Restoration of mitochondrial energy-linked reactions following dexamethasone treatment of rats infected with the liver fluke Fasciola hepatica.

Mitochondria isolated from male Wistar rats experimentally infected with the common liver fluke, Fasciola hepatica, exhibit loss of respiratory control from 2 weeks post-infection (Rule, et al. (1989) Biochem. J. 260, 517-523). We now report that subcutaneous injections of the anti-inflammatory drug, dexamethasone, during the final week of infection prevented the mitochondrial uncoupling and restored respiratory control almost to the levels of uninfected controls. Further investigations have shown that mitochondria from infected rat livers are unable to synthesize ATP and that abnormal respiration is also evident in hepatocytes isolated from infected rats. These abnormalities were absent when infected rats were treated with dexamethasone. In addition, liver mitochondrial function in infected, congenitally athymic, nude rats (CBH/R nu/nu) was not significantly different from that in uninfected nude or Wistar controls. These results provide evidence that the mitochondrial dysfunction in fascioliasis is host-mediated and that T lymphocytes in particular may be involved.     

Aging-related decrease in hepatic cytochrome oxidase of the Fischer 344 rat

The effect of aging on the hepatic mitochondrial population has been determined using a rigorously defined group of Fischer 344 rats with known survivorship data. The age groups studied included mature adult controls (8.5 months; 100% survivorship), an intermediate aged group (17.5 months; 90% survivorship), and an aged group (29 months; 20% survivorship). Cytochrome oxidase activity and content were determined in homogenates and mitochondrial fractions. The mitochondrial fractions were characterized by determination of respiratory activity, and monoamine oxidase activity as well as evaluation of the polypeptide composition by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and two-dimensional electrophoresis. The yield of protein in the isolated mitochondrial fraction as well as the mitochondrial specific content decreased significantly as a function of aging. Mitochondrial specific content was determined from the specific activities of cytochrome oxidase in the homogenate (per gram liver) and in the isolated mitochondrial fraction (per mg protein). Specific activity of hepatic cytochrome oxidase decreased approximately 15% (P = 0.035) in homogenates from the 17.5-month animals with a further, highly significant (P = 0.0002) decrease (29%) in the 29-month animals. In contrast, there was no statistically significant difference among the age groups in the cytochrome oxidase specific activity in the isolated hepatic mitochondrial fractions. However, the percentage of the total homogenate cytochrome oxidase activity recovered in the isolated mitochondrial fraction decreased significantly in the 29-month animals (P = 0.0063 vs the 8.5-month controls; P = 0.022 vs the 17.5-month group). Cytochrome aa₃ content of total liver homogenates from aged animals decreased (P = 0.00064) which is in agreement with the decline in cytochrome oxidase specific activity in this age group. In the mitochondrial fraction from the aged animals, cytochrome aa₃ content was essentially unchanged which is consistent with the lack of aging-related change in mitochondrial cytochrome oxidase specific activity. In freshly isolated mitochondrial fractions, no aging-related alterations were observed in respiratory control and $\text{ADP}\text{O}$ ratios. The addition of exogenous NADH and cytochrome c did not change significantly the respiratory rate of hepatic mitochondria from control or aged animals. These results demonstrate the integrity of freshly isolated mitochondrial preparations from both control and aged Fischer 344 rats. In addition, there was no aging-related alteration in either monoamine oxidase specific activity or polypeptide composition. The similarities observed in the specific activities of cytochrome oxidase and monoamine oxidase, as well as in the cytochrome aa₃ content and polypeptide composition of the isolated mitochondrial fraction, suggest a generalized decrease in hepatic mitochondrial content as a function of aging rather than a selective loss of mitochondrial components.     

Early septic shock induces loss of oxidative phosphorylation yield plasticity in liver mitochondria

We aimed to study the change in mitochondrial oxidative phosphorylation efficiency occurring at the early stage of septic shock in an experimental model. Thirty-six male Wistar rats were divided into two groups. In the first group, a cecal ligation and puncture (CLP) was carried out to induce septic shock for 5 h. The second group includes sham-operated rats and constitutes the control group. Blood gas analysis, alanine amino transferase, and lactic acid dosages were assayed 5 h after surgery. Liver mitochondria were isolated for in vitro functional characterization, including mitochondrial respiratory parameters, oxidative phosphorylation efficiency, oxi-radical production, membrane potential, and cytochrome c oxidase activity and content. Liver interleukin 1β (IL-1β) and tumor necrosis α mRNA levels were determined. Septic shock induced a severe hypotension occurring 180 min after CLP in association with a metabolic acidosis, an increase in plasma alanine amino transferase, liver IL-1β gene expression, and mitochondrial reactive oxygen species production. The rates of mitochondrial oxygen consumption and the activity and content of cytochrome c oxidase were significantly decreased while no alterations in the oxidative phosphorylation efficiency and inner membrane integrity were found. These results show that contrary to what was expected, liver mitochondria felt to adjust their oxidative phosphorylation efficiency in response to the decrease in the mitochondrial oxidative activity induced by CLP. This loss of mitochondrial bioenergetics plasticity might be related to mitochondrial oxidative stress and liver cytokines production.     

Decreased susceptibility to lipid peroxidation of Goto-Kakizaki rats: relationship to mitochondrial antioxidant capacity.

The respiratory function and the antioxidant capacity of liver mitochondrial preparations isolated from Goto-Kakizaki non-insulin dependent diabetic rats and from Wistar control rats, with the age of 6 months, were compared. It was found that Goto-Kakizaki mitochondrial preparations presented a higher coupling between oxidative and phosphorylative systems, compared to non-diabetic preparations. Goto-Kakizaki mitochondria presented a lower susceptibility to lipid peroxidation induced by ADP/Fe2+, as evaluated by the formation of thiobarbituric acid substances. The decreased susceptibility to peroxidation in diabetic rats was correlated with an increase in mitochondrial vitamin E (alpha-tocopherol) content and GSH/GSSG ratio. Moreover, the glutathione reductase activity was significantly increased, whereas the glutathione peroxidase was decreased. Superoxide dismutase activity was unchanged in diabetic rats. Fatty acid analyses showed that the content in polyunsaturated fatty acids of Goto-Kakizaki mitochondrial membranes was significantly higher compared to controls. These results indicate that the lower susceptibility to lipid peroxidation of mitochondria from diabetic rats was related to their antioxidant defense systems, and may correspond to an adaptative response of the cells against oxidative stress in the early phase of diabetes.     

Plasmodium yoelii: the thymus-dependent lymphocyte in mice immunodepressed by malaria

Euthymic mice, athymic nude mice, and mice treated with antithymocyte serum were infected with Plasmodium yoelii and immunized 10 days postinfection with pneumococcal polysaccharide (SSSIII). As a control, uninfected mice were also immunized with SSSIII. Splenic plaque-forming cells as well as serum antibody titers to SSSIII were measured 5 days after immunization. In infected euthymic mice, both plaque-forming cells (PFC) and serum antibody were severely depressed. In contrast, plaque-forming cells and serum antibody were approximately normal in infected nude mice and in infected mice treated with antithymocyte serum. Splenic adherent cells from infected euthymic mice failed to function as accessory cells in the in vitro antibody response to a second antigen, the sheep erythrocyte. Moreover, they lacked suppressor activity when cultured with spleen cells from uninfected mice. In contrast, adherent spleen cells from infected mice treated with antithymocyte serum displayed accessory cell function.     

Competition for dietary fructose between Moniliformis (acanthocephala) and growing rats

Crompton D. W. T., Singhvi A., Nesheim M. C. and Walters D. E. 1981. Competition for dietary fructose between Moniliformis (Acanthocephala) and growing rats. International journal for Parasitology11: 457–461. The food intake, weight gain and blood sugar of young rats, fed on diets containing growth-limiting amounts of fructose and infected with Moniliformis dubius (Acanthocephala) for 6 weeks, were measured and compared with values obtained from similar uninfected rats which had been treated in the same manner. The growth of the rats was closely related to the fructose content of the diet. However, on average, the infected rats gained less weight than their uninfected counterparts. Significant differences between the values for blood sugar from infected and uninfected rats were not detected when the diet contained 2% fructose. The blood sugar of infected rats fed on a diet containing 4% fructose was found to be significantly less than that of similar uninfected rats. Information was also obtained about the numbers, sex, dry weight and location of the Moniliformis in the small intestines of their hosts. Male and female Moniliformis from rats fed on the 4% fructose diet were found to be heavier than those from rats fed on the 2% fructose diet. The results can be interpreted to suggest that the reduction in the growth rate of the infected rats is due to competition for fructose between Moniliformis and the rat.     

Altered relationship between protonmotive force and respiration rate in non-phosphorylating liver mitochondria isolated from rats of different thyroid hormone status

We have determined the relationship between rate of respiration and protonmotive force in oligomycin-inhibited liver mitochondria isolated from euthyroid, hypothyroid and hyperthyroid rats. Respiration rate was titrated with the respiratory-chain inhibitor malonate. At any given respiration rate mitochondria isolated from hypothyroid rats had a protonmotive force greater than mitochondria isolated from euthyroid controls, and mitochondria isolated from hyperthyroid rats had a protonmotive force less than mitochondria isolated from euthyroid controls. In the absence of malonate mitochondrial respiration rate increased in the order hypothyroid less than euthyroid less than hyperthyroid, while protonmotive force increased in the order hyperthyroid less than euthyroid less than hypothyroid. These findings are consistent with a thyroid-hormone-induced increase in the proton conductance of the inner mitochondrial membrane or a decrease in the H+/O ratio of the respiratory chain at any given protonmotive force. Thus the altered proton conductance or H+/O ratio of mitochondria isolated from rats of different thyroid hormone status controls the respiration rate required to balance the backflow of protons across the inner mitochondrial membrane. We discuss the possible relevance of these findings to the control of state 3 and state 4 respiration by thyroid hormone.     

Plasmodium yoelii: Influence of immune modulators on the development of the liver stage

Plasmodium sporozoites suppress the respiratory burst and antigen presentation of Kupffer cells, which are regarded as the portal of invasion into hepatocytes. It is not known whether immune modulation of Kupffer cells can affect the liver stage. In the present study, we found that sporozoites inoculated into Wistar rats could be detected in the liver, spleen, and lung; however, most sporozoites were arrested in the liver. Sporozoites were captured by Kupffer cells lined with endothelial cells in the liver sinusoid before hepatocyte invasion. Pretreatment with TLR3 agonist poly(I:C) and TLR2 agonist BCG primarily activated Kupffer cells, inhibiting the sporozoite development into the exoerythrocytic form, whereas Kupffer cell antagonists dexamethasone and cyclophosphamide promoted development of the liver stage. Our data suggests that sporozoite development into its exoerythrocytic form may be associated with Kupffer cell functional status. Immune modulation of Kupffer cells could be a promising strategy to prevent malaria parasite infection.     

A rapid method for the isolation of intact mitochondria from isolated rat liver cells.

A method is described for the preparation of intact mitochondria from isolated hepatocytesby sonication. Sonication of a suspension of rat liver cells for 10–30 s yields a homogenate from which tightly coupled mitochondria can be isolated. These mitochondria exhibit high respiratory control ratios and normal ADP:O ratios using glutamate plus malate, β-hydroxybutyrate, succinate, or ascorbate plus N,N,N′,N′-tetramethyl-p-phenylendiamine as substrates. The yield of mitochondrial protein is approximately 100–120 mg starting from 5 g of liver tissue. The mitochondrial fraction is essentially free of contaminating plasma membrane and microsomes and contains only small amounts of peroxisomes and lysosomes.     

Aberrant energy-linked reactions in mitochondria isolated from the livers of sheep infected with the liver fluke Fasciola hepatica

Respiration by mitochondria isolated from the livers of sheep following infection up to 15 weeks with F. hepatica was measured with the respiratory substrates pyruvate (plus malate) and succinate in the absence and presence of ADP; the rates were compared with those obtained by mitochondria isolated from livers of uninfected sheep. It was found that respiration supported by both substrates in mitochondria isolated from the left lobe but not the middle lobe of 4-week infected sheep exhibited abnormalities such that the acceptor control ratios were only marginally above one. Some, but not total, recovery was seen in the later stages of infection. The aberrant respiratory behaviour is similar to that observed with infected rats.     

The effect of diabetes on protein synthesis and the respiratory chain of rat skeletal muscle and kidney mitochondria

The effects of streptozotocin-induced diabetes mellitus upon mitochondria from rat skeletal muscle and kidney were examined. The rate of amino acid incorporation in vitro by isolated skeletal muscle mitochondria from diabetic animals was decreased by 50–60% from control values. Treatment of diabetic animals with insulin lowered blood glucose levels to control values and restored the rate of muscle mitochondrial protein synthesis in vitro to control levels. The rates of skeletal muscle mitochondrial protein synthesis were also decreased 23–27% by a 2-day fast. Comparison of the translation products synthesized by isolated muscle mitochondria from control and diabetic rats by dodecyl sulfate polyacrylamide-gel electrophoresis revealed a uniform decrease in the synthesis of all polypeptides. Aurintricarboxylic acid and pactamycin, inhibitors of chain initiation, blocked protein synthesis to a greater extent in muscle mitochondria from control as compared to diabetic animals suggesting that mitochondria from diabetics are unable to initiate protein synthesis at a rate comparable to control. Phenotypic changes observed in diabetic muscle mitochondria included a 36% decrease in the content of cytochromes aa₃ and a 27% decrease in cytochrome b, both established as containing mitochondrial translation products in lower eucaryotes. State 3 respiration with glutamate as substrate decreased by 27% and uncoupler-stimulated respiration decreased by 23% in the diabetic mitochondria. By contrast, the specific activities of NADH and succinate dehydrogenases, established as products of cytoplasmic protein synthesis in lower eucaryotes, were not decreased in skeletal muscle mitochondria from the diabetic animals. These results suggest that the considerable muscular atrophy observed in diabetics may involve decreases in both cytoplasmic and mitochondrial protein synthesis, the latter reflected in profound changes in the respiratory chain. By contrast, comparison of kidney mitochondria from control and diabetic rats revealed no differences in the rates of protein synthesis in vitro, nor in the mitochondrial translation products, which corresponded closely to liver and skeletal muscle translation products. Similarly, the mitochondrial content of cytochromes b, c + c₁, and aa₃, the specific activity of succinate dehydrogenase, the rate of state 3 respiration, and the recovery of mitochondria from kidney homogenates did not differ in control and diabetic animals. Kidney mitochondria are thus like liver mitochondria in being relatively unaffected by insulin deprivation.     

Effect of Dexamethasone on Insulin Secretion: Examination of Underlying Mechanisms

ObjectiveTo study the mechanism of increased insulin secretion in response to short-term administration of dexamethasone.MethodsMale Wistar rats were injected intraperitoneally with dexamethasone (dexamethasone; 200 mcg/kg body weight per day) or saline for 3 consecutive days. Insulin secretion in response to glucose, ionomycin, and KCl was quantified in islets isolated from the animals, and the amount of glucokinase was measured by Western blot.ResultsDexamethasone-treated animals had 1.18-fold higher fasting blood glucose concentration and 6.5-fold increase in fasting serum insulin concentration compared with findings from animals injected with saline. Compared with islets isolated from control rats, islets from dexamethasone-treated rats secreted more insulin at 60 minutes in response to 5.5 mM glucose (416.4 vs 115.6 fmoles/10 islets, P = .011) and in response to 16.6 mM glucose (985.5 vs 520.6 fmoles/10 islets, P = .014); no change in insulin secretion was observed at 10 minutes. Insulin secretion from islets of dexamethasone-treated rats and control rats was not differentially augmented in response to either ionomycin or potassium chloride. Glucokinase expression was not altered by treatment with dexamethasone.ConclusionsAugmentation of insulin secretion in response to glucose in the pancreatic islets from dexamethasone-treated rats is preserved in islets studied in vitro. The increase in glucose-stimulated insulin secretion appears to be mediated by steps upstream to β -cell membrane depolarization and the attended increase in intracellular calcium in the signaling pathway of insulin secretion. (Endocr Pract. 2010;16:763-769)     

Hymenolepis microstoma: Effect of the mouse bile duct tapeworm on the metabolic rate of CF-1 mice

The metabolic rate of uninfected Mus musculus (CF-1 strain) at 30 C was 1.668 ± 0.032 ccO₂/g/hr (mean ± SE, n = 35). At 2 days postinfection (PI)the metabolic rate of infected mice was 2.64 ± 0.15 ccO₂/g/hr (n = 6), or 58% higher than that of uninfected control mice. Between 2 and 8 days PI there was a steady decrease in the metabolic rate of infected mice, and by Day 15 PI the metabolic rates of infected and uninfected mice were the same. Since gross histopathological changes (e.g., fibrosis of the bile duct and liver) in infected mice are not evident until Day 4 or 5 PI, the increased metabolic rate during the early stage of infection may be a direct response of the mouse to excretory (secretory) products of the developing parasite.     

Induction of B-Cell Lymphoma in BALB/c Nude Mice with an Ecotropic, B-Tropic Helper Virus Present in the Murine AIDS Virus Stock

The pathogenicities of the murine AIDS (MAIDS) virus complex (LP-BM5) and ecotropic helper virus (BM5eco) isolated from the complex to BALB/c nude mice were studied to elucidate the possible role of replication-competent helper virus in inducing the monoclonal outgrowth of lymphoid cells. Neither LP-BM5 nor BM5eco was pathogenic in adult BALB/c nude mice. However, B-cell lymphoma developed with a very high frequency when either virus was inoculated into newborn BALB/c nude (nu/nu) mice. The cells from the B-cell lymphoma were easily transplanted into nude mice. These results suggested that ecotropic helper virus in the MAIDS virus complex plays an important role in inducing the monoclonal outgrowth of lymphoid cells under immunodeficient conditions caused by defective virus.     

Trypanosoma cruzi: effects of anti-thymocyte serum in mice and neonatal thymectomy in rats

CF₁ mice were given eight injections of normal rabbit serum (NRS), Hanks' balanced salt solution (HBSS), or rabbit anti-mouse thymocyte serum (ATS) beginning 3 days prior to and at 3-day intervals subsequent to intraperitoneal (ip) inoculation with 5 × 10⁴ trypomastigotes of a Brazil strain of Trypanosoma cruzi. Markedly enhanced parasitemia, increased numbers of tissue stages (amastigotes), and higher mortality occurred in ATS-treated mice as compared to NRS- or HBSS-treated controls. Administration of three injections of ATS at 3-day intervals during the latter stages of acute Chagas' disease, i.e., when numbers of parasites were declining, resulted in a transitory relapse (increase in numbers) of blood and tissue parasites. No relapse occurred in mice when ATS was administered at 3-day intervals over a period of 15 days during the subacute stage of the disease, i.e., after parasites had disappeared from the blood.Parasitemia and mortality were enhanced in neonatally thymectomized rats when compared to that observed in sham-operated and unoperated control rats following ip injection of 2 × 10⁵ trypomastigotes of T. cruzi. Serum obtained from thymectomized and control rats 5 weeks after inoculation with T. cruzi at a time when the blood of all animals had become microscopically negative for parasites were equally protective in passive transfer experiments, while serum from uninfected controls gave no protection.Gamma globulin levels significantly increased in thymectomized as well as intact rats by the third to fourth week of infection with T. cruzi, reached maximum concentrations in 5–6 wk, and remained elevated significantly at the twelfth week post infection as compared with uninfected controls. No significant changes occurred in total serum proteins or α and β fractions of any group, infected or uninfected.Total circulating leukocytes, especially lymphocytes, were diminished in mice and rats subjected to treatment with ATS or neonatal thymectomy.These data clearly indicate that neonatal thymectomy of rats and ATS treatment of mice suppress the acquired immune response to T. cruzi. Further, passive transfer experiments in rats confirm the protective role of circulating antibody in acquired immunity to Chagas' disease.     

Metabolic profiling of a Schistosoma mansoni infection in mouse tissues using magic angle spinning-nuclear magnetic resonance spectroscopy

In order to enhance our understanding of physiological and pathological consequences of a patent Schistosoma mansoni infection in the mouse, we examined the metabolic responses of different tissue samples recovered from the host animal using a metabolic profiling strategy. Ten female NMRI mice were infected with ∼80 S. mansoni cercariae each, and 10 uninfected age- and sex-matched animals served as controls. At day 74 post infection (p.i.), mice were killed and jejunum, ileum, colon, liver, spleen and kidney samples were removed. We employed ¹H magic angle spinning-nuclear magnetic resonance spectroscopy to generate tissue-specific metabolic profiles. The spectral data were analyzed using multivariate modelling methods including an orthogonal signal corrected-projection to latent structure analysis and hierarchical principal component analysis to assess the differences and/or similarities in metabolic responses between infected and non-infected control mice. Most tissues obtained from S. mansoni-infected mice were characterized by high levels of amino acids, such as leucine, isoleucine, lysine, glutamine and asparagine. High levels of membrane phospholipid metabolites, including glycerophosphoryl choline and phosphoryl choline were found in the ileum, colon, liver and spleen of infected mice. Additionally, low levels of energy-related metabolites, including lipids, glucose and glycogen were observed in ileum, spleen and liver samples of infected mice. Energy-related metabolites in the jejunum, liver and renal medulla were found to be positively correlated with S. mansoni worm burden upon dissection. These findings show that a patent S. mansoni infection causes clear disruption of metabolism in a range of tissues at a molecular level, which can be interpreted in relation to the previously reported signature in a biofluid (i.e. urine), giving further evidence of the global effect of the infection.     

Dexamethasone treatment specifically increases the basal proton conductance of rat liver mitochondria

We investigated the role that mitochondrial proton leak may play in the glucocorticoid-induced hypermetabolic state. Sprague-Dawley rats were injected with dexamethasone over a period of 5 days. Liver mitochondria and gastrocnemius subsarcolemmal and intermyofibrillar mitochondria were isolated from dexamethasone-treated, pair-fed and control rats. Respiration and membrane potential were measured simultaneously using electrodes sensitive to oxygen and to the potential-dependent probe triphenylmethylphosphonium, respectively. Five days of dexamethasone injection resulted in a marked increase in the basal proton conductance of liver mitochondria, but not in the muscle mitochondrial populations. This effect would have a modest impact on energy expenditure in rats.     

Differential long-term effects of d-chloramphenicol on the biogenesis of mitochondria in normal and regenerating rat liver

1. Normal and partially hepatectomized rats (150g) were injected daily with d-chloramphenicol (20mg) for a period of 4 weeks, in order to investigate whether defective mitochondria could be induced in vivo in higher organisms as in yeast, and to measure the degree of inhibition of the mitochondrial function thus obtained. 2. The antibiotic did not affect growth and increased the amount of liver protein without changing the mitochondrial yield. 3. The respiration of isolated mitochondria from regenerated liver (regeneration completed) with succinate, α-oxo-glutarate, isocitrate and malate, was decreased in the chloramphenicol-treated rats, whereas in normal liver the antibiotic increased the mitochondrial oxygen consumption with succinate and did not significantly change the respiration with other substrates. 4. Mitochondrial cytochromes and respiratory enzymes were also decreased in amount in regenerated liver from the treated rats and enhanced in normal liver. 5. The protein specific radioactivities of most mitochondrial and microsomal subfractions, 30min after an injection of [¹⁴C]leucine, were decreased in regenerated liver under the action of chloramphenicol. Conversely, the incorporation of [¹⁴C]leucine into proteins of most subfractions in incubations of liver slices was enhanced in the case of normal rats treated with the antibiotic. 6. It is concluded that in regenerated liver chloramphenicol induces functionally defective mitochondria by inhibiting their biogenesis, whereas in normal liver the stimulation of respiration and protein synthesis is probably a secondary detoxication response.     

Canova medication modifies parasitological parameters in mice infected with Trypanosoma cruzi

The goals of this study were to evaluate the effect of the Canova® medication, a homeopathic immune-system modulator, on the evolution of infection induced by the Trypanosoma cruzi Y strain in mice. The animals were divided into five groups: (i) untreated infected controls (I), (ii) infected animals treated with benznidazole (Bz), (iii) infected animals treated with the Canova medication (CM), (iv) infected animals treated with benznidazole and the Canova medication (Bz + CM), and (v) uninfected controls that received only the vehicle (grain alcohol) (C). The parameters evaluated were: parasitemia, mortality, control of cure, and tissue parasitism analysis. Our results showed that the evolution of the experimental infection was modified by treatment with CM, and that daily and consecutive doses were harmful to the animals, causing death in 100% of the infected animals in a brief period. The analysis of parasitism performed on the organs on the 12th day postinfection showed that in infected animals treated with CM, the number of amastigote/nests in the spleen was significantly reduced, while in cardiac tissue, intestine, and liver the number was significantly increased compared with infected control animals. These results indicate that CM has a negative influence on the host-parasite relationship, modifying the tropism of the parasite for tissues, and increasing the parasitemia peak in this experimental model.     

Trypanosoma evansi: Cholinesterase activity in acutely infected Wistar rats

The aim of this study was to evaluate cholinesterase activity during the early acute phase of Trypanosoma evansi infection in rats. Fifteen male Wistar rats were randomly distributed into three groups (n = 5 animals per group): two trypanosome-infected groups (T3 and T5) and uninfected controls (C). The animals were inoculated intraperitoneally with 10⁶ trypanosomes. The blood was collected by cardiac puncture on the 3rd (T3) or 5th day post-infection (T5 and C). Cerebrum and cerebellum were removed for the evaluation of acetylcholinesterase (AChE) activity. AChE activity was also evaluated in whole blood and butyrylcholinesterase activity (BUChE) in plasma samples. Parasitemia were progressive increase and parasites were observed in the peripheral blood of all infected animals one day post-inoculation. AChE activity was not altered in cerebrum and cerebellum tissues. AChE activity in blood significantly decreased in the T3 and T5 groups (26.63 and 25.86 mU/l mol Hb) compared with the control (37.84 mU/l mol Hb). In addition BUChE activity in plasma was lower in the T3 (7.01 μmol BTC hydrolyzed/h/mL) than the T5 and C groups (9.84 and 12.00 μmol BTC hydrolyzed/h/mL). This study therefore, shows that reductions in the activity of cholinesterase occur in acute infection by T. evansi in rats and this demonstrates an important change occurring in animals infected by the protozoan and may indicate a potential role the enzymes play in the mechanism of disease.