Effect of gamma irradiation on the hemocyte-mediated immune response of Aedes aegypti against microfilariae

The effect of gamma irradiation on the melanotic encapsulation response of Aedes aegypti black eye Liverpool strain against inoculated Dirofilaria immitis microfilariae (mff) was assessed at 1, 2, 3, and 6 days postinoculation (PI). Mosquitoes received 6000 rad from a 137Cs source (Shepard Mark I irradiator) at 3 days postemergence and were inoculated with 15-20 mff 24 hr later. These mosquitoes were compared to nonirradiated controls that also were inoculated with 15-20 mff at 3 days postemergence. The immune response was significantly reduced in irradiated mosquitoes as compared with controls at all days PI. Although the response was significantly inhibited compared with controls, irradiated mosquitoes were still capable of eliciting a response against 69% of recovered mff at 6 days PI. External gamma irradiation did not significantly affect the proliferation of hemocytes associated with the melanotic encapsulation response of A. aegypti. The number of circulating hemocytes increased in irradiated mosquitoes in response to inoculated mff in a manner similar to nonirradiated, inoculated controls. Hemocyte monophenol oxidase activity, however, was significantly reduced in gamma-irradiated mosquitoes at 12 hr PI as compared with controls. The reduced immunological capacity of irradiated mosquitoes might be related to an interference with gene activity required for the synthesis or activation of enzymes that are directly or indirectly involved in the biochemical processes associated with the production of melanotic substances that sequester mff.     

Aedes aegypti: characterization of hemocyte polypeptide synthesis during wound healing and immune response to inoculated microfilariae

Hemocytes from adult, female Aedes aegypti, intrathoracically inoculated with microfilariae (mf) of the nematode Dirofilaria immitis, were compared to saline-inoculated and uninoculated controls using sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), 125I-labeling, and wheat germ agglutinin (WGA) binding techniques. Activation of wound healing and/or melanotic encapsulation responses by the inoculation of saline or mf into the host hemocoel induced alterations in the hemocyte activity of these mosquitoes. Protein assays of whole hemocyte lysates revealed that hemocytes from saline- and mf-inoculated mosquitoes had higher protein concentrations than uninoculated controls. Many polypeptides were seen within all three hemocytes preparations when stained with silver nitrate, but there was an overall increase in protein synthesis in hemocytes from inoculated mosquitoes. In addition, a 200-kDa polypeptide was uniquely expressed in hemocytes from inoculated mosquitoes. There were several prominent surface proteins labeled with 125I, and several of these increased dramatically in intensity during wound healing and/or a melanotic encapsulation response. Similar results were seen in two-dimensional separations. A set of basic polypeptides comigrated with an acidic polypeptide resulting in a surface protein of approximately 80-90 kDa that increased in inoculated mosquitoes. Hemocytes from inoculated mosquitoes exhibited a group of three acidic polypeptides, whereas hemocytes from uninoculated mosquitoes exhibited only one of these protein fragments. Three surface polypeptides bound 125I-labeled WGA, and binding of WGA to hemocyte surface polypeptides was successfully inhibited by the incubation of cells with the lectin and its competing sugar.     

Dirofilaria immitis: effect on hemolymph polypeptide synthesis in Aedes aegypti during melanotic encapsulation reactions against microfilariae

[35S]Methionine-labeled hemolymph polypeptides from adult, female Aedes aegypti Liverpool strain mosquitoes inoculated with the microfilariae of the filarial nematode Dirofilaria immitis were compared with those from saline-inoculated and uninoculated controls by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) followed by fluorography. SDS-PAGE analysis of cell-free hemolymph collected via perfusion at 6, 12, 24, 48, 72, and 96 hr postinoculation (PI) detected the enhanced expression of an 84-kDa polypeptide. This polypeptide, expressed constitutively in the hemolymph of all three groups of mosquitoes, increased considerably in inoculated mosquitoes as time progressed as compared with uninoculated controls. Moreover, the 84-kDa polypeptide was expressed at higher levels in D. immitis-inoculated mosquitoes than in saline-inoculated controls. This stimulation of de novo biosynthesis of the 84-kDa polypeptide in inoculated mosquitoes may play a role in the immune response of mosquitoes. Since it is likely that the wound healing response in insects involves many of the same chemical processes as occur in melanotic encapsulation reactions of mosquitoes against filarial worms, the preferential expression of the 84-kDa polypeptide in saline-inoculated mosquitoes seen in this study may reflect a wound healing response. The greater increase in synthesis of this protein in D. immitis-inoculated mosquitoes may reflect production of melanotic material required for parasite destruction as well as for wound healing.     

PHENOL OXIDASE ACTIVITY IN ANOPHELES SINENSIS AND AEDES ALBOPZCTUS EXPOSED TO MICROFILARIAE OF BRUGIA MALAYI

Abstract Phenol oxidase (PO activity was investigated in cell-free hemolymph collected from Anopheles sinensis and Aedes albopictlcs female adults intrathoracically inoculated with Brugia dayi microfilariae (mff), inoculated with saline alone, or from uninoculated mosquitoes. The activity of PO from uninoculated 1-day-old mosquitoes was significantly greater than those of mosquitoes on 3, 12 and 16 day. PO activity in mff-inoculated A. sinensis at 24 h postinoculation (PI) was 2–3 times higher as compared with uninoculated or saline-inoculated mosquitoes. Inoculation of B. malayi mff into A. albopictus elicited ?-fold increase in PO activity at 24 h PI as compared with uninoculated mosquitoes. Immune-activated levels of PO activity in A. alboplctus was significantly higher as compared with those seen in A. sinensis. The relationship of observed differences in PO activity to differences in immunological capability between A. sinensis and A. albopictus is discussed.     

High-performance liquid chromatographic assays for protoporphyrinogen oxidase and ferrochelatase in human leucocytes

Rapid, sensitive and specific high-performance liquid chromatographic assays are described for protoporphyrinogen oxidase and ferrochelatase in human leucocytes. The enzyme reaction products were separated and quantitated by reversed-phase high-performance liquid chromatography with fluorescence detection. The optimal pH for the protoporphyrinogen oxidase assay was 8.6 and the Michaelis constant for protoporphyrinogen IX was 9.78 ± 0.96 μM (mean ± S.D.). The mean (± S.D.) activity of protoporphyrinogen oxidase in fourteen apparently healthy subjects was 0.146 ± 0.023 nmol protoporphyrin IX per min per mg protein. In one patient with variegate porphyria, the activity was 0.028 nmol protoporphyrin IX per min per mg protein. The optimal pH for ferrochelatase was 7.4 and with protoporphyrin and Zn²⁺ as substrates, the Michaelis constants were 1.49 and 8.33 μM, respectively. The mean activity of ferrochelatase in ten control subjects was 0.24 nM Zn—protoporphyrin or 2.05 nM Zn—mesoporphyrin formed per h per mg protein.     

Hemocyte monophenol oxidase activity in mosquitoes exposed to microfilariae of Dirofilaria immitis

Monophenol oxidase (MPO) activity in hemocytes collected from Aedes aegypti Liverpool strain and Aedes trivittatus intrathoracically inoculated with saline alone, inoculated with Dirofilaria immitis microfilariae (mff), or from uninoculated mosquitoes was compared using a radiometric tyrosine hydroxylation assay. Hemocyte MPO activity in mff-inoculated (= immune-activated) mosquitoes was significantly increased at 24 hr postinoculation (PI) in A. aegypti and at 6, 12, and 24 hr PI in A. trivittatus as compared with saline-inoculated controls. Baseline and immune-activated levels of hemocyte MPO activity in A. trivittatus were significantly higher compared with those seen in A. aegypti. Baseline hemocyte population levels were similar in both species, but immune activation did not elicit increases in total hemocyte populations in A. trivittatus as has been demonstrated for A. aegypti. Likewise, immune activation by the inoculation of mff did not significantly alter plasma MPO activity in A. trivittatus as compared with uninoculated or saline-inoculated mosquitoes. Plasma MPO activity in A. aegypti, however, appears to constitute a major component of the immune response. The importance of phenol oxidase(s) in the immune response of mosquitoes against mff and the relationship of observed differences in MPO activity to differences in immunological capability between A. aegypti and A. trivittatus are assessed.     

Characterization of the cyclic 3′,5′-nucleotide phosphodiesterase activity associated with synaptosomal plasma membranes and synaptic junctions

Some characteristics of the cyclic 3′,5′-nucleotide phosphodiesterase (phosphodiesterase) activity associated with the synaptosomal plasma membrane (synaptic membrane) and the synaptic junction fractions of rat brain are reported. Kinetic analysis revealed that only one type of phosphodiesterase activity, with a K_m of 2 · 10^?4 M for cyclic AMP, is associated with both fractions. The specific activities of the phosphodiesterase in synaptic membranes and synaptic junctions have been estimated at 23.4 nmol/min per mg protein and 22.5 nmol/min per mg protein, respectively. The synaptic junction-associated activity undergoes a 30% stimulation by Ca²⁺ while no Ca²⁺ sensitivity of the synaptic membrane-associated activity could be detected. Cytochemical studies performed on the synaptic membrane fraction demonstrated a predominant localization of phosphodiesterase activity over postsynaptic densities, while dense deposits were sometimes observed over the synaptic cleft region.     

Serotonin and β-phenylethylamine deamination by semicarbazide-sensitive amine oxidase from Callista chione hepatopancreas

Amine oxidase activity against 5-HT and PEA has been studied in hepatopancreas homogenates of Callista chione (Mollusca, Bivalvia). Specific activity values were 3 pmoles/mg protein/min and 0.05 nmoles/mg protein/min with 5-HT and PEA, respectively. Values of activities measured with the two substrates were differently affected by variations of pH (6.5–8) and temperature (17°C–67°C). Monoamine osidase inhibitors such as clorgyline and deprenyl used at a concentration of 10¹⁴ M did not significantly affect 5-HT and PEA deamination. Semicarbazide 10⁴ M completely inhibited deamination of both substrates indicating that, at least under the experimental conditions adopted, 5-HT and PEA were deaminated by a semicarbazide-sensitive amine oxidase.     

Mechanisms of H2O2 formation by leukocytes. Properties of the NAD(P)H oxidase activity of intact leukocytes.

It is postulated that the burst of oxygen consumption and H₂O₂ formation following phagocytosis by polymorphonuclear leukocytes is due to the action of an oxidase located in the plasma membrane. The cyanide-resistant oxygen consumption of resting polymorphonuclear leukocytes was also found to be stimulated by 2,4-dichlorophenol with H₂O₂ being the sole product formed. NADH and NADPH added to the leukocytes greatly enhanced the oxygen consumption and were oxidized in the process without penetrating the leukocytes. Mn²⁺ stimulated this oxidase activity. The apparent K_m values for added NADH and NADPH were 50 and 40 μm, respectively, with a V of 300 nmol/mg protein/min. A stoichiometry of 1 mol H₂O₂ formed per mol of NAD(P)H was found. Whilst the oxidase is similar to the oxidase properties of a peroxidase, myeloperoxidase is not responsible for the activity.     

ATP-dependent calcium transport and its correlation with Ca2+-ATPase activity in basolateral plasma membranes of rat duodenum

Isolated basolateral plasmamembrane vesicles from rat duodenum epithelial cells exhibit ATP-dependent calcium-accumulation and Ca²⁺-dependent ATPase activity. Calcium accumulation stimulated by ATP is prevented by the calcium ionophore A23187, inhibited 80% by 0.1 mM orthovanadate but is not effected by oligomycin. Calcium accumulation is not observed with the substrate β-γ-(CH₂)-ATP, ADP and p-nitrophenyl phosphate. Kinetic studies reveal an apparent K_m of 0.2 μM Ca²⁺ and a V_max of 5.3 nmol Ca²⁺/min per mg protein for the ATP-dependent calcium-uptake system. Calmodulin and phenothiazines have no effect on calcium accumulation in freshly prepared membranes, but small effects are inducable after a wash with a 5 mM EGTA. The kinetic parameters of Ca²⁺-ATPase are: K_m = 0.25 μM Ca²⁺ and V_max = 19.2 nmol P_i/min per mg protein. Three techniques, osmotic shock, treatment with Triton X-100 or the channel-forming peptide alamethacin, reveal that about 40% of the vesicles are resealed. Assuming that half of the resealed vesicles have an inside-out orientation, the V_max of ATP-dependent calcium uptake amounts to 25 nmol Ca²⁺/min per mg protein and of the Ca²⁺-ATPase to 23 nmol P_i/min per mg protein. The close correlation between kinetic parameters of Ca²⁺-ATPase and ATP-dependent calcium-transport strongly suggests that both systems are expressions of a Ca²⁺-pump located in duodenal basolateral plasma membranes.     

Oxaloacetate translocator in plant mitochondria

(1) Mitochondria were prepared from leaves of spinach, green and etiolated seedlings and roots of pea, potato tuber and rat liver and heart. In the case of leaf mitochondria, an improved isolation procedure resulted in high respiratory rates (460–510 nmol/mg protein per min) and good respiratory control ratio (6.8–9.8) with glycine as substrate. (2) In these mitochondria oxaloacetate transport was studied either by following the inhibitory effect of oxaloacetate on the respiration of NADH-linked substrates or by determining the consumption of [4-¹⁴C]oxaloacetate. (3) Studies of the competition by other carboxylates and effect of inhibitors on the oxaloacetate transport demonstrate that mitochondria from spinach leaves, green pea seedlings, etiolated pea seedlings and pea roots contain a specific translocator for oxaloacetate with a very high affinity to its substrate (K_m = 3–7 μM) and an even higher sensitivity to its competitive inhibitor phthalonate (K_i = 3–5 μM). The V_max values ranged from 150 to 180 nmol/mg protein per min for mitochondria from etiolated pea seedlings and pea roots and from 550 to 570 nmol/mg protein per min for mitochondria from spinach leaves and green pea seedlings. In mitochondria from potato tuber, the K_m was about one order of magnitude higher (V_max = 450 nmol/mg protein per min). In mitochondria from rat liver and rat heart, a specific translocator for oxaloacetate was not found. (4) The oxaloacetate translocator enables the functioning of a malate-oxaloacetate shuttle for the transfer of reducing equivalents across the inner mitochondrial membrane. (5) This malate-oxaloacetate shuttle appears to play a role in the photorespiratory cycle in catalyzing the transfer of reducing equivalents generated in the mitochondria during glycine oxydation to the peroxysomal compartment for the reduction of β-hydroxypyruvate. (6) Interaction between the mitochondrial and the chloroplastic malate oxaloacetate shuttles would make it possible for surplus-reducing equivalents, generated by photosynthetic electron transport, to be oxidized by mitochondrial electron transport.     

Survey of pyruvate,phosphate dikinase activity of plants in relation to the C3, C4 and CAM mechanisms of CO2 assimilation

The pyruvate, phosphate dikinase activity (PPD, EC 2.7.9.1) associated with crude extracts of leaf tissue of some C₃ and C₄ plants was determined by phosphoenolpyruvate plus PPi-dependent phosphorylation of AMP. The PPD activity of all C₄ plants examined was > 15 nmol/mg protein/min. Several factors contributed to the underestimation of PPD activity in crude extracts of at least some species. Significant PPD activity (> 0.15 nmol/mg protein/min) was not detected in the majority of C₃ species but several C₃ species and the two CAM species studied exhibited activity in the range 0.4–4 nmol/mg protein/min while the C₃ species Avena sativa showed activity up to 8 nmol/mg protein/min. The oat leaf enzyme was partially purified; it exhibited properties similar to those of partially purified PPD from maize. Leaf extracts of the orchids Cymbidium canaliculatum and C. madidum contained high levels of PPD activity similar to the majority of C₄ plants. PPD activity has also been shown in other previously unstudied species.     

Defective calcium pump in the sarcoplasmic reticulum of the hypertrophied rabbit heart.

To evaluate Ca²⁺-uptake in sarcoplasmic reticulum in the hypertrophied rabbit heart, microsomes were prepared from myocardium of rabbits with experimentally induced aortic stenosis. A significant reduction of microsomal Ca²⁺-uptake was observed in hypertrophied left ventricle, 195±10 compared to 280±18 nmol/mg found in control animals. A similar pattern was observed for the Ca²⁺-stimulated ATPase (30±9 and 59±10 nmol/min/mg resp.). A minimal activity difference of the microsomal marker enzyme rotenone-insensitive NADPH cyt. $\text{c}$ reductase was found (7.77±0.05 and 8.17±0.11 nmol/min/mg resp.). The specific activity of the latter enzyme was 5–6 fold increased in microsomes compared to homogenates in both animal groups, which excludes the possibility of increased amounts of contaminant or nonfunctional protein in sarcoplasmic reticulum prepared from hypertrophied myocardium. In addition the yield of microsomal protein did not differ significantly. Maximal phosphorylation by exogenous cyclic AMP and protein kinase increased Ca²⁺-uptake in both microsomal preparations (to 287±27 and 375±26 nmol/mg resp. for hypertrophied and control hearts), but Ca²⁺-transport rate found in pathological hearts remained lower than in controls. These findings indicate that impairment of Ca²⁺-metabolism in the hypertrophied heart is based on a defective Ca²⁺-pump.     

Haemolymph monophenol oxidase activity in Armigeres subalbatus infected with Brugia pahangi.

The activity of monophenol oxidase can be elicited in the haemolymph of Armigeres subalbatus by both blood and filaria-infected blood feeding. Haemolymph collected from both blood-fed and filaria-infected mosquitoes was investigated using a quantitative radiometric assay that measured the amount of tritiated water formed during the hydroxylation of L-[3,5-3H]tyrosine to dopa. Enzyme activity in filaria-infected mosquitoes was found to be significantly lower than that found in the blood-fed mosquitoes within 3 days post-ingestion, but still remained measurable 72 h post-ingestion. The decreased enzyme activity coincided in time with the development of capsules around the microfilariae. The consumption of monophenol oxidase by the melanization of migrating microfilariae in the haemocoel of filaria-infected mosquitoes and the effects of excretory and secretory products of developing larvae on monophenol oxidase activity are suggested.     

Angiotensin II Stimulates Thick Ascending Limb Superoxide Production via Protein Kinase Cα-dependent NADPH Oxidase Activation

Angiotensin II (Ang II) stimulates thick ascending limb (TAL) O production, but the receptor(s) and signaling mechanism(s) involved are unknown. The effect of Ang II on O is generally attributed to the AT₁ receptor. In some cells, Ang II stimulates protein kinase C (PKC), whose α isoform (PKCα) can activate NADPH oxidase. We hypothesized that in TALs, Ang II stimulates O via AT₁ and PKCα-dependent NADPH oxidase activation. In rat TALs, 1 nm Ang II stimulated O from 0.76 ± 0.17 to 1.97 ± 0.21 nmol/min/mg (p < 0.001). An AT₁ antagonist blocked the stimulatory effect of Ang II on O (0.87 ± 0.25 nmol/min/mg; p < 0.006), whereas an AT₂ antagonist had no effect (2.16 ± 0.133 nmol/min/mg; p < 0.05 versus vehicle). Apocynin, an NADPH oxidase inhibitor, blocked Ang II-stimulated O by 90% (p < 0.01). Ang II failed to stimulate O in TALs from p47^phox−/− mice (p < 0.02). Monitored by fluorescence resonance energy transfer, Ang II increased PKC activity from 0.02 ± 0.03 to 0.13 ± 0.02 arbitrary units (p < 0.03). A general PKC inhibitor, GF109203X, blocked the effect of Ang II on O (1.47 ± 0.21 versus 2.72 ± 0.47 nmol/min/mg with Ang II alone; p < 0.03). A PKCα- and β-selective inhibitor, Gö6976, also blocked the stimulatory effect of Ang II on O (0.59 ± 0.15 versus 2.05 ± 0.28 nmol/min/mg with Ang II alone; p < 0.001). To distinguish between PKCα and PKCβ, we used tubules expressing dominant-negative PKCα or -β. In control TALs, Ang II stimulated O by 2.17 ± 0.44 nmol/min/mg (p < 0.011). In tubules expressing dominant-negative PKCα, Ang II failed to stimulate O (change: −0.30 ± 0.27 nmol/min/mg). In tubules expressing dominant-negative PKCβ1, Ang II stimulated O by 2.08 ± 0.69 nmol/min/mg (p < 0.002). We conclude that Ang II stimulates TAL O production via activation of AT₁ receptors and PKCα-dependent NADPH oxidase.     

Phenolsulphotransferase activity in the developing mosquito (Aedes togoi)

Phenolsulphotransferase (PST) activity was measured with N-acetyldopamine (NADA) and harmol as substrates in the larvae, pupae and adult mosquito (Aedes togoi). Only the newly emerged pupae showed high PST activity 1–4 hr after pupation. PST activity could also be measured in each individual pupa, with the female exhibiting significantly higher specific activity (30 ± 3.7 pmol NADA [³⁵S]sulphate/min per mg protein) than the males (13.6 ± 2.9 pmol NADA [³⁵S]sulphate/min per mg protein). The optimum pH for the PST reaction was 9.0. The K_m values for [³⁵S]PAP were 0.55 and 2.5 μM when measured with NADA and harmol as acceptors, respectively; the corresponding K_m values for these two substrates were 2.61 and 16.1 μM. Studies with 2,6-dichloro-4-nitrophenol showed a dose-dependent inhibition of PST. Sulphate conjugation of NADA from ATP and sodium [³⁵S]sulphate was also demonstrated with pupal extracts, with pH optimum between 8.6 and 9.0. The specific activity of this overall sulphate conjugation, measured in the female pupal extract was 5.08 pmol NADA [³⁵S]sulphate/min per mg protein and 1.68 pmol harmol [³⁵S]sulphate/min per mg protein. The importance and possible function of sulphate conjugation of NADA in insects is discussed.     

The formation of bacteriochlorophyll · protein complexes of the photosynthetic apparatus of Rhodopseudomonas capsulata during early stages of development

Cells of Rhodopseudomonas capsulata cultivated at an oxygen partial pressure of 400 mmHg in the dark contained 0.1 nmol or less total bacteriochlorophyll per mg membrane protein. The bacteriochlorophyll was found in the reaction center (10 pmol bacteriochlorophyll/mg membrane protein) and in the light harvesting bacteriochlorophyll I but not in the light harvesting bacteriochlorophyll II. Formation of the photosynthetic apparatus in those cells was induced by incubation at a very low oxygen tension in the dark. Reaction center bacteriochlorophyll and light harvesting bacteriochlorophyll increased three fold after 60 min of incubation at 1–2 mmHg (pO₂). Light harvesting bacteriochlorophyll II increased strongly after 60 min and became dominating after 90 min of incubation. The total bacteriochlorophyll content doubled every 30 min, but synthesis of reaction center bacteriochlorophyll proceeded at much lower rates. Consequently the size of the photosynthetic unit (total bacteriochlorophyll/reaction center bacteriochlorophyll) increased from 15 to 52 during 150 min of incubation. The proteins of the photosynthetic apparatus were synthesized concomitantly with bacteriochlorophyll.Cells which were incubated at 0.5 mmHg (pO₂) do not grow but form the photosynthetic apparatus. During the first hours of incubation light harvesting bacteriochlorophyll I and reaction center bacteriochlorophyll were the dominant bacteriochlorophyll species, but light harvesting bacteriochlorophyll II was synthesized only in small amounts. Total bacteriochlorophyll and reaction center bacteriochlorophyll increased from 30 min up until 210 min of incubation more than 10 fold. The final concentrations of total bacteriochlorophyll and reaction center bacteriochlorophyll were 8.6 nmol and 0.26 nmol per mg membrane protein, respectively. The three protein components of the reaction centers (mol. wts. 28 000, 24 000 and 21 000) and the protein of the light harvesting I complex (mol. wt. 12 000) were incorporated simultaneously. The protein of band 1 (mol. wt. 14 000) which was present in the isolated light harvesting complex II, was synthesized only in very small amounts. The proteins of bands 3 and 4 (mol. wt. 10 000 and 8000) however, which were shown to be associated with light harvesting bacteriochlorophyll II, were synthesized in noticeable amounts as was light harvesting bacteriochlorophyll II. In addition a protein with an apparent molecular weight of 45 000 showed a strong incorporation of ¹⁴C-labeled amino acids. This protein comigrates with one protein which was found to be associated with a green pigment excreted during incubation at 0.5 Torr into the medium. The in vivo-absorption maxima of this pigment complex were 660, 590, 540, 417 and 400 nm. The succinate oxidase and the NADH oxidase seemed to be incorporated into the newly formed intracytoplasmic membrane only in very small amounts. Thus, reaction center and light harvesting bacteriochlorophyll and their associated proteins were simultaneously synthesized, whereas light harvesting complex II is the variable part of the photosynthetic apparatus.     

Correlation of Biological Activity and Reactor Performance in Biofiltration of Toluene with the Fungus Paecilomyces variotii CBS115145

A biofiltration system inoculated with the mold Paecilomyces variotii CBS115145 showed a toluene elimination capacity (EC) of around 250 g/m³ of biofilter/h, which was higher than the values usually reported for bacteria. P. variotii assimilated m- and p-cresols but not the o isomer. Initial toluene hydroxylation occurred both on the methyl group and through the p-cresol pathway. These results were corroborated by detecting benzyl alcohol, benzaldehyde, and p-cresol as volatile intermediates. In liquid cultures with toluene as a substrate, the activity of toluene oxygenase (TO) was 5.6 nmol of O₂/min/mg of biomass, and that of benzyl alcohol dehydrogenase was 16.2 nmol of NADH/min/mg of protein. Toluene biodegradation determined from the TO activity in the biofilter depended on the biomass distribution and the substrate concentration. The specific enzymatic activity decreased from 6.3 to 1.9 nmol of O₂/min/mg of biomass along the reactor. Good agreement was found between the EC calculated from the TO activity and the EC measured on the biofilter. The results were confirmed by short-time biofiltration experiments. Average EC measured in different biofiltration experiments and EC calculated from the TO activity showed a linear relation, suggesting that in the biofilters, EC was limited by biological reaction. As the enzymatic activities of P. variotii were similar to those reported for bacteria, the high performance of the fungal biofilters can possibly be explained by the increased transfer of the hydrophobic compounds, including oxygen, from the gas phase to the mycelia, overcoming the transfer problems associated with the flat bacterial biofilms.     

Glutathione-prostaglandin A1 conjugate as substrate in the purification of prostaglandin 9-ketoreductase from rabbit kidney

Using GSH-PGA₁ as substrate for determination of enzyme activity a pI 4.8 form of rabbit kidney prostaglandin 9-keto-reductase has been purified 95 times to a specific activity of 1755 nmol/min per mg protein. The purification procedures involve ion-exchange chromatography, gel-filtration and affinity chromatography. The latter procedure comprises Blue Sepharose affinity chromatography, and GSH-PGA₁-Sepharose affinity chromatography.The purified enzyme preparation also showed a weak NADP⁺-dependent 15-hydroxyprostaglandin dehydrogenase activity, 20 nmol/min per mg protein with PGE₁ as substrate. K_m(PGE₁) for the dehydrogenase is 142.6 ± 45.1 μM (S.E., n=7).     

EDTA degradation by cells of Chelativorans oligotrophicus immobilized on a biofilter

A biofilter based on light expanded clay aggregate (LECA) and cells of the obligate ethylenediamine tetraacetate (EDTA) destructor Chelativorans oligotrophicus LPM-4 has been developed. The culture steadily maintained a high level of EDTA monooxygenase activity of 180–200 nmol/min/mg of protein during three months. EDTA was converted completely or by 80% at initial concentrations of 0.5–0.7 or 2.0 g/l, respectively, in a 2-dm² biofilter at a flow rate of 20 ml/h.