Concentration and enzyme content of in vitro-cultured Babesia bigemina-infected erythrocytes

Clones of in vitro-cultured Babesia bigemina-infected erythrocytes were concentrated by several density gradient procedures. The density range of infected erythrocytes containing pairs of parasites was 1.077 to 1.089 g/ml, whereas the density range of infected erythrocytes containing single parasites was 1.092 to 1.100 g/ml. Three enzymes--lactate dehydrogenase, glucose-phosphate isomerase, and glutamate dehydrogenase--were found associated with infected erythrocytes. The parasite-specific enzyme and/or isoenzymes were shown to have different mobility patterns in starch gel electrophoresis from those found in the normal bovine erythrocytes. The enzyme 6-phosphogluconate dehydrogenase was not detected as a parasite-specific enzyme in B. bigemina-infected erythrocytes.     

Enzydmatic Characterization of Babesia bovis1

ABSTRACT. Agarose gel electrophoresis was used to identify metabolic enzymes in Babesia bovis and B. bigemina. Glutamate dehydrogenase, lactate dehydrogenase, glucose phosphate isomerase, and hexokinase were identified in B. bovis- and B. bigemina-infected erythrocytes and B. bovis merozoite preparations. A specific electrophoretic mobility was observed for each enzyme. Malate dehydrogenase, glucose 6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, and adenylate kinase were only detected in normal erythrocyte preparations. Inter-species, but not intra-species, variation was noted when comparing electrophoretograms of both species. Kinin-activating activity was not detected in B. bovis-infected erythrocyte or merozoite preparations at pH 4.2 or 7.6.     

Plasmodium falciparum: Association with Erythrocytic Superoxide Dismutase1

Levels of superoxide dismutase (SOD) activity and its properties in Plasmodium falciparum-infected erythrocytes, isolated parasites, and noninfected erythrocytes were studied. A higher specific activity was found in P. falciparum-infected erythrocytes compared to noninfected erythrocytes, resulting from the lower protein content of infected cells and not enzyme synthesis by the parasite, as the superoxide dismutase activity expressed per number of cells was decreased. Superoxide dismutase from noninfected erythrocytes and isolated P. falciparum parasites showed similar sensitivities to various inhibitors and had identical molecular weights and electrophoretic mobilities. These results support the hypothesis of uptake and use of the erythrocytic SOD enzyme by the parasite as a possible mechanism of defense against oxidative stress.     

Babesia bigemina: immune response of cattle inoculated with irradiated parasites

Effects of various radiation dosages on the infectivity and immunogenicity of Babesia bigemina were studied. Calves infected with 1 × 10¹⁰, B. bigemina parasitized erythrocytes exposed to 24 krad developed progressive parasitemias. Some calves receiving 1 × 10¹⁰ parasitized erythrocytes irradiated at 36 krad did not develop progressive infections. Progressive infections were prevented by exposure to irradiation at 48 and 60 krad. A degree of acquired resistance to infection with B. bigemina developed in calves after inoculation with parasites irradiated at 48 and 60 krad. The resistance developed was sufficient to suppress multiplication of the Babesia and to permit calves to survive otherwise severe clinical infections due to challenge with nonirradiated parasites. Irradiated parasites were frozen without apparent loss of immunizing properties.     

Plasmodium berghei: Uptake and distribution of chloroquine in infected mouse erythrocytes

The capacity of mouse erythrocytes infected with Plasmodium berghei to accumulate chloroquine is developed with maturation of the parasites. This is shown by direct comparison of the early and mature stages, which are separated by density difference. After drug accumulation, infected cells were fractionated by saponin lysis or nitrogen decompression to study the drug distribution. Effectiveness of isolating intact parasites and host components was checked by SDS-polyacrylamide gel electrophoresis and by low leakage of parasite-specific lactate dehydrogenase used as a marker enzyme. At low external drug concentration (~10^?7M), chloroquine is principally accumulated in the parasites. However, at higher drug concentrations (~10^?5and ~10^?3M), the proportion of the drug found in the host cytosol fraction is increased. A small but significant proportion of the drug (<20%) is associated with the host cell membrane. The pellet fraction of the freed parasites, further fractionated by freeze-thaw lysis, contains a major proportion of the drug at low external concentrations. However, the pellet fraction obtained from prolonged sonication of the parasites, which contains the bulk of hemozoin pigment, carries only a small proportion of the drug. This indicates that parasite membrane components may bind most of the drug. As external chloroquine concentration is increased, the proportion of drug in the parasite supernatant increases, some or most of which is probably bound by soluble hemecontaining compounds. However, the presence of chloroquine in the parasite does not affect the partition of heme in particulate and soluble forms.     

Dihydrofolate Reductase in Plasmodium lophurae and Duckling Erythrocytes*

Dihydrofolate reductase activity in duckling erythrocytes was found to be low, while activity in erythrocytes heavily infected with small uninucleate trophozoites was like that of uninfected erythrocytes. Activity of the enzyme in erythrocytes infected with large multinucleate parasites, however, was greatly increased. This activity was 5 times higher in erythrocyte-free large trophozoites than in small ones. The dihydrofolate reductase of P. lophurae differed from the host enzyme in: greater molecular weight; higher sensitivity to pyrimethamine inhibition; pH optimum; substrate and cofactor specificity; and stimulation by salts. The parasite enzyme was partially purified by ammonium sulfate precipitation.     

Glucose-6-phosphate dehydrogenase from Plasmodium berghei: kinetic and electrophoretic characterization

Evidence is given for the existence of a parasite-specific glucose-6-phosphate dehydrogenase (G6PD) in Plasmodium berghei by characterization of its kinetic and electrophoretic properties. From infected rat erythrocytes the parasites were isolated, washed, and lysed. G6PD was purified by affinity chromatography with 2'5'-ADP-Sepharose 4B, although the separation of the malaria-specific enzyme from that of the host cell was not complete. Malarial G6PD significantly differed from the red cell enzyme with respect to its electrophoretic properties. In cellulose acetate electrophoresis, a band with catodic mobility was observed in addition to the anodically mobile host cell enzyme at pH 7.0. The subunits of the parasite-specific G6PD have a molecular weight of 55 kDa in contrast to 59 kDa of red cell G6PD subunits. The enzyme from P. berghei shows no cross-reactivity with polyclonal antibodies against G6PD from rat erythrocytes. Thus, a close evolutionary relationship between both proteins and the presence of proteolytic modifications could be excluded. The Km value for G6P of malarial G6PD is increased by one order of magnitude compared with the host cell enzyme.     

Babesia rodhaini, Babesia bovis, and Babesia bigemina: analysis and sorting of red cells from infected mouse or calf blood by flow fluorimetry using 33258 Hoechst.

The DNA of Babesia spp. parasites within host intact red blood cells was labeled using the fluorescent bisbenzimidazole dye 33258 Hoechst. The labeled cells were sorted on a fluorescence activated cell sorter on the basis of cell fluorescence (proportional to DNA content) and the intensity of light scattered from the cells at low angles (related to cell size). The optimal conditions for dye uptake were established for the murine parasite Babesia rodhaini and the bovine parasites B. bovis and B. bigemina. Uninfected cells were nonfluorescent after incubation with the dye and could be completely separated from infected fluorescent cells. The fluorescence of cells infected with B. rodhaini was proportional to the number of parasite nuclei per cell. With saturation levels of dye, samples infected with B. bovis or B. bigemina in which erythrocytes contained one or two parasites, both exhibited only one fluorescent cell peak. Cell sorting did not eliminate the infectivity of B. rodhaini. The method may be used to separate populations of uninfected blood cells and cells infected with Babesia spp. for biochemical and immunochemical experiments.     

Artemisone inhibits in vitro and in vivo propagation of Babesia bovis and B. bigemina parasites

Artemisone was evaluated, in in vitro and in vivo, for control of bovine babesiosis caused by Babesia bigemina and Babesiabovis parasites. In vitro, artemisone reduced parasitemia in a dose-dependent manner: the inhibitory effects increased gradually, reaching a maximum inhibition of 99.6% and 86.4% for B. bigemina and B. bovis, respectively 72 h after initiation of treatment with initial parasitemia of 0.5%. In calves infected with either B. bigemina or B. bovis artemisone treatment was well tolerated and prevented development of acute babesiosis in all animals except for one B. bovis-infected calf. The treatment did not eliminate all blood parasites, and recovered animals carried a persistent low-level infection. Treatment with artemisone may be useful as an alternative drug for preventing the pathology that results from babesiosis, without interfering with acquired immune protection following recovery from an acute babesiosis infection or vaccination.     

Columbin inhibits cholesterol uptake in bloodstream forms of Trypanosoma brucei-A possible trypanocidal mechanism

The diterpenoid furanolactone (columbin) from Aristolochia albida inhibited growth of culture forms of Trypanosoma brucei. In vitro analysis of the compound at 5–250 μg/ml showed complete lysis of the parasites within 10–20 minutes post incubation. At 50 μg/ml, columbin killed about 50% of the parasites which initially appeared swollen under phase contrast microscopy. Also the total amount of cholesterol diminished dose-dependently in the presence of 10–100 μg/ml of columbin after a 3-day incubation period.

In vivo analysis of the compound in T. brucei-infected mice revealed that 25 mg/kg administered for 3 consecutive days, completely cleared the parasites from the peripheral circulation. However, columbin could not clear parasites in the cerebrospinal fluid.     

Plasmodium lophurae: Membrane Proteins of Erythrocyte-free Plasmodia and Malaria-Infected Red Cells*

SYNOPSIS. Plasma membranes of normal duckling erythrocytes were prepared by blender homogenization and nitrogen decompression. Surface membrane vesicles of red cells infected with the avian malaria Plasmodium lophurae were produced by nitrogen decompression. Membranes of erythrocyte-free malaria parasites were removed from cytoplasmic constituents by Dounce homogenization. These membranes were collected by centrifugation in a sucrose step gradient and purified on a linear sucrose gradient. Red cell membranes had a buoyant density of 1.159 g/cm³, whereas plasmodial membranes banded at 2 densities: 1.110 g/cm³ and 1.158 g/cm³. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of the isolated red cell membranes revealed 7 major protein bands with molecular weights (MW) ranging from 230,000 to 22,000, and 3 glycoprotein bands with MW of 160,000, 88,000 and 37,000. Parasite membranes also had 7 major bands with MW ranging from 100,000 to 22,000. No glycoproteins were identifiable in these membranes. The proteins of the surface membranes from infected red cells had MW similar to those from normal red cells; however, there was some evidence of a reduction in the amount of the high MW polypeptides. The red cell membrane contained 79 nmoles sialic acid/mg membrane protein, whereas plasmodial membranes had 8 nmoles sialic acid/mg membrane protein. The sialic acid content of the surface membranes of infected red cells was significantly smaller than that of normal cells. Lactoperoxidase-glucose oxidase-catalyzed iodination of intact normal and malaria-infected erythrocytes labeled 7 surface components. Although no observable differences in iodinatable proteins were seen in these preparations, there was a striking reduction in the iodinatability of erythrocytic membranes obtained from P. lophurae-infected cells. Erythrocyte-free plasmodia bound very little radioactive iodine; the small amount of radioactivity was distributed among 3 major bands with MW of 42,000, 32,000 and 28,000. It is suggested that the alterations of the surface of the P. lophurae-infected erythrocyte do not occur by a wholesale insertion of plasmodial membrane proteins into the red cell plasma membrane, but rather that there are parasite-mediated modifications of existing membrane polypeptides.     

Plasmodium knowlesi: glycolytic intermediate levels of enzyme activities of infected rhesus monkey erythrocytes

In vitro glycolytic enzyme activities and in vivo glycolytic intermediate concentrations were assayed in Plasmodium knowlesi-infected rhesus monkey erythrocytes and control erythrocytes. The enzyme activities of infected erythrocytes were greater than controls indicating that P. knowlesi had its own glycolytic system and that parasite glycolysis was the source of the increased rate of glucose consumption by infected erythrocytes. The P. knowlesi glycolytic enzymes phosphofructokinase and hexokinase were less sensitive to acid inhibition than uninfected red cells.P. knowlesi-infected monkey erythrocytes and Plasmodium berghei-infected mouse erythrocytes had similar in vivo glycolytic profiles and in vitro enzyme activity increases.     

Studies on the viscosity of solutions of bovine liver glutamate dehydrogenase and on related hydrodynamic models; effect of toluene on enzyme association

The viscosity of bovine liver glutamate dehydrogenase solutions was studied at 10 and 20° C in 0.2.M sodium phosphate buffer at pH 7, in the concentration range 0.1–8 mg/ml. A method for the study of the viscosity of very dilute solutions of associating enzymes is described. It was found that the reduced specific viscosity η_sp/c of glutamate dehydrogenase continuously increases with increasing enzyme concentration, from about 4 ml/g at the lowest concentrations to about 16 ml/g at 8 mg/ml. In the presence of 10^?3M GTP and 10^?3M NADH the viscosity increase is much smaller and the results can be extrapolated to zero enzyme concentration to yield an intrinsic viscosity [η] = 3.2. The values of η_sp/c in phosphate buffer alone apparently extrapolate to the same value of [η], or to a value close to it. We also observe that, in the presence of toluene η_sp/c increases very much more with enzyme concentration: η_sp/c already equals 16 ml/g at a concentration of 0.75 mg/ml. These observations are in good agreement with the hypothesis that the active oligomer of glutamate dehydrogenase (MW = 312,000) associates with increasing enzyme concentration to form linear rodlike polymers of indefinite length. This association is strongly diminished by the addition of 10^?3M GTP, 10^?3M NADH. Toluene, on the other hand, promotes reversible association to linear polymers of very high molecular weight. The transverse and axial rotary frictional coefficients of macroscopic bodies, similar to a physical model for the structure of glutamate dehydrogenase recently advanced, were determined. Assuming that the viscosity of the model is equal to that of an ellipsoid of rotation with identical frictional coefficients, we calculate [η] = 3.26 ml/g according to Kuhn and 3.20 ml/g according to Simha, for the glutamate dehydrogenase oligomer, in good agreement with the result derived from the study of enzyme solutions.     

The avian malaria parasite Plasmodium gallinaceum causes marked structural changes on the surface of its host erythrocyte

Using a combination of atomic force, scanning and transmission electron microscopy, we found that avian erythrocytes infected with the avian malaria parasite Plasmodium gallinaceum develop 60 nm wide and 430 nm long furrow-like structures on the surface. Furrows begin to appear during the early trophozoite stage of the parasite’s development. They remain constant in size and density during the course of parasite maturation and are uniformly distributed in random orientations over the erythrocyte surface. In addition, the density of furrows is directly proportional to the number of parasites contained within the erythrocyte. These findings suggest that parasite-induced intraerythrocytic processes are involved in modifying the surface of host erythrocytes. These processes may be analogous to those of the human malaria parasite P. falciparum, which induces knob-like protrusions that mediate the pathogenic adherence of parasitized erythrocytes to microvessels. Although P. gallinaceum-infected erythrocytes do not seem to adhere to microvessels in the host chicken, the furrows might be involved in the pathogenesis of P. gallinaceum infections by some other mechanism involving host-pathogen interactions.     

Separation and Concentration of Schizonts of Plasmodium falciparum by Percoll Gradients1

A technique for the separation of schizonts of Plasmodium falciparum is described. The different stages of the asexual cell cycle of the parasite were positioned according to their density in a continuous gradient of Percoll. Young trophozoites coincided with erythrocytes in a broad band corresponding to densities from 1.075 to 1.100 g/ml, whereas schizonts were concentrated at a density approximating 1.062 g/ml. The viability of the parasites was unimpaired by this procedure. Young trophozoites and schizonts continued their normal life cycle when cultured after the separation procedure. The percentage of recovery was high, reaching 80% of the initial quantity. Possible applications of the technique are discussed.     

Plasmodium lophurae: Immunization of Pekin ducklings with different antigen preparations

Pekin ducklings were vaccinated with Freund's complete adjuvant plus free Plasmodium lophurae parasites, erythrocytes infected with P. lophurae schizonts, or parasite membrane vesicles. Approximately 50% of the vaccinated ducklings were resistant to challenge with this malarial parasite. However, little protection was afforded by immunization of ducklings with a parasite-specific histidine-rich protein.     

Purine and Pyrimidine Synthesis by the Avian Malaria Parasite,Plasmodium lophurae*

SYNOPSIS. Purine and pyrimidine biosynthesis in the avian malaria parasite Plasmodium lophurae and its host cell, the duck erythrocyte, were investigated in vitro. Pyrimidine synthesis, as measured by the incorporation of C¹⁴-NaHCO₃ into cytosine, uracil and thymine was slight in uninfected duck erythrocytes, whereas infected erythrocytes and erythrocyte-free parasites had high rates of incorporation of NaHCO₃ into these bases. In addition, orotidine-5′-monophosphate pyrophosphorylase and thymidylate synthetase, 2 enzymes of the pyrimidine biosynthetic pathway, were found in cell-free extracts of the plasmodia. Purine synthesis was measured by determining the extent of incorporation of C¹⁴-Na-formate into adenine and guanine. Uninfected and infected erythrocytes had similar rates of Na-formate incroporation into adenine. whereas free parasites incorporated little of this compound into adenine, or guanine. On the other hand, the incorporation of Na-formate into guanine was 54% higher in infected erythrocytes than in uninfected erythrocytes. It is suggested that P. lophurae synthesizes purines to a limited extent, and derives most of its purines from the host erythrocyte. The greater incorporation of Na-formate into guanine by infected cells, and its low incorporation into free parasites may be accounted for by parasite conversion of host cell adenine (in the form of ATP) into guanine. Pyrimidine biosynthesis in infected cells can be accounted for by de novo synthesis by the parasite itself.     

Pyridoxine Kinase in Plasmodium lophurae and Duckling Erythrocytes*

SYNOPSIS. Pyridoxine kinase enzyme activity was greatly increased in duckling erythrocytes infected with Plasmodium lophurae. Pyridoxine kinase activity in parasites freed from erythrocytes was much greater than that of uninfected erythrocytes. The apparent K_m for pyridoxine of the parasite enzyme was 6.6 × 10^-5 M whereas the host red cell enzyme K_m was 1.9 × 10^-6 M. Deoxypyridoxine inhibited host and parasite pyridoxine kinase activity with an apparent K_i of 1.5 × 10^-6 and 8.6 × 10^-6 M, respectively. These results suggest that the vitamin B₆ metabolism of the malaria parasites is distinct and separate from that of the host erythrocytes.     

Immunity against Boophilus annulatus induced by the Bm86 (Tick-GARD) vaccine

Friesian cattle were immunized with two inoculations of anti-tick Bm86 (Tick-GARD) vaccine and were challenged 30 or 90 d later with Boophilus annulatus larvae derived from 1.2 g of eggs. No nymphs or adult ticks were found on the immunized cattle during four weeks after challenge. Repeated infestations (2 to 4) with larvae on three other calves during a period of 160 and 390 d after the immunization did not result in development of nymphal and adult stages. In control, non-immunized cattle infested with corresponding batches of larvae 1380 to 4653 replete adult female ticks were collected. Larvae issued from Babesia bovis-infected female ticks transmitted the infection to Bm86-immunized cattle, but the progeny of B. bigemina-infected females did not. Since B. bigemina is transmitted exclusively by nymphal stages of Bo. annulatus these results support the observation that immunity induced by Bm86 affects the larval stage of this tick.     

Ultrastructure of an Unusual Erythrocytic Form of Plasmodium berghei*

SYNOPSIS. Unusual dense forms were discovered in ultrathin sections of Plasmodium berghei-infected rat erythrocytes. These parasites frequently occurred with one or more typical trophozoites in a single blood cell. They appeared darker than both the neighboring trophozoites and the host erythrocyte. Ribosomes were visible in clusters in their compact cytoplasm. The endoplasmic reticulum, when present, had dilated cisternae often containing a material of low density. Large food vacuoles werecommonly seen along with the small vesicles harboring pigment granules. The single large nucleus had dense nucleoplasm. Multilaminated membraned bodies and sausage-shaped vacuoles were, seen in some of the parasites. The exact identity of this form of P. berghei is not known. Its possible significance is discussed with particular reference to the differentiation of gametocytes.