East Coast fever: quantitative studies of Theileria parva in cattle

A series of experiments is described in which infective material obtained by grinding adult Rhipicephalus appendiculatus ticks containing mature Theileria parva parasites was titrated in East Coast fever-susceptible cattle. The reactions of the cattle to the various inocula, and the rate of multiplication of macroschizonts in their lymph nodes, were studied. In the final experiment, conclusive evidence was produced to support the observations of previous workers that the prepatent period, time to onset of febrile response, and time to death of the animals was dose-dependent, whereas the production of intraerythrocytic piroplasms was totally time-dependent. Furthermore, the effective rate of multiplication of macroschizonts was shown for the first time to be dose-dependent. It was not possible to detect macroschizonts before the fifth day after inoculation, and an occult phase of the parasite's life cycle, between the infective particle and the uninuclear macroschizont, is postulated. The discrepancies between the results of the present work and those of previous workers are discussed.     

East Coast fever: the infectivity for cattle of infective particles of Theileria parva harvested in various substrates

Cunningham M.P., Brown C.G.D., Burridge M.J., Joyner L.P. and Purnell R.E. 1973. East Coast fever : the infectivity for cattle of infective particles of theileria parva harvested in various substrates. International Journal for Parasitology3: 335–338. Female Rhipicephalus appendiculatus ticks infected with Theileria parva were pre-fed on rabbits for 4 days before being removed and restrained on ‘plasticine’. They were then fed for 2-h periods on capillary tubes containing various substrates, the contents of which were subsequently inoculated into East Coast fever-susceptible cattle. Using this technique, precolostral calf serum and Eagle's Minimum Essential Medium, with the addition of Bovine Albumin Powder, were selected as substrates suitable for further laboratory investigation on East Coast fever as they were acceptable to the ticks and supported the viability of the parasites.     

Salivary gland of the tick vector of East Coast fever. III. The ultrastructure of sporogony in Theileria parva

Sporogony of the sporozoan Theileria parva in the salivary gland of the tick vector of East Coast fever was studied in electron micrographs. The findings differ in several respects from previous interpretations based upon light microscopy. Cytokinesis of the primary sporoblast to form secondary and tertiary sporoblasts is not substantiated. Instead it is suggested that the parasite develops as a ramifying, multinucleate syncytium rapidly increasing in size and complexity until it gives rise to myriad sporozoites in a terminal episode of cytoplasmic fission. The proliferating nuclei initially occupy peripheral lobules that are continuous with a central labyrinth of branching and anastomosing processes which present a very large surface area for interchange of metabolites with the host cell cytoplasm. The membrane of the labyrinth is rich in cytostomes, but no evidence if found to bulk uptake of host cytoplasmic matrix or organelles into food vacuoles. Rhoptries are the first of the polar organelles of the parasite to develop and are associated with dense plaques irregularly distributed on the inner aspect of the parasite membrane. Micronemes form independently of the rhoptries at a later stage. After 3-4 days of tick feeding, sporogeny is complete and the infected salivary gland cell contains up to 50, 000 spherical or ovoid sporozoites about 1 micrometer in diameter. These are limited by a simple plasma membrane. The inner layer of the 'pellicle', the polar ring, and the conoid described for zoites of other Apicomplexa are lacking. Maturational changes are noted in sporozoites after sporogony is completed. Micronemes appear to increase in size, and possibly in number, from days 3-5 and the majority take up positions immediately subjacent to the plasmalemma.     

A Preliminary Electron Microscopic Study of East Coast Fever (Theileria parva Infection)

SYNOPSIS. The fine structure of various stages in the life cycle of Theileria parva is described. The appearance of the parasites suggests that there may be a double macroschizogony cycle. Micromerozoites are produced by a process of budding off from the body, known in light microscopy preparations as the residual body.     

East coast fever: 60Co-irradiation of Theileria parva in its tick vector, Rhipicephalus appendiculatus

Three experiments were carried out in which Theileria parva was irradiated in its tick vector, Rhipicephalus appendiculatus. In the first experiment, infected unfed adult ticks were irradiated at doubling doses from 4 to 32 krad. Some of the ticks were then fed for 4, 5, 6, 7 and 8 days on rabbits, and the parasites in their salivary glands examined. Five male and 5 female ticks from each irradiation dose were put onto each of a pair of susceptible cattle, whose reactions were recorded. Increasing doses of irradiation resulted in progressive destruction of the parasites. All cattle receiving ticks irradiated at doses up to and including 16 krad died of East Coast fever (ECF), and one of the cattle receiving ticks irradiated at 32 krad died.In the second experiment, recently engorged nymphs were irradiated at 1, 2 or 4 krad, and moulting nymphs at doses of 2, 4, 8, 12, 16 or 32 krad. The salivary glands of the resultant adult ticks were examined after the ticks had fed for 4, 5, 6, 7 or 8 days on rabbits. Engorged nymphs irradiated at 4 krad failed to moult, whilst moulting nymphs irradiated at 32 krad moulted but failed to attach to rabbits. Doses of irradiation survived by the ticks had no apparent morphological effect on the parasites they contained.In the third experiment, infected unfed adult ticks were irradiated at 0, 5, 10, 15, 20 25 30, 35, 40, 45, 50 or 60 krad. The ticks were fed on rabbits for 5, 6 or 7 days. Some of them were then examined morphologically, whilst others were ground in MEM/BPA and aliquots of the supernatant used to inoculate groups of 5 cattle. The reaction of these cattle, together with the morphological examination of the parasites, suggested that increasing doses of irradiation destroyed increasing numbers of parasites.     

East Coast Fever of Cattle: 60Co Irradiation of Infective Particles of Theileria parva

SYNOPSIS. Infective particles (IPs) of Theileria parva , the causative organism of East Coast Fever of cattle, were harvested from the tick vector, Rhipicephalus appendiculatus , using an in vitro feeding technic. In a ranging experiment, pairs of cattle were inoculated with aliquots of suspensions of IPs irradiated at doses of 4–137.6 krad. Doses of irradiation in excess of 8 krad appeared to destroy the parasite. In the 2nd and 3rd experiments, groups of 5 cattle were inoculated with aliquots of suspensions containing low and high concentrations of IPs respectively, irradiated at doses of 4–32 krad. In the 2nd experiment, doses of irradiation in excess of 10 krad appeared to destroy the parasite. In the 3rd experiment, at least 1 animal became infected when inoculated with an aliquot of a suspension irradiated at 16 krad. In all experiments, it appeared that increasing doses of irradiation destroyed increasing numbers of IPs. There was no conclusive evidence that IPs which survived irradiation were attenuated, and it appears that vaccination of cattle against ECF is unlikely to be achieved by inoculation of irradiated IPs using the methods described.     

A Sporozoite-based vaccine for Theileria parva

East Coast fever, which is caused by Theileria parva infection in cattle, is of major economic importance in eastern and central Africa. Until recently, the only available method of immunization against East Coast fever was the infection with live sporozoites and simultaneous treatment with a long-acting oxytetracycline. This method has two major disadvantages: (I) it uses live organisms; and (2) the immunity engendered is parasite strain specific. In this article, Antony Musoke, Vishvonath Nene and Subhosh Morzoria review the progress made in developing an alternative method o f immunization based on a defined sporozoite antigen.     

Theileria parva: significance of leukocytes for infecting cattle

Using an artificial feeding technique, infective particles of Theileria parva were harvested in bovine blood in capillary tubes from prefed female Rhipicephalus appendiculatus over a 2-hr period. Inoculations of this blood feed pool invariably resulted in the establishment of patent East Coast fever in autogeneic or syngeneic cattle, i.e., the blood donors or their monozygotic twins, but not in unrelated animals. Mechanical passage of 4 × 10⁶ macroschizont-infected lymphoid cells, harvested from a heifer with East Coast fever, successfully induced patent theileriosis in the donor's monozygotic twin but not in a susceptible allogeneic bovid. The significance of parasite-cell association and histocompatibility of infected cells is discussed in relation to natural and mechanical transmission of Theileria parva.     

The genome of Theileria parva: some structural properties

The DNA of the protozoan Theileria parva, the causal agent of the bovine East Coast Fever, has been prepared at least 99% pure from the intra-erythrocytic form of the parasite. Its buoyant density was found to be 1.696 g/cm3 and its calculated G + C content was 36.7%. Fragmentation of T. parva by the restriction enzyme EcoRI provides some evidence of the presence of repetitive DNA sequences.     

Theileria parva: expression of a sporozoite surface coat antigen

A monoclonal antibody specific for the Theileria parva sporozoite, which recognizes a determinant on the surface coat and blocks sporozoite infectivity, was used to investigate the presence of the determinant on other stages of the parasite lifecycle. Immunofluorescence techniques did not demonstrate this determinant on the kinete, schizont, merozoite, or piroplasm stages of the parasite. Immunoautoradiography, using a tritiated form of the monoclonal antibody, on sections of infected salivary glands collected from ticks that had fed for 0, 1, 2, 3, or 4 days revealed that the determinant recognized was synthesized predominantly during sporogony, between 2 to 3 days after the tick started feeding. Immunoelectron microscopy was performed on ultrathin frozen sections of infected tick salivary glands incubated with the monoclonal antibody followed by Protein-A--colloidal gold. The antigen or its precursor could be detected in the developing parasite. In ticks fed 2 days, the sporoblast was labeled, both in the cytoplasm and on parasite membranes, often including the nuclear envelope. In sections from ticks fed 4 days, the sporozoite surface membrane was labeled, as were membrane-bounded sporozoite organelles identified as micronemes. Observation by immunofluorescence, on sporozoites incubated with bovine peripheral blood lymphocytes, suggested that the antigen recognized by the monoclonal antibody does not enter the lymphocyte during sporozoite endocytosis. We conclude that synthesis of the antigen or its precursor(s) occurs during sporogony in the feeding tick, at the time of maximal parasite proliferation, and precedes the formation of morphologically mature sporozoites; the antigen's role in the parasite life cycle also appears to be limited to events associated with the sporozoite entry process.