J.A.G.M. Kleuskens

Different Babesia canis isolates, different diseases

Using surface immunofluorescence isolate-specific antigens were detected on the membrane of erythrocytes infected with Babesia parasites. In addition, the strains reacted differently with Plasmagel in that the European isolate (B.c. canis) could be purified on Plasmagel effectively, whereas infected erythrocytes of the South-African isolate (B.c. rossi) could not. Experimental infection of dogs with Babesia canis isolates from geographically different areas revealed different pathology. The European isolate obtained from France exhibited transient parasitaemia, usually below 1%, associated with low PCV values and congestion of internal organs. Clinical disease was correlated with an effect on the coagulation system, and not with peripheral parasitaemia. Infection of dogs with South-African-derived isolate induced high parasitaemia usually much higher than 1%, which required chemotherapeutic treatment. In these animals clinical disease was correlated with peripheral parasitaemia and not with parameters of the coagulation system. The results show that the etiology of disease caused by these isolates of B.c. canis and B.c. rossi is different. This might have implications for the development of vaccines against these infections.

Systemic inflammatory responses in dogs experimentally infected with Babesia canis; a haematological study.

A detailed haematological study of dogs that were infected with low, moderate or high numbers of Babesia canis-infected red blood cells was performed in an attempt to elucidate the pathogenesis early after B. canis infection. Results showed that upon infection the C-reactive protein (CRP) level in plasma increased prior to the detection of parasites in the blood indicative of an acute phase reaction. The response was further characterised by fever, fibrinogenaemia, thrombocytopenia and leucopoenia. Thrombocytopenia was associated with increased coagulation time. Infected dogs also developed life threatening hypotension, and dogs that were infected with the highest dose of B. canis-infected red blood cells had to be treated chemotherapeutically. Hypotension was associated with a reduced packed cell volume (PCV). This reduction of PCV correlated with reduced plasma creatinin concentration, suggesting that the plasma volume was increased, affecting both the erythrocyte and creatinin concentration in the plasma. Importantly, the onset of the response but not the dynamics of the response was dependent on the infectious dose i.e. curves obtained with different doses of infected erythrocytes appeared to be shifted in time but had a similar shape. This indicates that infection triggered a preset inflammatory response.

Vaccination of dogs against Babesia canis infection using parasite antigens from in vitro culture

Summary Groups of five dogs were vaccinated with different Babesia canis vaccine formulations. It appeared that partial protection against challenge infection was obtained when using parasite antigens from in vitro culture in combination with saponin. Protection was evident as a decrease in parasitaemia after challenge and was associated with the presence of serum antibodies against Babesia parasites. In addition, parasite antigen derived from in vitro culture supernatant exhibited more protective activity than somatic parasite antigen, in that a less marked fall of haematocrit values was found after challenge infection. The fall of haematocrit value observed in the animals immunized with somatic parasite antigen was not different from that observed in the adjuvant control group.

Not peripheral parasitaemia but the level of soluble parasite antigen in plasma correlates with vaccine efficacy against Babesia canis

Groups of five dogs were vaccinated against Babesia canis using soluble parasite (SPA) antigens from in vitro cultures. Although vaccination did not significantly alter peripheral parasitaemia upon challenge, protected animals had lower levels of SPA in the plasma after a challenge infection. The severity of anaemia correlated with the SPA‐load during the post‐challenge period in that high levels of SPA were associated with low haematocrit values. In addition, it was found that recovery was associated with the production of antibodies against SPA. The results suggest that SPA induce anaemia during B. canis infection, and that vaccination with SPA results in antibody production that can neutralize the effects of SPA after a challenge infection.

Vaccination of dogs against Babesia canis infection using antigens from culture supernatants with emphasis on clinical babesiosis

Groups of five dogs were vaccinated with Babesia canis antigens from in vitro culture in combination with saponin as adjuvant. Protection against challenge infection was evident as diminished clinical disease, decrease in parasitaemia, and a less marked fall in haematocrit values. Recovery from infection occurred at the time a memory immune response became effective (from Days 5 to 6 after challenge infection onwards). The effect was dose dependent, the highest antigen dose being most effective. A lysate of normal erythrocytes did not have protective activity, indicating that a parasite component was responsible for protection. Unlike the malaria situation, disease was not associated with elevated levels of tumour necrosis factor in the plasma, nor with hypoglycaemia. Disease appeared to be the result of the activity of a parasite product, which could have triggered reactions which led to sequestration of erythrocytes from the peripheral venous blood. As a result, the packed cell volume decreased, and organs such as lymph nodes and spleen became congested. As soon as immunity had developed there was a rapid increase in the peripheral erythrocyte number, and congestion of the spleen diminished, indicative of restored capillary blood flow. The results further suggest that vaccination with a soluble parasite product blocks the trigger of this pathological process.

Vaccination of dogs against Babesia canis infection.

This paper describes the clinico-pathological parameters measured in dogs that were vaccinated against Babesia canis using soluble parasite antigens (SPA) and then challenged. The packed cell volume (PCV) and the plasma creatinine value decreased immediately after challenge. Actual PCV values could be predicted in the first 5-6 days of the infection, assuming that creatinine values were modulated by increase of plasma volume. This association no longer existed after that time, and observations indicated splenic involvement in reduction of numbers of circulating erythrocytes. The anaemia due to B. canis infection appears to be the result of a multifactorial process including plasma volume increase, erythrocyte retention in the spleen and erythrocyte destruction, partly due to parasite proliferation. Vaccination limited the reduction of PCV values, and the development of splenomegaly. Differences in protection between vaccinated and control animals became apparent 6 days after infection, when a memory immune response becomes operative, and the onset of recovery of vaccinated animals correlated with the onset of antibody production against SPA.

Strain variation limits protective activity of vaccines based on soluble Babesia canis antigens

Groups of five dogs were immunized with vaccines containing soluble parasite antigens (SPA) derived from in vitro culture of Babesis canis parasites, either obtained commercially (Pirodog®) or produced at laboratory scale. Both vaccines generated antibodies that reacted with parasitised erythrocytes (PE). Upon challenge infection with homologous parasites, protection was evident from less severe decreases of haematocrit values, and reduced morbidity. Vaccinated animals, however, were not protected against challenge infection with heterologous B. canis parasites. Recovery from challenge infection coincided with the production of antibodies against parasitized erythrocytes. The results suggest that SPA from B. canis carry strain‐specific determinants that are crucial for inducing protection in dogs against challenge infection, and explain vaccination failures in the field.

Vaccination of dogs against heterologous Babesia canis infection using antigens from culture supernatants

Soluble parasite antigens (SPA) from European Babesia canis can be used to protect dogs against a homologous but not heterologous challenge infection. In this study it is shown that when dogs are vaccinated with a mixture of SPA from both, a European B. canis isolate and a South African Babesia rossi isolate, protective immunity against heterologous B. canis infection is induced. Three groups of five beagle dogs each were vaccinated twice with graded doses of SPA derived from in vitro cultures of B. canis and B. rossi, with a 3-week interval. Saponin was used as adjuvant. Three weeks after booster vaccination immunological responsiveness against heterologous B. canis antigen was measured by seroconversion against infected erythrocytes and lymphocyte transformation using SPA. Upon vaccination dogs produced antibodies against infected erythrocytes and lymphoblastogenic responses against SPA in a dose-dependent manner. Dogs were then challenged with heterologous B. canis parasites. Dogs appeared to be protected against challenge infection, which was reflected in less severe decrease of packed cell volume (PCV) and reduced clinical signs. The level of protection to clinical signs (but not excessive PCV drop) was related to the level of SPA in plasma and spleen size, and not related to peripheral parasitaemia. The results suggest that vaccination with this bivalent vaccine primes T-helper cells that recognise common epitopes on SPA from an antigenically distinct B. canis isolate. These cells provide the essential Th signal to mount an effective and timely antibody response against SPA and parasites or parasitised erythrocytes, which prevents the further development of clinical babesiosis.

Recombinant protein Bd37 protected gerbils against heterologous challenges with isolates of Babesia divergens polymorphic for the bd37 gene

The Bd37gene encoding for a glycosyl-phosphatidyl-inositol anchored protein of Babesia divergens displays genetic polymorphisms among isolates. Five major polymorphic groups (clades) were shown by PCR-RFLP among different B. divergens isolates. Each group has been characterized according to a reference Bd37 gene (Rouen87, W8843, Y5, 6303E and 1705B). Recombinant (GST fusion) protein (Bd37r) expressed from the Bd37 gene, was used as antigen in a saponin-based formulation and was able to protect gerbils, after 2 injections at low dose vaccine concentration (1 mug per dose), against a virulent challenge with the B. divergens Rouen87 isolate. In spite of polymorphism of Bd37 gene, Bd37r induced complete immunoprotection against challenges with each of the 5 reference isolate groups defined by PCR-RFLP.

Soluble parasite antigens from Babesia canis do not directly activate the kallikrein system in dogs infected with Babesia canis

Soluble parasite antigens (SPA) from Babesia canis have been shown to induce protective immunity when used as vaccine. In order to explain the immune mechanisms of vaccination, the precise role of SPA in the pathogenesis of canine babesiosis is under investigation. Earlier studies suggested that the plasma kallikrein system is central in the pathogenesis of babesiosis, malaria and trypanosomosis, and significant plasma kallikrein activation during acute B. bovis and P. knowlesi infections has been described. In the studies presented here dogs were experimentally infected with B. canis to investigate whether the plasma kallikrein system is activated during babesiosis infection. Results showed that prekallikrein levels decreased during episodes of peak parasitaemia. No effect was found on the kallikrein levels. In order to determine whether B. canis SPA could activate plasma kallikrein, dogs were infused with variable amounts of B. canis SPA and plasma samples were taken for (pre-) kallikrein determination. The results indicated that B. canis SPA did not affect plasma (pre-) kallikrein levels. In addition, the effect of B. canis SPA on (pre-) kallikrein levels in normal dog plasma was determined in vitro. Again, no effect on (pre-) kallikrein levels was found. The results suggest that, although the kallikrein pathway may be involved in B. canis-associated pathology, the system is not directly activated by B. canis SPA. Furthermore, infusion of B. canis SPA as well as stroma of normal dog erythrocytes triggered the production of the acute phase reactant, C-reactive protein. This suggests that the inflammatory response that is triggered during B. canis infection could be in part due to the release and exposure of self molecules. The implications of these findings are discussed.