Trypsin inactivation by intact Hymenolepis diminuta (Cestoda): some characteristics of the inactivated enzyme

In the presence of intact Hymenolepis diminuta, trypsin was inactivated; intact worms had no apparent effect on subtilisin, pepsin, or papain. Inactivation of trypsin was demonstrable using azoalbumin as a substrate, but the inactivated enzyme retained full catalytic activity against benzoyl-DL-arginine-p-nitroanilide, p-tosyl-L-arginine methyl ester (low molecular weight synthetic trypsin substrates) and p-nitro-p-guanidinobenzoate (an active site titrant). Inactivation was not reversible under conditions of heating, freezing and thawing, or prolonged dialysis of the enzyme. Analyses of inactivated 3H-trypsin by cationic and SDS-polyacrylamide gel electrophoresis, and gel chromatography failed to indicate the presence of a high molecular weight trypsin inhibitor associated with the inactivated enzyme; no low molecular weight, dissociable inhibitor was demonstrable following thermal denaturation of the inactivated enzyme. Analyses of trypsin after incubation in the presence of pulse-labeled worms also failed to demonstrate the presence of any inhibitor of worm origin associated with the inactivated enzyme. The data suggest that inactivation is the result of a small structural or conformational change in the enzyme molecule, a change which partially (rather than totally) inactivates the enzyme towards protein substrates.     

Effect of host feeding and available glucose on glycogen synthase and phosphorylase activities in Hymenolepis diminuta and Vampirolepis microstoma

The influences of host feeding and the availability of glucose in vitro on the activities of glycogen synthase and glycogen phosphorylase in Hymenolepis diminuta and in Vampirolepis microstoma were studied. The worms were recovered from hosts that had been fed ad libitum, starved for 24 hr, or starved 24 hr and then refed for 1 hr immediately prior to worm recovery. The ratios of active to inactive glycogen synthase and phosphorylase were correlated with the host feeding regimen prior to recovery. Glycogen synthase in H. diminuta was predominately in the inactive D form in worms from both fed and fasted hosts. One hour after refeeding, up to 80% of the synthase was in the active I form. Phosphorylase in H. diminuta was predominantly in the active a form in worms from fed and fasted hosts, but activity of this enzyme was suppressed in worms from refed hosts. When H. diminuta from fasted hosts was incubated in a balanced salt solution containing 40 mM glucose, glycogen synthase I increased, and phosphorylase a decreased. Glycogen synthase in V. microstoma was predominantly in the inactive D form in worms from both the fed and fasted hosts, but the proportion in the active I form increased to over half the total synthase by 1 hr of host refeeding. The proportion of glycogen phosphorylase a was high in worms from fed hosts and decreased, but not dramatically, in worms from fasted hosts. The results suggested that the worms had access to another source of glucose, probably from the host bile, and we measured a low but significant concentration of carbohydrate in the gall bladder bile of mice.(ABSTRACT TRUNCATED AT 250 WORDS)     

Conformational changes in the membrane-bound hydrogenase of Bradyrhizobium japonicum. Evidence that the redox state of the enzyme affects its accessibility to protease and membrane-impermeant reagents

The sensitivity of the membrane-bound hydrogenase of Bradyrhizobium japonicum to inactivation by proteases and membrane-impermeant protein modification reagents was compared under hydrogen versus oxygen. In membrane vesicles, the half-life of enzyme inactivation by trypsin of the H2-reduced enzyme was approximately 10 min, whereas O2-oxidized enzyme was much less sensitive to trypsin inactivation (half-life of over 90 min). Diazobenzene sulfonate (DABS) affected the enzyme activity in a manner similar to proteases. With DABS, the enzyme had a half-life of 2-3 min under H2 versus over 30 min under O2. Experiments in which the gas phase (containing either H2 or O2) available to the membranes was changed prior to the protease or chemical modification treatments indicated that it is the redox state of the enzyme at the time of the treatment which determines the sensitivity of the enzyme to inactivation. The redox-dependent differences in the behavior of the membrane-bound enzyme were attributed to changes in the accessibility of the small (33 kDa) subunit. The kinetics of enzyme inactivation by trypsin, under H2, correlated very well with the degradation of the intact 33-kDa subunit, whereas the large subunit (65 kDa) was rather resistant to proteolytic degradation. DABS treatment was found to decrease the reactivity of the small subunit to its antibody concomitant with enzyme inactivation under H2, but without such an effect on the O2-oxidized enzyme. In contrast to the results with the membrane-bound enzyme, purified dehydrogenase was found to be equally susceptible to inactivation by proteolysis or chemical modification irrespective of whether the treatments were performed under H2 or O2. These results indicate that, in the membrane, hydrogenase undergoes a redox-linked conformational change, whereby the small subunit of the enzyme becomes more accessible to external reagents when the enzyme is in its reduced form.     

The occurrence, synthesis and metabolism of 5-hydroxytryptamine and 5-hydroxytryptophan in the cestode Hymenolepis diminuta: a high performance liquid chromatographic study

The biosynthesis and metabolism of 5-hydroxytryptamine (serotonin; 5-HT) in the cestode Hymenolepis diminuta was investigated by High Performance Liquid Chromatography (HPLC). Incubation of intact H. diminuta in [3H]tryptophan resulted in substantial radioactivity recovered in 5-HT, 5-hydroxytryptophan (5-HTP), and 5-hydroxyindoleacetic acid (5-HIAA). Furthermore, the tissue levels of 5-HT and 5-HTP, as determined by HPLC with electrochemical detection, were significantly depressed when the animals were deprived of tryptophan. On the other hand, the tissue levels of 5-HTP were significantly increased following incubation with the 5-HTP decarboxylase inhibitor m-hydroxybenzylhydrazine. The synthesis and metabolism of 5-HT are discussed in the light of 5-HT as a physiological transmitter in H. diminuta.     

Study of the effects of insulin on the migration of Hymenolepis diminuta in rats

The effects of insulin on worm (Hymenolepis diminuta) migration was studied. Insulin injection (20 U/kg, s.c.) significantly increased gastric acid output but did not affect the serotonin content of blood, intestinal lumen or worms. The drug produced, dose-dependently, posteriad migration of the worms in rats without pylorus-ligation but ligation of the pylorus prevented this migration. It is concluded that the hypersecretion of gastric acid induced by insulin is responsible for the posteriad migration of H. diminuta in rats.     

Controlled tryptic digestion of prostaglandin H synthase. Characterization of protein fragments and enhanced rate of proteolysis of oxidatively inactivated enzyme

Treatment of prostaglandin H (PGH) synthase (70 kDa) with trypsin generates fragments of 33 and 38 kDa. Each of the fragments was purified by reverse-phase high performance liquid chromatography (HPLC) using acetonitrile/water/trifluoroacetic acid gradients. Amino acid sequence analysis indicates that the 33-kDa protein contains the NH2 terminus of PGH synthase. Neither the 33- nor 38-kDa fragment isolated by HPLC exhibits any PGH synthase activity; however, cleavage of intact enzyme to 33- and 38-kDa fragments to the extent of 90% only reduces cyclooxygenase activity by 40%. This implies that the cleaved proteins or a complex formed between them retains the conformation necessary for enzyme activity. Extensive attempts to resolve active fragments from each other or from intact enzyme were unsuccessful; intact enzyme and digestion fragments cochromatograph under all conditions employed. Treatment of PGH synthase with [3H]acetylsalicylic acid followed by trypsin digestion introduces [3H]acetyl moieties into the intact protein and the 38-kDa fragment (0.8-0.9 acetyl group/subunit). Nearly complete conversion of PGH synthase to 33- and 38-kDa fragments by exposure to high concentrations of trypsin prior to [3H]acetylsalicylic acid treatment results in labeling of the 38-kDa fragment, but not the 33-kDa fragment. The present findings are consistent with the presence of a membrane-binding domain (33 kDa) and an active site domain (38 kDa) in the 70-kDa subunit of PGH synthase. They also suggest that, following cleavage, the 38-kDa fragment retains the structural features responsible for the cyclooxygenase activity and selective aspirin labeling of PGH synthase. PGH synthase undergoes self-catalyzed inactivation by oxidants generated during its catalytic turnover. When PGH synthase, inactivated by treatment with arachidonic acid or hydrogen peroxide, was treated with trypsin it was cleaved two to three times faster than unoxidized enzyme. Addition of heme to oxidized PGH synthase did not reconstitute cyclooxygenase activity or resistance to trypsin cleavage. Spectrophotometric studies demonstrated that oxidatively inactivated enzyme did not bind heme. This implies that oxidation of protein residues as well as the heme prosthetic group is an important determinant of proteolytic sensitivity. Oxidative modification may mark PGH synthase for proteolytic cleavage and turnover.     

In vitro tapeworm extract-induced proliferative responses of gut-associated lymphoid cells from Hymenolepis diminuta infected mice

The development of lymphoid cells reactive to tapeworm-associated antigens during the course of Hymenolepis diminuta rejection from mice was studied using an in vitro tapeworm extract (TWE)-induced cell proliferation culture system. Mice infected with three cysticercoids on day 0 developed three adult worms by day 7 but worms were rejected by day 21 post-infection. Concomitant with worm rejection was the development of TWE-sensitized lymphoid cells which responded by proliferation when stimulated in vitro with TWE. Sensitized cells were detected in gut-associated mesenteric lymph nodes but were not detected in spleen, axillary lymph nodes, or Peyer's patches of infected mice, or in lymphoid organs of non-infected mice. These studies suggest that rejection of H. diminuta from mice is associated with the activities of gut-associated, tapeworm antigen-sensitized immune cells localized in the mesenteric lymph nodes.     

Hymenolepis diminuta: effects of amoscanate on energy metabolism and ultrastructure

Amoscanate possesses chemotherapeutic activity against schistosomes, and in higher doses against many other helminths including filariids and Hymenolepis diminuta. The primary mode of action of this compound is unknown. Effects of the drug on the carbohydrate metabolism as well as on the tegumental and nephridial epithelia of H. diminuta were examined. At various time intervals after administration of the drug to rats infected with H. diminuta, the parasites were recovered and incubated in glucose-salts medium for 90 min. Chemotherapy resulted in decreases in succinate, lactate, and acetate recoveries, while ATP levels dropped. In addition, glycogen levels were depressed in drug-treated worms which were homogenized immediately upon isolation. Glycogen synthase I activity was inhibited 16-61% in cestodes obtained from Amoscanate-treated animals and homogenized immediately, but returned to normal levels after incubation for 90 min in glucose-salts medium prior to homogenization and assay. Phosphorylase a activity was found to be 25-30% higher in preparations of worms from drug-treated rats, which correlates with the rapid depletion of glycogen in parasites exposed to the drug. However, in contrast with glycogen synthase activity, the elevation of phosphorylase a activity in H. diminuta exposed to the drug was not readily reversible. Attempts to demonstrate activity of the drug in vitro by incubating intact cestodes directly with Amoscanate were unsuccessful. Thin sections of parasites obtained from Amoscanate-treated rats and examined by transmission electron microscopy revealed surface alterations of the tegument and nephridial canals. Alterations included bleb formation and erosion of microtriches from the tegument, as well as disappearance of microvilli from nephridial canals. However, these effects became manifest only after 4 or more hr exposure of the rat to the drug. Biochemical effects, on the other hand, were significant after 3 hr exposure.     

Developmental physiology of cestodes: cyclic nucleotides and the identity of putative crowding factors in Hymenolepis diminuta

Worm-conditioned saline (WCS) was prepared by incubating Hymenolepis diminuta from crowded infections for 12 hr in a balanced salt solution. The effect of the WCS on the incorporation of [3H] thymidine into DNA in the anterior regions of fresh H. diminuta was compared to effects produced by the cyclic nucleotides in the WCS. Cyclic AMP and cGMP were found in the WCS, and cGMP but not cAMP (at the concentration in WCS) caused some inhibition of DNA synthesis. For further study of the effects of cyclic nucleotides, worms were incubated with theophylline, caffeine, 3-isobutyl-1-methyl xanthine, 2-deoxy cGMP, and L-ascorbic acid, all of which produced some inhibition of [3H] thymidine incorporation. Treatment of WCS with 3',5' cyclic nucleotide phosphodiesterase abolished part of its inhibitory activity, i.e., that part presumed to be due to cGMP. When worms were incubated in the presence of succinate, acetate, D-glucosaminic acid, and cGMP simultaneously and in the concentrations each was found in the WCS, DNA synthesis was inhibited to a degree equal to that found in the WCS. Thus these substances apparently represent the putative crowding factors in the WCS. WCS prepared with worms from different population densities contained the same levels of cAMP but varied in content of cGMP, which decreased as the worm density increased. WCS prepared with patent worms contained high levels of cAMP, but the same amounts of cGMP as WCS prepared with 10-day-old worms. At least some inhibitors of cyclic nucleotide phosphodiesterase inhibited the secretion of cGMP by the worms. Levels of cGMP in the host intestine varied with the presence or absence of worms, number of worms, and area of the intestine.     

Secondary infections of Hymenolepis diminuta in mice: effects of varying worm burdens in primary and secondary infections.

In one (1 c) and six (6 c) cysticercoid primary infections of Hymenolepis diminuta in NIH (inbred) and CFLP (outbred) male mice 6 +/- 1 weeks old greater than 85% of the worms established but were rejected (destrobilated or expelled) subsequently. Rejection occurs more quickly in 6 c infections than in 1 c infections. Considerable worm growth occurs in 1 c and 6 c primary infections but worms from 6 c infections weighed less than worms from 1 c infections on all days studied. Expulsion of H. diminuta does not occur more rapidly in secondary infections than in primary infections; loss of 6 c secondary worms occurs at the same rate as 6 c primary worms but 1 c secondary worms survive longer than 1 c primary worms. Although worms are not lost more quickly in secondary than in primary infections, they are affected at an early age by the immune response which stunts their growth. Increasing the intensity of primary and secondary infections increases the severity of stunting of secondary worms. The results are discussed and it is suggested that immune responses to Hymenolepis spp. in rodents are common but that thresholds of worm numbers exist below which appreciable worm loss does not occur. Stunting due to crowding, which generally is attributed to inter-worm competition, may be in part immunologically mediated. For future immunological studies attempting to induce secondary responses to H. diminuta in mice, worm growth, not survival, is the criterion to evaluate.     

Hymenolepis diminuta: effects of decerebration on thermal response behavior.

Hymenolepis diminuta propels itself with unidirectional peristaltic-like waveforms. When intact adult H. diminuta are placed in a thermal gradient, with the anterior proglottids hot relative to the posterior proglottids, the worms migrate up the gradient toward the hot side. When the anterior is cold, relative to the posterior, the worms moved slightly or little. These behaviors in a thermal gradient represent true thermokinetic responses for an organism with undirectional locomotion. Removal of the scolex, containing the worm's cerebral ganglia, did not significantly alter these thermal responses. These data suggest that the peripheral nervous system is capable of integrating sensory input over the length of the strobila and coordinating locomotory behavior, in the absence of the central nervous system.     

Inactivation of monoamine oxidase by allylamine does not result in flavin attachment

[1-3H]Allylamine was synthesized by sodium boro[3H]hydride reduction of acrolein followed by direct conversion of the [1-3H]allyl alcohol to N-allylphthalimide with triphenylphosphine, diethylazodicarboxylate, and phthalimide. The protecting group was removed with hydrazine. Inactivation of beef liver mitochondrial monoamine oxidase with [1-3H]allylamine led to incorporation of 1-6 eq of inactivator/active site depending upon the length of incubation time. Inactivation and radioactivity incorporation coincided; however, after 1 eq of tritium was incorporated and 5% enzyme activity remained, additional radioactivity continued to become incorporated into the enzyme. The optical spectrum of the FAD coenzyme changed during inactivation from that of oxidized to reduced flavin. Following dialysis of the inactivated enzyme, the spectrum remained reduced, but denaturation in urea rapidly resulted in reoxidation of the flavin. Under these same denaturing conditions, 96% of the radioactivity associated with the enzyme remained bound, therefore indicating that allylamine attachment is not to the flavin coenzyme but rather to an active site amino acid residue. The adduct also was stable to base and, to a lesser degree, acid treatment. Although allylamine and N-cyclopropylbenzylamine appear to be oxidized by monoamine oxidase to give 3-(amino acid residue) propanal adducts, two different amino acids seem to be involved because of a difference in stability of the adducts. The mechanisms for inactivation of monoamine oxidase by allylamine and reactivation by benzylamine are discussed in relation to previously reported results.     

Inhibition of growth of a tapeworm Hymenolepis diminuta in its normal host (rat).

The biomass of 8-day-old worms of Hymenolepis diminuta in secondary infections, administered to rats 3-10 days after chemotherapeutically expelling a primary infection, was 70-90% less, and the worms were more posteriorly distributed, than in naive controls. The strong depressive effect on growth waned rapidly over 2-5 weeks, but even in rats not challenged until 17 months later, worm growth was weakly depressed by 30%. The extent to which growth was depressed in a secondary infection was independent of the number of worms in the challenge but increased with number of worms in the immunizing infection up to four to eight worms. Further increase up to 64 worms had little effect. This suggests, as it is known that the biomass of worms in a rat reaches a maximum with infections of between five and 10 worms, that the change in the intestine is proportional to biomass, not number, of worms. It is argued that partially suppressed immuno-inflammatory changes in the intestine, which will affect secondary worms so strongly, will also have depressed growth and fecundity effects on the primary worms, that a dynamic equilibrium is reached between the strength of the intestinal response and the biomass of the tapeworm, and that it is reaching this equilibrium, not a 'crowding effect', which limits H. diminuta to a level compatible with the survival of the rat.     

Amino acid metabolism in the rat tapeworm, Hymenolepis diminuta

1. The amino acid metabolism of the rat tapeworm, Hymenolepis diminuta was investigated. 2. In addition to the characteristic end products of helminth metabolism, H. diminuta also forms substantial amounts of 14C-alanine during incubations in 14C-glucose. 3. Of 10 amino acids tested, only 14C-labelled asparate and, to a lesser extent alanine, generated substantial amounts of 14CO2 when incubated with H. diminuta. 4. 14C-aspartate was incorporated into both succinate and acetate, major products of the worms mitochondrial metabolism, but the rates were low when compared to the metabolism of exogenous glycogen. 5. These results suggest that amino acid metabolism in H. diminuta is very limited.     

The role of carbon dioxide in the metabolism of adult Haemonchus contortus, in vitro

Adult Haemonchus contortus worms simultaneously excrete and fix CO2. Their initial content of CO2 was measured as 4.55 mumoles/100 mg wet weight and their excretion rate in air as 1 mumol/100 mg wet weight/h for at least 4 h. When the worms were incubated either aerobically or anaerobically with 14CO2 most of the metabolized radioactivity was associated with propan-1-ol and propionate but small amounts were found in succinate and lactate. No radioactivity was associated with ethanol or acetate, two major catabolites of glucose. Stepwise degradation of the metabolized radioactive propanol and propionate showed that all the radioactivity in both compounds was associated with carbon atom no. 1. These results show that H. contortus has much in common with the anaerobic energy metabolism of Ascaris lumbricoides but they are not inconsistent with the utilization of the tricarboxylic acid cycle by the worm. H. contortus worms were found to metabolize their excretory products. When they were incubated with either [2,3-14C]succinate or [2-14C]acetate, 14CO2 was excreted under aerobic but not under anaerobic conditions. These results are consistent with a pathway similar to that used by Ascaris operating aloneunder anaerobic conditions and together with the tricarboxylic acid cycle under aerobic conditions.     

Hymenolepis diminuta: immunogenicity of the strobilate worm

Mice were immunized against challenge with Hymenolepis diminuta by feeding cysticercoids or by surgically implanting into the duodenum strobilate worms of different ages. Young worms stimulate stronger immunity than older ones, although the latter presents the host with a greater amount of strobilar tissue per unit time. An increase in the number of immunizing worms is associated with an increase in the level of protection. It is concluded that the development of functional immunity against H. diminuta in mice has both quantitative and qualitative antigenic requirements; it is influenced by worm age and is independent of worm mass.     

Developmental physiology of cestodes: characterization of putative crowding factors in Hymenolepis diminuta

It was shown previously that worm-conditioned saline (WCS) prepared from crowded 10-day-old H. diminuta inhibited the incorporation of 3H-thymidine into DNA in the anterior regions of uncrowded worms and that the inhibition was partially accounted for by succinate and acetate excreted by the worms. The present study describes further characterization of the active components of WCS. An ultrafiltrate was fully as potent as untreated WCS, indicating that all detectable inhibitory components were less than about 500 daltons in molecular mass. Inhibitory factors in WCS were stable to heat (80 C for 30 min), cold (4 C for 48 hr), drying and reconstitution, alkaline pH (11 to 12 for 3 hr), and ethanolic extraction. Active compounds were probably not lipoidal in nature. Although the acidic ethanol extract of WCS was inhibitory, no activity was observed in fractions of WCS that contained basic, acidic and neutral amino acids. Amino compounds in the WCS were further investigated. Twenty-four amino acids were identified, 3 of which (phosphoserine, 1-methylhistidine, and 3-methylhistidine) have not been reported previously for H. diminuta. On a molar basis, alanine accounted for 40-50% of the amino acids released. The amino sugar, D-glucosaminic acid, was found in the WCS and also has not been heretofore reported from H. diminuta or any other cestode. In concentrations comparable to those in the WCS, D-glucosaminic acid inhibited incorporation of 3H-thymidine into the DNA of the tapeworms by 25-35%, suggesting that D-glucosaminic acid may be one of the crowding factors.     

Effect of the expulsion phase of Trichinella spiralis on Hymenolepis diminuta infection in mice

The rapid elimination of the intestinal phase of Trichinella spiralis in NIH mice is associated with progressive inflammation of the intestinal tract. The non-specific effects of this inflammation were studied in mice concurrently infected with an unrelated parasite, Hymenolepis diminuta, which does not stimulate a visible inflammatory response but is also immunologically rejected by this strain of mice. It was demonstrated that the rejection phase of T. spiralis infection had a marked effect upon the growth and survival of H. diminuta. The cestode either failed to establish or to grow; if the worms were already strobilate when inflammation developed then destrobilation occurred. There was no cross-immunity between the parasites, nor was the interaction a direct consequence of inter-specific competition.     

Hymenolepis diminuta: lack of sulphate activation and sulphotransferase activity

There is no evidence that Hymenolepis diminuta can carry out sulphoconjugation reactions. Neither whole worms nor worm extracts were able to sulphate 4-methylumbelliferone. No sulphotransferase activity could be demonstrated in H. diminuta using a variety of substrates, nor was H. diminuta capable of synthesising the sulphate donor 3'-phosphoadenosine-5'-phosphosulphate from ATP and inorganic sulphate. Possible alternative sources of active sulphate in this parasite are discussed.     

In vivo effects of putative crowding factors on development of Hymenolepis diminuta.

During in vitro incubation, Hymenolepsis diminuta secretes substances into the medium that inhibit DNA synthesis in the germinative region of freshly isolated, uncrowded worms. Of the many substances that are released by H. diminuta into the medium, earlier studies indicate that only succinate, acetate, glucosaminic acid, and cGMP are responsible for the inhibition. In the present report, effects of these putative crowding factors on worm development in vivo were examined. At 7 days postinfection the proximal end of the host's intestine was catheterized and perfused with test solution. The test solution contained 28 nM cGMP, 250 microM glucosaminic acid, 120 mM succinate, and 40 mM acetate. The solution was perfused by a peristaltic pump at a rate of 50 ml/day. At 2 wk postinfection, worms were recovered for subsequent analysis. Worms developing in the presence of crowding factors were 53% less in wet weight than control worms. Carbohydrate concentrations in worms from experimental groups were not different from those in control groups; therefore, the inhibition in growth was probably not due to carbohydrate deprivation. Worms from experimental groups had fewer immature, mature, and gravid proglottids than did worms from control groups. The results are consistent with the hypothesis that the tested substances, which inhibit DNA synthesis in H. diminuta in vitro, are a part of the cause of the crowding effect in vivo.