The metabolism of L-tryptophan by isolated rat liver cells. Quantification of the relative importance of, and the effect of nutritional status on, the individual pathways of tryptophan metabolism.

1. The metabolism of L-tryptophan by liver cells prepared from fed and 48 h-starved rats was studied. Methods are described, with the use of L-[ring-2-(14)C], L-[carboxy-14C]-and L-[benzene-ring-U-14C]-tryptophan, for the simultaneous determination of tryptophan 2,3-dioxygenase and kynureninase activities and of the oxidation of tryptophan to CO2 and non-aromatic intermediates of the kynurenine-glutarate pathway. 2. At physiological concentrations (0.1 mM), tryptophan was oxidized by tryptophan 2,3-dioxygenase at comparable rates in liver cells from both fed and starved rats. Kynureninase activity of hepatocytes from starved rats was 50% greater than that of cells from fed rats. About 10% of the tryptophan metabolized by tryptophan 2,3-dioxygenase was degraded completely to CO2. 3. In the presence of 0.5 mM-L-tryptophan, tryptophan 2,3-dioxygenase and kynureninase activities increased 5--6-fold. Liver cells from starved rats oxidized tryptophan at about twice the rate of these from fed rats. Degradation of tryptophan to non-aromatic intermediates of the glutarate pathway and CO2 was increased only 3-fold, suggesting an accumulation of aromatic intermediates of the kynurenine pathway. 4. Rates of metabolism with 2.5 mM-L-tryptophan were not significantly different from those obtained with 0.5 mM-tryptophan. 5. Rates of synthesis of quinolinic acid from 0.5 mM-L-tryptophan, determined either by direct quantification or indirectly from rates of radioisotope release from L-[carboxy-(14)C]- and [benzene-ring-U-14C]tryptophan, were essentially similar. 6. At all three concentrations examined, tryptophan was degraded exclusively through kynurenine; there was no evidence of formation of either indol-3-ylacetic acid or 5-hydroxyindol-3-ylacetic acid.     

13C-NMR analysis of alanine metabolism by isolated perfused livers from C3HeB/FeJ mice infected with African trypanosomes

1. Isolated perfused livers from mice infected with Trypanosoma brucei rhodesiense formed substantially more [3-13C]-lactate from [3-13C]-alanine than livers from uninfected mice. Quantities formed by infected livers increased as infection progressed. 2. Infected livers produced more 13C-labeled glutamate and glutamine, with label scrambled between C-2 and C-3. Scrambling also produced [2,3-13C]-aspartate, [2-13C]-alanine and [2-13C]-lactate. Delayed appearance of label in C-4 of glutamate/glutamine in infected livers reflects significant endogenous stores of unlabeled acetyl CoA. 3. Although differences do exist in catabolism of [3-13C]-alanine by perfused livers from infected and control mice, trypanosomiasis does not cause permanent breakdown or blockage of hepatic alanine metabolism.     

Toxoplasma gondii and Schistosoma mansoni synergize to promote hepatocyte dysfunction associated with high levels of plasma TNF-alpha and early death in C57BL/6 mice.

To address the question of how the murine host responds to a prototypic type 1 cytokine inducer while concurrently undergoing a helminth-induced type 2 cytokine response, C57BL/6 strain animals with patent schistosomiasis mansoni were orally infected with the cystogenic Toxoplasma gondii strain ME49. Schistosoma mansoni infection resulted in a significantly higher mortality rate when mice were subsequently orally infected with ME49, and these animals displayed a defective IFN-gamma and NO response relative to animals infected with T. gondii alone. Plasma levels of TNF-alpha and aspartate transaminase in double-infected mice were greatly elevated relative to mice infected with either parasite alone. Consistent with the latter observation, these animals exhibited severe liver pathology, with regions of coagulative necrosis and hepatocyte vacuolization unapparent in mice carrying either infection alone. Interestingly, mean egg granuloma size was approximately 50% of that in mice with S. mansoni infection alone. The exacerbated liver pathology in coinfected mice did not appear to be a result of uncontrolled tachyzoite replication, because both parasite-specific RT-PCR analysis and immunohistochemical staining demonstrated a low number of tachyzoites in the liver. We hypothesize that mortality in these animals results from the high level of systemic TNF-alpha, which mediates a severe liver pathology culminating in death of the animal.     

SYNTHESIS AND METABOLISM OF l-KYNURENINE IN RAT BRAIN

Abstract— A method for the quantitative analysis of femtomole amounts of kynurenine (along with tryptophan, 3-hydroxykynurenine and kynuramine) in rat brain using high pressure liquid chroma-tography and electron-capture GLC is described. Endogenous concentrations of these substances in rat brain regions were measured, and their formation after the injection of radioactive tryptophan or kynurenine was determined. Kynurenine was formed from tryptophan in brain and was also taken up from the periphery. Extracerebral kynurenine was calculated to account for 60% of the cerebral pool of kynurenine. The cerebral rates of synthesis of kynurenine and 3-hydroxykynurenine were 0.29 and 0.17nmol/g/h. The turnover rate of kynurenine in the brain was 1.02 nmol/g/h measured from [¹⁴C]tryptophan or 1.14 nmol/g/h from [³H]kynurenine injected intraperitoneally. Kynuramine levels in different areas of the brain were similar to those of tryptamine. Following intraperitoneal injection of [¹⁴C]tryptophan, the presence of anthranilic, 3-hydroxyanthranilic, xanthurenic, kynurenic and quinaldic acids was demonstrated in the brain.     

Metabolism of tryptopan and serotonin by the chick pineal gland in organ culture.

Marked differences were seen between the metabolism of L-[3-14C] tryptophan and of [2-14C]serotonin by the intact chick pineal gland in organ culture. The major metabolite of tryptophan recovered by our procedures was melatonin, which accounted for about half the radioactivity recovered as metabolic products. In contrast, the principal product of serotonin metabolism recovered was hydroxyindoleacetic acid, and the yield of products derived through monoamine oxidase (EC 1.4.3.4) activity vastly exceeded that of melatonin. Metabolism of tryptophan yielded a much larger proportion of methlated metabolites among the products recovered than did metabolism of serotonin. However, the yield of methoxyindoleacetic acid from serotonin was greater than that from tryptophan. Serotonin formed endogenously and serotonin supplied exogenously appear to enter two or more largely distinct metabolic pools.     

M. tuberculosis induces potent activation of IDO-1, but this is not essential for the immunological control of infection

Indoleamine 2,3-dioxygenesae-1 (IDO-1) catalyses the initial, rate-limiting step in tryptophan metabolism, thereby regulating tryptophan availability and the formation of downstream metabolites, including picolinic and quinolinic acid. We found that Mycobacterium tuberculosis infection induced marked upregulation of IDO-1 expression in both human and murine macrophages in vitro and in the lungs of mice following aerosol challenge with M. tuberculosis. The absence of IDO-1 in dendritic cells enhanced the activation of mycobacteria-specific T cells in vitro. Interestingly, IDO-1-deficiency during M. tuberculosis infection in mice was not associated with altered mycobacteria-specific T cell responses in vivo. The bacterial burden of infected organs, pulmonary inflammatory responses, and survival were also comparable in M. tuberculosis-infected IDO-1 deficient and wild type animals. Tryptophan is metabolised into either picolinic acid or quinolinic acid, but only picolinic acid inhibited the growth of M. tuberculosis in vitro. By contrast macrophages infected with pathogenic mycobacteria, produced quinolinic, rather than picolinic acid, which did not reduce M. tuberculosis growth in vitro. Therefore, although M. tuberculosis induces robust expression of IDO-1 and activation of tryptophan metabolism, IDO-1-deficiency fails to impact on the immune control and the outcome of the infection in the mouse model of tuberculosis.     

Indoleamine 2,3-dioxygenase. Formation of L-kynurenine from L-tryptophan in cultured rabbit fineal gland

The distribution of the indoleamine 2,3-dioxygenase activity was investigated in various parts of the rabbit brain using the supernatant fraction (30,000 X g, 30 min) of homogenates. A low but significant activity was detected in all parts of the brain. The highest activity was associated with the pineal gland and choroid plexus. Specific activities of the supernatant fractions derived from the pineal gland and choroid plexus were 84.8 and 34.2 pmol/h/mg of protein at 37 degrees C, respectively, with L-tryptophan as substrate. When the pineal gland was cultured with L-[methylene-14C]tryptophan, L-[methylene-14C]kynurenine formed by the action of indoleamine 2,3-dioxygenase was found as one of the major products. It was isolated by DEAE-cellulose column chromatography and identified by thin layer chromatography with and without the treatment by kynureninase from a pseudomonad. The amount of kynurenine thus measured accounted for approximately one-third of the total amount of tryptophan metabolites, indicating that the kynurenine pathway is one of the major metabolic pathways of tryptophan in the rabbit pineal gland.     

Macrophages as effector cells of protective immunity in murine schistosomiasis. VI. T cell-dependent, lymphokine-mediated, activation of macrophages in response to Schistosoma mansoni antigens

Macrophages from Schistosoma mansoni-infected mice kill significant numbers of skin stage schistosomula and murine fibrosarcoma cells in vitro. In order to determine whether the macrophage tumoricidal and larvicidal activation observed in mice as a result of S. mansoni infection are mediated through T cell-dependent (lymphokine) or B cell-dependent (antibody or immune complex) mechanisms, the development of macrophage populations with cytotoxic activity against schistosome larvae or tumor cells was monitored in S. mansoni-infected nude or mu-suppressed mice. Whereas peritoneal cells from S. mansoni-infected congenitally athymic mice had no activity in either assay, cells from mu-suppressed S. mansoni-infected mice showed cytotoxic activity equivalent to that of cells from untreated S. mansoni-infected counterparts. Cells from mu-suppressed uninfected mice were not activated. The mu-suppressed animals had no detectable nonspecific IgM or specific antischistosome IgM, IgG, or IgE antibodies and showed a 90% reduction in numbers of splenic IgM+ cells upon fluorescence activated cell sorter analysis. These results indicate that antibody is not required for in vivo activation of macrophages during S. mansoni infection. Further experiments showed that lymphoid cells from S. mansoni infected mice respond in culture with various specific antigens (such as living or dead whole schistosomula or soluble adult worm antigens) by production of factors capable of activating macrophages from uninfected control mice to kill schistosomula or tumor cells in vitro. Macrophage-activating factors were produced by T cell-enriched, but not T cell-depleted or B cell-enriched, populations from spleens of schistosome-infected mice in response to schistosome antigen. Similar lymphokines may be responsible for the macrophage activation observed during chronic murine schistosomiasis. These observations emphasize the potential contribution of T cell-mediated immune mechanisms in resistance to S. mansoni infection.     

Hepatic stereology of Schistosomiasis mansoni infected-mice fed a high-fat diet

High-fat diets induce weight gain and fatty liver in wild-type mice. Schistosomiasis mansoni infection also promotes hepatic injury. This study was designed to quantify hepatic alterations in schistosomiasis mansoni-infected mice fed a high fat-rich chow compared to mice fed a standard rodent chow, using stereology. Female SW mice fed each either high-fat diet (29% lipids) or standard chow (12% lipids) over 8 months, and then were infected with Schistosoma mansoni cercariae. Four experimental groups were studied: infected mice fed a high-fat diet (IHFC) or standard chow (ISC), uninfected mice fed a high-fat diet (HFC) or standard chow (SC). Mice were sacrificed during early infection (9 weeks from exposure). The following hepatic biometry and the stereology parameters were determined: volume density (hepatocytes [h], sinusoids [s], steatosis [st] and hepatic fibrosis [hf]); numerical density (hepatocyte nuclei - Nv[h]); absolute number of total hepatocyte N[h], normal hepatocyte N[nh], and binucleated hepatocyte N[bh], percentage of normal hepatocyte P[nh] and binucleated hepatocyte P[bh]. IHFC and HFC groups exhibited TC, HDL-C, LDL-C, and body mass significantly greater (p < 0.05) than control group. No significant differences were found regards liver volume (p = 0.07). Significant differences were observed regards P[nh] (p = 0.0045), P[bh] (p = 0.0045), Nv[h] (p = 0.0006), N[h] (p = 0.0125), N[bh] (p = 0.0164) and N[nh] (p = 0.0078). IHFC mice group presented 29% of binucleated hepatocytes compared to HFC group (19%), ISC group (17%) and SC (6%). Volume density was significantly different between groups: Vv[h] (p = 0.0052), Vv[s] (p = 0.0025), Vv[st] (p = 0.0004), and Vv[hf] (p = 0.0007). In conclusion, schistosomiasis mansoni infection with concurrent high-fat diet promotes intensive quantitative changes in hepatic structure, contributing to an increasing on hepatic regeneration.     

Occurrence of N-formylkynurenine in extracts of Neurospora crassa: evidence for the activity of tryptophan pyrrolase

N-formylkynurenine and kynurenine have been detected in extracts of tryptophan-grown Neurospora crassa. When the mycelia were grown in medium supplemented with l-[2-(14)C]tryptophan, the radioactivity was detected in N-formylkynurenine and N-formylanthranilic acid; with l-[beta-(14)C]tryptophan, radioactivity was detected in N-formylkynurenine, kynurenine, kynurenic acid, and xanthurenic acid. The occurrence of N-formylkynurenine in extracts of tryptophan-grown Neurospora is interpreted as direct evidence for the activity of tryptophan pyrrolase in this organism. The presence of this enzyme was expected on the basis of several earlier studies, but its activity in vitro has so far escaped detection. The in vivo evidence presented here suggests its presence and contributes importantly to our understanding of the tryptophan-anthranilic acid cycle.     

Expression of cross-reactive, shared idiotypes on anti-SEA antibodies from humans and mice with schistosomiasis

Immunoaffinity-purified antibodies against Schistosoma mansoni soluble egg Ag (SEA) from infected patients' sera differ idiotypically according to the donor's clinical form of the disease. The Id differ both by their ability to stimulate proliferation of anti-Id T cells and their recognition by anti-Id-specific sera. Also, mice infected with S. mansoni develop anti-Id T and B cell responses against mouse anti-SEA antibodies. We now show that anti-SEA antibodies from serum pools of chronic, but asymptomatic patients (AM1 and AM5) stimulate proliferation of spleen cells from mice infected with S. mansoni. However, AM8, anti-SEA antibodies from hepatosplenic patients, did not stimulate these spleen cells. The murine responses directly parallel patient studies where AM1 and AM5 Id-stimulated human PBMC, but AM8 Id did not. In competitive ELISA, using AM1 or AM-5-specific rabbit antisera or human anti-SEA mAb E5-specific rabbit antiserum, sera from mice infected for 8 and 16 wk (but not from uninfected mice) compete with AM1, AM5, or E5. These sera do not compete in the AM8/anti-AM8 competitive ELISA. Sera from 8-wk-infected mice inhibit more against AM1, AM5, and E5 than do sera from later infections, and anti-SEA immunoaffinity-purified antibodies from 8-wk-infected mice stimulate spleen cells from infected mice more than anti-SEA antibodies from sera of mice late in infection. However, spleen cells from more chronically infected mice are more responsive to either the murine or human anti-SEA antibody preparations than cells from mice with earlier infections. Both the ELISA data and lymphocyte responses indicate that anti-SEA antibodies from mice infected with S. mansoni for 8 wk bear Id cross-reactive with those expressed on anti-SEA antibodies from humans with chronic, asymptomatic schistosomiasis, but not those from hepatosplenic patients.     

Local and Systemic Biosynthesis of Salicylic Acid in Infected Cucumber Plants

Radiolabeling studies showed that salicylic acid (SA), an essential component in the signal transduction pathway leading to systemic acquired resistance, is synthesized from phenylalanine (Phe) and benzoic acid in cucumber (Cucumis sativus L.) plants inoculated with pathogens. Leaf discs from plants inoculated with either tobacco necrosis virus or Pseudomonas lachrymans incorporated more [14C]Phe into [14C]SA than mock-inoculated controls. The identity of SA was confirmed by gas chromatography-mass spectrometry. No reduction in specific activity of [14C]SA was observed for either free or bound SA between control and infected plants after feeding [14C]Phe. A specific inhibitor of Phe ammonia-lyase, 2-aminoindan-2-phosphonic acid, completely inhibited the incorporation of [14C]Phe into [14C]SA, although plants treated with 2-aminoindan-2-phosphonic acid could still produce [14C]SA from [14C]benzoic acid. Biosynthesis of SA in tissue inoculated with tobacco necrosis virus followed a transient pattern with the highest induction occurring 72 h postinoculation. Uninfected tissues from an infected plant synthesized de novo more SA than did controls. This suggests the involvement of a systemic signal triggering SA synthesis in tissue distant from the site of infection that display systemic acquired resistance.     

Immunoregulation in experimental schistosomiasis. II. Soluble egg antigen-induced chronic spleen cell augmentation of baseline lymphocyte reactivity

Spleen cells from mice harboring infections of Schistosoma mansoni for 20 weeks exposed to Con A or to soluble schistosome egg antigenic preparation (SEA), treated with Mitomycin C (Mc), and cocultured with spleen cells from either normal or infected mice caused an augmented baseline [3H]TdR incorporation by the otherwise unstimulated responder cells. This regulation required an in vitro induction phase. SEA-exposed, Mc-treated normal spleen cells had no effect on responder cell cultures. SEA-stimulated, Mc-treated chronic spleen cell augmentation was effective on responder cell populations from either normal mice or mice infected with S. mansoni for 8 weeks. Augmentation was most pronounced when assayed on cells from infected mice assayed over a 5-day incubation. In addition, it is demonstrated that these Con A- and SEA-elicited activities are mediated by soluble mediators which lack H-2 restriction.     

Skeletal muscle protein and amino acid metabolism in hereditary mouse muscular dystrophy. Accelerated protein turnover and increased alanine and glutamine formation and release

Interactins between skeletal muscle protein and amino acid metabolism were investigated using C57BL and 129ReJ mice with hereditary muscular dystrophy. On incubation, hind limb muscle preparations from dystrophic mice released large quantities of amino acids, particularly alanine and glutamine which were increased 70% and 40% compared to muscles from carrier or control mice. The increased alanine release did not result from altered alanine oxidation to CO2 or reincorporation into protein. Alanine and glutamine formation from added amino acids were equal with dystrophic and control muscles. Incorporation in vitro of leucine, alanine, and glutamate into proteins of dystrophic muscle was 3- to 7-fold greater than control muscle, and the incorporation in vivo of [3H]- or [14C]arginine into muscle proteins was greater in extent and earlier in time with dystrophic as compared to control muscle. Proteins were also labeled in vivo using [guanido-14C]arginine. On incubation of these muscles in vitro, a 100% greater loss of label from protein was observed with dystrophic as compared to control preparations, and the appearance of label in the media was correspondingly increased. Sodium dodecyl sulfate-gel electrophoresis of dystrophic skeletal muscle showed numerous protein bands to be reduced in density, but autoradiographic studies demonstrated that these same bands were more highly labeled in vitro by [35S]methionine in dystrophic than in control muscle. Although insulin stimulation of glucose uptake was markedly blunted in dystrophic muscle, insulin inhibited alanine and glutamine release equally from both control and dystrophic muscle. These data indicate that alanine and glutamine formation and release are increased in hereditary mouse muscular dystrophy. An accelerated degradation and an increased resynthesis of many muscle proteins were also observed in dystrophic compared to control animals. This increased proteolysis may account for the increased alanine and glutamine formation in dystrophic muscle.     

Oxamniquine, praziquantel and lovastatin association in the experimental Schistosomiasis mansoni

The activity of lovastatin associated with oxamniquine or praziquantel against schistosomiasis mansoni was evaluated in mice infected with Schistosoma mansoni. Forty days after infection, mice were treated with lovastatin, 400 mg/kg for five consecutive days by oral route, and on the last day of this sequence with 50 mg/kg oxamniquine or with 200 mg/kg praziquantel, both by oral route, single dose. Fifteen days later, the animals were perfused in parallel with an untreated control group. Studies were carried out in vitro, using lovastatin in culture medium containing S. mansoni worms proceeding from experimentally infected mice. In the in vivo trials, the association of lovastatin with oxamniquine or praziquantel did not show any additive action, but there were oogram changes when lovastatin was associated with oxamniquine. In vitro lovastatin was able to interrupt the maturation of S. mansoni eggs, which remained at the 1st or 2nd stages, depending on the dose used. The total number of morphologically dead eggs found in culture of worms exposed to 2 microg/ml or 4 microg/ml concentrations of lovastatin was significantly higher than the number of viable eggs. Using the probe Hoescht 33258 it was observed that 70% of the eggs considered morphologically viable in the treated groups (against 16% in the control group) were labeled, indicating that the majority of the viable eggs had membrane permeability increased due to lovastatin action.     

Modulation of macrophage activation and resistance by suppressor T lymphocytes in chronic murine Schistosoma mansoni infection

Activated macrophages (M phi) appear responsible for at least part of the concomitant resistance in mice infected with Schistosoma mansoni. We found that as murine S. mansoni progressed from acute (8 to 12 wk of infection) to chronic (16 to 24 wk) stages, acquired resistance decreased (57% resistance to challenge with cercariae at 8 wk vs 28% by 24 wk, p less than 0.05), as did macrophage activation (21% +/- 2 killing of schistosomula by 8 wk M phi vs 8% +/- 2 for 24 wk M phi, p less than 0.01). T cells from the spleens of 8 wk-infected mice were capable of activating M phi from naive animals when stimulated with worm antigens (24% +/- 2 killing vs 8% +/- 2 induced by normal T cells, p less than 0.01); T cells obtained from 24 wk-infected mice did not activate M phi (13% +/- 2 killing). Furthermore, T cells from 24 wk-infected animals suppressed activation of M phi by 8 wk T cells. The addition of 10(5) 24 wk T cells to 3 X 10(5) antigen-stimulated 8 wk T cells reduced subsequent M phi killing from 27% +/- 4 to 13% +/- 2 (p less than 0.05). Week 24 T cells (3 X 10(5] reduced this additionally to 9% +/- 1 (p less than 0.01), a value no greater than that of unstimulated M phi. The subpopulation of T cells responsible for suppression of M phi activation was Lyt-2+1- nonadherent T cells. Cyclophosphamide treatment of chronically infected mice resulted in enhanced resistance (41%), M phi activation (18% +/- 1 killing), and T cell activation of naive M phi (10% +/- 1 killing). Thus, during chronic S. mansoni infection, resistance to reinfection wanes in parallel to and perhaps because of development of suppressor T cells that interfere with T-dependent M phi activation.     

The pentose cycle and insulin release in isolated mouse pancreatic islets during starvation.

When islets from mice were incubated with 16.7 mM-glucose, previous starvation for 48 h decreased the rate of insulin release by approx. 50% and glucose utilization was decreased by approx. 35%. The maximally extractable activity of glucose 6-phosphate dehydrogenase was diminished by 28% after starvation. The formation of 14CO2 from both [1-14C]glucose was, however, higher than the rate of oxidation of [6-14C]-glucose in islets from both fed and starved mice. The fraction of glucose utilized that was oxidized (specific 14CO2 yield) ranged from one-fifth to one-third and was higher in islets from starved mice with both [1-14C]glucose and [6-14C]glucose as substrate. The contribution of pentose-cycle oxidation to total glucose metabolism was small (3% in the fed state and 4% in the starved state). The absolute rates of glucose carbon metabolism via the pentose-cycle oxidation to total glucose metabolism was small (3% in the fed state and 4% in the starved state). The absolute rates of glucose carbon metabolism via the pentose cycle and the turnover of NADPH in this pathway were identical in islets from fed and starved animals. After incubation at 16.7 mM-glucose for 30 min the contents of glucose (6-phosphate and 6-phosphogluconate were both unchanged by starvation. It is concluded that there is no correlation between the decreased sensitivity of the insulin secretory mechanism during starvation and the metabolism of glucose via the pentose cycle, the islet content of glucose 6-phosphate or 6-phosphogluconate.     

Alterations in kynurenine precursor and product levels in schizophrenia and bipolar disorder

Increased concentrations of kynurenine pathway metabolites have been reported by several groups for disorders involving psychosis, including schizophrenia and bipolar disorder. To identify components of the pathway that may be relevant as biomarkers or may underlie the etiology of psychosis, it is essential to characterize the extent of kynurenine pathway activation and to investigate known regulators of one of the key kynurenine-producing enzymes, tryptophan 2,3-dioxygenase (TDO2), previously shown in this laboratory to be increased commensurate with kynurenine in postmortem anterior cingulate brain tissue from individuals with schizophrenia. Using this same anterior cingulate sample set from individuals with schizophrenia, bipolar disorder, depression and controls (N=12-14 per group), we measured the precursor of kynurenine and two downstream products. The precursor, tryptophan, was significantly increased only in the schizophrenia group (1.54-fold the mean control value, p=0.02), and through substrate-induced activation, may be one cause of the increased kynurenine and kynurenine metabolites. This finding for tryptophan differs from some, but not all, previous reports and methodological reasons for the discrepancies are discussed. A product of kynurenine metabolism, 3-OH-anthranilic acid was also significantly increased only in the schizophrenia group (1.68-fold the mean control value, p=0.03). 3-OH-anthranilic acid is a reactive species with cytotoxic properties, although the threshold for such effects is not known for neurons. Analysis of major pre- and post-mortem variables showed that none were confounding for these between-group experimental comparisons. Nicotinamide, a pathway end product, did not differ between groups but was associated with cause of death (suicide) within the bipolar group (p=0.03).     

Host glucose metabolism mediates T4 and IL-7 action on Schistosoma mansoni development

Interleukin (IL-)7 and thyroxin (T4) favor Schistosoma mansoni development. Their effect is similar, rather than identical; moreover, cotreatment acts synergistically on parasites. This questioned a common mediator to their action, which we hypothesized was host glucose metabolism. Infection with S. mansoni resulted in an early peak in glycemia immediately followed by a peak of insulinemia (D7-21). In IL-7 + T4 cotreated infected animals, the peak of insulin was abrogated. We further assessed the consequences of experimentally induced glucose- or insulin-level variations on parasite development. Insulin treatment from day 14 to day 21 post-infection (PI) led to increased worm burden and parasite size, thus mimicking the effect of T4 on schistosome development. Interestingly, insulin treatment did not modify glycemia yet abrogated the hyperinsulinemia, normally occurring during infection. Finally, these treatments were associated with an alteration of the expression of parasite genes involved in glucose uptake. These experiments characterize the elaborate links between parasite and host metabolism and their reciprocal influences.     

Alteration of adipocyte metabolism in omega3 fatty acid-depleted rats.

Presently an insufficient supply of long-chain polyunsaturated omega3 fatty acid is prevalent in Western populations leading to potential metabolic consequences. Based on this fact, this study deals mainly with various aspects of lipid metabolism in second generation female omega3-depleted rats. The parametrial fat and body weights were higher in omega3-depleted than control animals. This coincided with liver steatosis but did not alter heart triglyceride/phospholipid ratio. The net uptake of [U-14C] palmitate by adipocytes was also higher in omega3-depleted rats than in control animals. The uptake of D-[U- 4C] glucose or [1,2 (-14)C] acetate by adipocytes was lower, however in omega3-depleted than control animals and was unaffected by insulin in the former as distinct from latter animals. Despite comparable basal lipolysis, the increase in glycerol output from adipocytes provoked by theophylline was higher in omega3-depleted than control rats. The fatty acid pattern of lipids in adipose tissue was characterized in the omega3-depleted rats by a much lower omega3 content, higher apparent Delta 9-saturase and elongase activities, lower efficiency for the conversion of C18:2omega6 to C20:4omega6 and higher efficiency for the conversion of C18:3omega3 to C20:5omega3. These features were compared to those prevailing in liver and plasma lipids. The present study thus extends knowledge on the alteration of lipid metabolism resulting from a deficiency in long-chain polyunsaturated omega3 fatty acids.