemiology of anaplasmosis has not been clearly defined. Such information is particularly meager in regard to bighorn sheep. We report the susceptibility of two Rocky Mountain bighorn sheep (Ovis canadensis canadensis) to experimental infection with a well characterized field isolate of Anaplasma ovis obtained from domestic sheep in Idaho. Both bighorn sheep developed infection resulting in severe clinical disease, with relatively high parasitemias, icterus and anemia. One animal required tetracycline therapy and responded well to treatment, while the other recovered uneventfully without treatment. Both bighorn sheep were spleen-intact, a condition that in A. ovis-exposed domestic sheep typically is associated with mild infection. The results indicate that bighorn sheep may be adversely affected if exposed to the organism in nature.

The distribution of Dermacentor hunteri and Anaplasma sp. in desert bighorn sheep (Ovis canadensis)

The ixodid tick Dermacentor hunteri has been collected intermittently this century, primarily from desert bighorn sheep (Ovis canadensis). Anaplasma spp. are intraerythrocytic rickettsial parasites of ungulates and are vectored in the western United States by ticks of the genus Dermacentor. We tested the hypotheses that D. hunteri would be found infesting all populations of desert bighorn, and that all infested populations would be seropositive for Anaplasma sp. Dermacentor hunteri was found on desert bighorn throughout their range in the Mojave and Sonoran deserts of the southwestern United States and northern Mexico, but not in any portion of the Chihuahuan desert of New Mexico and eastern Arizona or in Baja California Sur, Mexico. Using an indirect immunofluorescence antibody test (IIF), 8 populations of desert bighorn in California with D. hunteri were seropositive for Anaplasma sp. (n = 160). Four populations of desert bighorn with D. hunteri in Arizona (n = 69), 1 in Nevada (n = 22), and I in Utah (n = 14) with D. hunteri were seronegative. Six populations of desert bighorn were uninfested with D. hunteri and were also seronegative. Of these populations, 1 was in California (n = 19), 2 were in New Mexico (n = 33), 2 were in Utah (n = 30), and 1 was in Baja California Sur (n = 14). We found no support for either of our original hypotheses and concluded that both D. hunteri and Anaplasma sp. are limited in their distribution among desert bighorn. We also suggest a cautionary approach to translocations of desert bighorn given the high prevalence of ticks and the unknown effects of Anaplasma sp. on free-ranging bighorn.

CHARACTERIZATION OF AN ANAPLASMA OVIS ISOLATE FROM DESERT BIGHORN SHEEP IN SOUTHERN CALIFORNIA

To understand the role of bighorn sheep (Ovis canadensis) in the epidemiology of anaplasmosis, we recovered a field isolate from a suspected enzootic area in southern California (USA). Whole blood was collected from three desert bighorn sheep (Ovis canadensis nelsoni) and inoculated into a susceptible splenectomized domestic sheep, calf and a susceptible spleen-intact bighorn sheep. No infection occurred in the calf, but a detectable infection developed in both the domestic sheep and bighorn sheep 24 days after inoculation. The infection in both domestic and bighorn sheep resulted in severe clinical disease but was resolved with the use of tetracycline. Using monoclonal antibodies and DNA probes, we confirmed that the isolate was Anaplasma ovis.

Direct isolation in cell-free medium of a spiroplasma fromHaemaphysalis leporispalustris (Acari: Ixodidae) in Maryland

A spiroplasma isolate, was obtained from rabbit ticks (Haemaphysalis leporispalustris) taken from cottontail rabbits in Maryland by inoculation of tick suspensions into SP-4 medium. The isolate was indistinguishable from an experimental vertebrate pathogen (suckling mouse cataract agent spiroplasma) when tested with other plant and tick spiroplasmas in growth inhibition, deformation, and metabolism inhibition tests. The isolated organism had a pathogenic profile for suckling rats and embryonated chicken eggs that differed significantly from that of other suckling mouse cataract agent strains. This is the first report of a direct spiroplasma isolation from ticks in cell-free medium, and confirms the specific association of spiroplasmas of the suckling mouse cataract agent serogroup with rabbit ticks.