Pathophysiologic alterations in Biomphalaria glabrata infected with Angiostrongylus costaricensis

Hemolymph glucose, alkaline phosphatase, lactic dehydrogenase, and creatine phosphokinase in Biomphalaria glabrata infected with Angiostrongylus costaricensis were significantly higher on day 27 postinfection (PI) than in uninfected snails. Hemolymph total calcium from infected snails was less on days 6, 12, and 27 PI than that from controls. Total hemolymph protein was similar for controls and infected animals during the entire study. Throughout the study the mean number of amoebocytes/mm³ hemolymph from infected snails was significantly less than that for controls. Mean total wet weights of digestive gland and foot muscle from infected and uninfected snails was similar throughout the study. Mean μg glycogen/mg wet weight of digestive gland from infected snails was significantly greater on days 24, 27, and 28 PI than that from controls. Mean μg glycogen/mg wet weight of foot muscle from infected snails was significantly reduced between days 12 and 28 PI from that of uninfected snails. It is suggested that hemolymph glucose and digestive gland glycogen in infected snails are augmented by glycogen breakdown in the foot muscle of parasitized animals. Elevations in hemolymph enzymes are due to tissue destruction by larvae emerging from the foot muscle of infected snails. Parasite-induced derangements in shell metabolism underlie observed changes in hemolymph calcium in infected snails.     

Morpho-functional modifications of human syncytiotrophoblast plasma membrane during Pregnancy Induced Hypertension

Changes in [³⁵S]methionine protein labeling patterns were examined by following incorporation into the acid precipitate protein fraction of land snails,Otala lactea (Müller) (Pulmonata, Helicidae). Labeled proteins were analyzed by SDS polyacrylamide gel electrophoresis and isoelectric focusing columns. Snails in four different physiological states were compared: active controls, short term aestivating snails (injected and allowed to enter aestivation), long term aestivating snails (aestivated for 14 days, injected, and maintained in the aestivating state), and snails aroused after aestivation (aestivated, injected, and aroused). Protein associated radioactivity was measured over a 7 day time course post injection. Autoradiographic analysis of SDS-polyacrylamide gels showed increases in the radioactivity of four proteins: 91 kDa (hepatopancreas, day 1 in long term aestivating animals), 50 kDa (hepatopancreas, day 2 in short term aestivating snails), 70 kDa and 30 kDa (foot, day 2 in short term aestivating animals). Hepatopancreas and foot from day 1 long term aestivating and day 2 short term aestivating animals were also analyzed by isoelectric focusing columns. Several pH-specific differences were apparent when controls and aestivating animals were analyzed. In particular a peak of radioactivity was observed at pH 5.05 in 1 d long term aestivating hepatopancreas and at pH 4.30 in 2d short term aestivating animals. Several differences were noted in foot with no specific pattern emerging. SDS-polyacrylamide gel electrophoresis analysis of the hepatopancreas peaks showed the appearance of several bands with increased radioactivity, including the 91 kDa and 50 kDa proteins described above. These results suggest thatO. lactea aestivation specific proteins may be involved in the transition to a depressed metabolic state.Abbreviations dpm radioactive disintegrations per minute - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulphate - SRP stress related protein     

Ultrastructural localization of esterase and acid phosphatase in digestive gland cells of fed and starvedCepaea nemoralis (L.) (Mollusca: Helicidae)

Summary The ultrastructural localizations of thiolacetic acid esterase, indoxyl acetate esterase and acid -glycerophosphatase have been studied in the digestive gland cells of fed and starvedCepaea nemoralis. In fed snails the major localization of all three enzymes was in the green granule vacuoles of digestive cells. In addition, the cytoplasm of calcium cells and the Golgi apparatus and GERL (?) of all cell types were acid phosphatase positive. Many digestive cells of starved snails showed a similar enzyme distribution to that found in fed snails but other digestive cells showed a very high cytoplasmic activity of all three enzymes. It is suggested that these cells are in the process of autolysis. New light is also thrown on the process by which food is transported from the digestive gland lumen to the phagosomes of digestive cells.     

Resiniferonol-related Diterpene Esters from Daphne odora Thunb. and their Ornithine Decarboxylase-inducing Activity in Mouse Skin

Phosphoenolpyruvate (PEP) carboxylase purified from Brevibacterium flavum was specifically activated by fructose 1,6-bisphosphate (FBP). The other intermediates of sugar metabolism or their structural analogues did not influence the activity. FBP decreased the apparent Km for PEP but did not affect that for another substrate, bicarbonate, or the apparent maximum velocity for PEP. The dissociation constants for FBP from enzyme-FBP and enzyme-PEP-FBP complex were 63 and 32 μm, respectively, being almost equivalent to those for acetyl-CoA. Synergistic activation by FBP and acetyl-CoA was not observed with the B. flavum enzyme, unlike the Escherichia coli enzyme. FBP, like acetyl-CoA, was kinetically competitive with aspartate. With respect to another feedback inhibitor, 2-oxoglutarate, acetyl-CoA was non-competitive, whereas FBP was of mixed-type, i.e., FBP but not acetyl-CoA prevented 2-oxoglutarate from binding to the enzyme to a certain extent. Homotropic cooperativity was observed only with FBP but not with acetyl-CoA in the absence of inhibitors. Cooperativities of FBP and acetyl-CoA were increased by aspartate but not by 2-oxoglutarate. In the aspartate-overproducing mutant enzyme, the Michaelis constant for PEP was decreased, whereas the inhibitor constant for aspartate with or without simultaneous addition of 2-oxoglutarate and the activator constants for FBP and acetyl-CoA were increased. The decreased Michaelis constant for PEP was comparable to the apparent Km of the wild-type enzyme for PEP in the presence of the saturated concentration of FBP, and would result in a further decrease in the affinity of the mutant enzyme for aspartate.     

The beta-glucosidase in the gut contents of the snail Achatina achatina.

1. The enzyme beta-glucosidase (beta-D-glucoside glucohydrolase, EC 3.2.1.21) from the gut contents of active Achatina achatina exists in two molecular forms, beta-glucosidase C (mol.wt. about 82000) and D (mol.wt. about 41000). 2. Only the lower-molecular-weight species was found in the gut contents of aestivating snails or in extracts from their digestive glands and washed gut walls. 3. On re-activation of some aestivating snails, betion of ATP and Mg2+ to the isolated gut contents or to extracts from washed gut walls led to the formation of higher-molecular-weight forms of the enzyme, beta-glucosidase A (mol.wt. about 329000) and beta-glucosidase B (mol.wt. about 165000). 5. All these forms of the enzyme have similar pH optimum (pH 5.0-5.6). 6. The Michaelis constants (Km) and heat stability of the enzyme increased with increasing molecular complexity.     

Pyruvate kinase in mussel foot (Mytilus edulis L.). Purification and general properties

The specific activity of pyruvate kinase in mussel foot is markedly higher than that from mantle and digestive gland. The foot enzyme shows maximum pH activity in the range between 7.0 and 7.5 and is stable (15 min, 37 degrees C) at pH values between 7.0 and 9.0. The activation energy value is 23 kJ/mol with a Q10 coefficient of 1.4. All of these experiments were carried out using partially purified extracts with (NH4)2SO4 treatment (30-60%) and posterior dialysis with EDTA 1.2 mM. No isoenzymatic forms could be detected using the column chromatography techniques with Sephadex G-150, DEAE Sephadex A-50 and polyacrylamide gel electrophoresis.     

Protein phosphorylation patterns during aestivation in the land snailOtala lactea

Protein phosphorylation patterns were investigated in whole tissues and subcellular fractions of active and aestivatingOtala lactea (Müller) (Pulmonata, Helicidae). Measurement of overall protein phosphorylation showed that incorporation of³²P increased until the second day after injection and remained constant for the remaining 4 days of the time course. Comparison of tissues from aestivating and active snails on day 3 showed a decreased protein phosphorylation in aestivating snails (44% of active). No differences in total and protein-associated radioactivity for foot, mantle or haemolymph were observed. Subcellular fractionation of the hepatopancreas localized the changes to plasma membrane, microsomal, and cytosolic fractions: values for aestivating animals were reduced to 71, 37 and 58% of the corresponding active values. Separation of the individual subcellular fractions on isoelectric focusing columns revealed differences in the phosphate incorporation patterns. Plasma membrane from aestivating animal hepatopancreas had a lower overall level of incorporation and fewer radioactive peaks in the pH 7–10 region than did the plasma membrane fraction from active animals. SDS-PAGE analysis of plasma membrane fractions from active and aestivating snails showed a relative decrease in phosphorylation between 60–80 kDa and 30–40 kDa. IEF analysis of cytosolic proteins from aestivating snail hepatopancreas also showed peaks of radioactivity that were apparently shifted by 0.3 pH units toward higher pI values. Increased phosphate incorporation was observed at a peak that corresponded to the pI value for pyruvate kinase in aestivating snails but definite assignment of peaks was not possible. SDS-PAGE analysis of cytosolic proteins showed an aestivation-related decrease in relative protein phosphorylation between 30–35 kDa and 40–45 kDa. A relative increase in phosphorylation during aestivation was observed for proteins between 16–22 kDa. Overall, the data indicate that snails dramatically alter their protein phosphorylation pattern in hepatopancreas during aestivation. (Mol Cell Biochem143: 7–13, 1995)Abbreviations CY cytosol - dpm radioactive disintegrations per minute - IEF isoelectrofocusing - GP glycogen phosphorylase - MC microsomes - MT mitochondria - PAGE polyacrylamide gel electrophoresis - PKF phosphofructokinase - PK pyruvate kinase - PM plasma membrane - SDS sodium dodecyl sulphate     

THE INFLUENCE OF DIETARY CALCIUM ON THE TISSUE DISTRIBUTION OF Cu, Zn, Mg & P AND HISTOLOGICAL CHANGES IN THE DIGESTIVE GLAND CELLS OF THE SNAIL ACHATINA FULICABOWDICHM

Dietary calcium had a varying effect on the concentration ofother metals located in the tissues and excreted in the faeces.Faecal phosphate, copper and zinc concentrations decreased withincreased dietary calcium but showed a peak of excretion 10–12weeks after the beginning of the experiment, while the totalamounts of the studied elements lost in the faeces increased.Phosphate values in the digestive gland of snails on calcium-supplementeddiets were lower than metal values found in control snails.Although the digestive gland magnesium concentrations were alwayslower and copper levels higher than the snails on the omnivorousdiet, the trend was for a decrease in tissue magnesium and copperwith increased calcium in the diet. In foot tissue, the trendwas towards a decrease in Mg with decreased dietary calcium.The zinc concentration in the digestive gland and foot of snailson the omnivorous diet was not different from the zinc levelsin snails on the three highest calcium-supplemented diets. Itis suggested that high levels of dietary calcium might act asan environmental stressor characterised by changes in the morphologyand histo-chemistry of the digestive tubules. (Received 14 August 1991; accepted 10 October 1991)     

Schistosoma mansoni: Lysozyme activity in Biomphalaria glabrata during infection with two strains

Levels of lysozyme activity were determined in the hemolymph, digestive gland, and headfoot extracts of M-line stock of snails, Biomphalaria glabrata, during infection with the PR-1 and Lc-1 strains of the trematode, Schistosoma mansoni. At 3 hr postexposure there was a 10-fold increase in the levels of enzyme activity in the hemolymph of snails infected with the Lc-1 strain to which the snail is resistant. This increase was considerably higher when compared to the threefold increase in the PR-1-infected snails. The infection also induced a gradual depletion of lysozyme activity in the headfoot muscles of the two groups of infected snails. There were no changes in the levels of enzyme activity in the digestive gland extracts of the control and the two groups of infected snails. Similar changes in the levels of enzyme activity in the hemolymph and headfoot extracts of infected snails suggest a nonspecific response to a parasite infection and do not indicate that lysozyme is primarily responsible for the destruction of schistosome parasite in a resistant snail host.     

Impact of larval trematode infection on the nitrogen excretion and ornithine-urea cycle enzymes of the pulmonate snail host,Lymnaea luteola

The freshwater gastropod Lymnaea luteola infected with xiphidiocercariae of Prosthogonimus sp. showed striking changes in nitrogen excretion. Infected snails excreted significantly less total Kjeldahl nitrogen into the amibient medium. A significant drop in urea nitrogen alone accounted for this drop in total nitrogen excreted, as there was no change in ammonia excretion. While no significant change was seen in the activity of ornithine carbamyltransferase and arginosuccinate lyase in infected snails, arginase activity invariably dropped. The present study thus has revealed that it is not the urea production that occurs in the digestive gland that is affected upon infection, but it is arginolysis that occurs in other tissues, like foot and mantle, that is curtailed.     

The digestive gland of the Southern Dumpling Squid (Euprymna tasmanica): structure and function

The cephalopod digestive gland plays an important role in the efficient assimilation of nutrients and therefore the fast growth of the animal. The histological and enzymatic structure of Euprymna tasmanica was studied and used in this experiment to determine the dynamics of the gland in response to feeding. The major roles of the digestive gland were secretion of digestive enzymes in spherical inclusions (boules) and excretion of metabolic wastes in brown body vacuoles. High levels of trypsin, chymotrypsin and α-amylase, low levels of α-glucosidase and negligible carboxypeptidase activity were produced by the gland. There was no evidence of secretion of digestive enzymes in other organs of the digestive tract. Within 60 min of a feeding event, the gland produced increasing numbers of boules to replace those lost from the stomach during the feeding event. Initially, small boules were seen in the digestive cells, they increased in size until they are released into the lumen of the gland where they are transported to the stomach. There was no evidence of an increase in activity of digestive enzymes following a feeding event, despite structural changes in the gland. However, there was large variation among individuals in the level of digestive enzyme activity. A negative correlation between boule and brown body vacuole density suggested that the large variation in enzyme activity may be due to the digestive gland alternating between enzyme production and excretion.     

Physiology and lipid metabolism of Littorina saxatilis infected with trematodes

Physiological and biochemical alterations in Littorina saxatilis infected with larval trematodes were investigated and compared with the metabolism of non-parasitized snails. Oxygen consumption rates of infected snails differed from those of non-infected controls in medium sized individuals (30 to 130 mg) but not in very large infected individuals (> 200 mg). Small snails (0.5 to 8.5 mg) were seldom infected by parasites, and this size-class consisted only of non-infected specimens. The specific oxygen consumption rate of infected snails was not dependent on their mass and remained constant over the size ranges investigated. Alterations in the snail metabolism appeared to be connected to injuries to digestive gland tissues caused by the parasites. The glycogen concentration and fatty acids of neutral lipids and phospholipids in the digestive gland were determined. Infected snails differed from uninfected snails in the complete absence of glycogen in digestive gland and had proportionally higher quantities of eicosenoic (20:1) acid in the total phospholipids. It remains unclear whether infection by trematodes activates enzymes in the snail's digestive gland to synthesize eicosenoic (20:1) acid, or whether the sporocysts themselves possess these enzymes. The role of phospholipid fatty acids in the regulation and maintenance of the parasite's metabolism is briefly considered. Biochemical alterations observed in the fatty acid composition may have an adaptive significance, by helping to stabilize the host-parasite system.     

Lysine 213 and histidine 233 participate in Mn(II) binding and catalysis in Saccharomyces cerevisiae phosphoenolpyruvate carboxykinase

Saccharomyces cerevisiae phosphoenolpyruvate (PEP) carboxykinase catalyses the reversible metal-dependent formation of oxaloacetate and ATP from PEP, ADP, and CO2 and plays a key role in gluconeogenesis. This enzyme also has oxaloacetate decarboxylase and pyruvate kinase-like activities. Mutations of PEP carboxykinase have been constructed where the residues Lys213 and His233, two residues of the putative Mn2+ binding site of the enzyme, were altered. Replacement of these residues by Arg and by Gln, respectively, generated enzymes with 1.9 and 2.8 kcal/mol lower Mn2+ binding affinity. Lower PEP binding affinity was inferred for the mutated enzymes from the protection effect of PEP against urea denaturation. Kinetic studies of the altered enzymes show at least a 5000-fold reduction in V(max) for the primary reaction relative to that for the wild-type enzyme. V(max) values for the oxaloacetate decarboxylase and pyruvate kinase-like activities of PEP carboxykinase were affected to a much lesser extent in the mutated enzymes. The mutated enzymes show a decreased steady-state affinity for Mn2+ and PEP. The results are consistent with Lys213 and His233 being at the Mn2+ binding site of S. cerevisiae PEP carboxykinase and the Mn2+ affecting the PEP interaction. The different effects of mutations in V(max) for the main reaction and the secondary activities suggest different rate-limiting steps for these reactions.     

Spatial and energy compromise between host and parasite: the Biomphalaria glabrata-Schistosoma mansoni system.

The development of a sporocyst infrapopulation of Schistosoma mansoni within the Biomphalaria glabrata snail is, from a spatial point of view, detrimental to the host's digestive-genital gland complex growth. For mono- and plurimiracidial infections, the digestive gland volumes are, respectively 51 and 24% of those of control snails. Identical reduction of the infected genital gland volume (43% of controls) occurs in both cases. After the prepatent period, the ratio of parasite/digestive gland volumes (P/PDG) remains fairly constant at around 0.60 independent of the miracidial dose infection, indicative of a balanced host-parasite development which is discussed in relation to the spatial and energy constraints of this system.     

Energy loss in an aestivating population of the tropical snail pila globosa

The dried peripheral area of pond Idumban (62 ha) increased from 3.2 ha in January to 3 1.9 ha in April. Pila globosa, which were abundant in the littoral area, did not commence aestivation during this period, perhaps due to low temperature and/or high dissolved oxygen content. The number of aestivating snails averaged 0.5/m² in May, 1973 (3.6% of the total population) and it increased to 1.1/M² in September (26.2%). Biomass of the snail increased from 3.5 to 19.9 g dry weight (including shell)/M². Number of aestivating snails increased from 0.4/m² (5.2% of the total population) in May 1974 to 0.8/m² (11.1%) in July and the biomass from 4.1 g/m² to 10.7 g/m². Availability of dried area for aestivation increased from 5.3 to 23.7 ha in 1973 and from 13.5 to 30.2 ha in 1974.Monthly observations made on the marked snails forced to aestivate at 7.5, 15.0, 22.5 and 30.0 cm depth in the pond during May, revealed that temperature above 35°C and moisture below 5% were critical. Mortality and weight loss decreased in the snails forced to aestivate at increasing depth. Random observations indicated that 83% of the aestivating snails buried themselves at 15 cm depth in the pond. On the whole, 98,480 snails (592 Kg) and 115,270 (758 Kg) died during aestivation in 1973 and 1974 respectively. Of the total weight loss, the energy lost via metabolism contributed only a small fraction of 2.2% (12 Kg) and 2.1% (15 Kg) during these years. Considering the total aestivation area, the snails which succumbed averaged only 0.4/m²/year (2.5 g/m²/year). On an average, dry substance equivalent to about 2.6 mg dry weight/ g dry weight of snail/ day (3.7 gcal/ g live snail/ day) was lost on metabolism by the aestivating snails, i.e. the metabolic level of the aestivating snail was about 1 / 18th of that of the actively feeding snail.     

Structure and function of mitochondria in hepatopancreas cells from metabolically depressed snails

Mitochondria in cells isolated from the hepatopancreas of aestivating land snails (Helix aspersa) consume oxygen at 30% of the active control rate. The aim of this study was to investigate whether the lower respiration rate is caused by a decrease in the density of mitochondria or by intrinsic changes in the mitochondria. Mitochondria occupied 2% of cellular volume, and the mitochondrial inner membrane surface density was 17 microm(-1), in cells from active snails. These values were not different in cells from aestivating snails. The mitochondrial protein and mitochondrial phospholipid contents of cells were also similar. There was little difference in the phospholipid fatty acyl composition of mitochondria isolated from metabolically depressed or active snails, except for arachidonic acid, which was 18% higher in mitochondria from aestivating snails. However, the activities of citrate synthase and cytochrome c oxidase in mitochondria isolated from aestivating snails were 68% and 63% of control, respectively. Thus the lower mitochondrial respiration rate in hepatopancreas cells from aestivating snails was not caused by differences in mitochondrial volume or surface density but was associated with intrinsic changes in the mitochondria.     

Characterization of chimeric ADPglucose pyrophosphorylases of Escherichia coli and Agrobacterium tumefaciens. Importance of the C-terminus on the selectivity for allosteric regulators

ADPglucose pyrophosphorylase catalyzes the regulatory step in the pathway for bacterial glycogen synthesis. The enzymes from different organisms exhibit distinctive regulatory properties related to the main carbon metabolic pathway. Escherichia coli ADPglucose pyrophosphorylase is mainly activated by fructose 1,6-bisphosphate (FBP), whereas the Agrobacterium tumefaciens enzyme is activated by fructose 6-phosphate (F6P) and pyruvate. Little is known about the regions determining the specificity for the allosteric regulator. To study the function of different domains, two chimeric enzymes were constructed. "AE" contains the N-terminus (271 amino acids) of the A. tumefaciens ADPglucose pyrophosphorylase and the C-terminus (153 residues) of the E. coli enzyme, and "EA", the inverse construction. Expression of the recombinant wild-type and chimeric enzymes was performed using derivatives of the pET24a plasmid. Characterization of the purified chimeric enzymes showed that the C-terminus of the E. coli enzyme is relevant for the selectivity by FBP. However, this region seems to be less important for the specificity by F6P in the A. tumefaciens enzyme. The chimeric enzyme AE is activated by both FBP and F6P, neither of which affect EA. Pyruvate activates EA with higher apparent affinity than AE, suggesting that the C-terminus of the A. tumefaciens enzyme plays a role in the binding of this effector. The allosteric inhibitor site is apparently disrupted, as a marked desensitization toward AMP was observed in the chimeric enzymes.