Reduction of tetrazolium salts by sulfate-reducing bacteria

Abstract The reduction of tetrazolium salts by the sulfate-reducing bacteria, Desulfovibrio desulfuricans and Desulfotomaculum orientis , was examined. D. desulfuricans and D. orientis reduced triphenyltetrazolium chloride (TTC) and 2-( p -iodophenyl)-3-( p -nitrophenyl)-5-phenyltetrazolium chloride (INT) forming intracellular formazan deposits. The reduction rate of INT was higher than that of TTC. INT reduction was not inhibited by the addition of sulfate or molybdate, and sulfate uptake was inhibited by the addition of both INT and molybdate. The ratio of intracellular formazan forming cells to acridine orange direct counts in both strains decreased with culture age and starvation time.     

Pigment distribution and nitrogen fixation inAnabaena azollae

Summary The symbiotic heterocystous cyanobacteriumAnabaena azollae present in the leaf cavities of the water fernAzolla spp. was studied. The cyanobacteria extracted from the leaf cavities showed differences in pigment composition in three species ofAzolla, i.e A.pinnata var.pinnata, A.caroliniana and A.filiculoides, as observed by pigment absorption and epifluorescence tests. These differences suggest that of these species the cyanobiont ofA. pinnata is the most actively nitrogenfixing form. This has been confirmed by nitrogen fixation (acetylene reduction) tests. Heterocysts of the symbiont ofA. pinnata were characterized by high chlorophylla and low phycocyanin content, a low fluorescence yield of chlorophyll in the heterocysts compared to vegetative cells and a gradient of phycocyanin concentration in the vegetative cells adjacent to heterocysts. This indicates that only photosystem I is present in the heterocyst. In the two otherAzolla species quantitative shifts in the pigment composition occurred suggesting a lower nitrogen fixation activity.In the cyanobiontAnabaena azollae the heterocyst frequency could reach a value of 44–45%. It is argued that there are two generations of heterocysts in a matureAzolla plant, which are concomitant with two peaks of nitrogen fixation activity correlated with leaf age,i.e. leaf number along the main axis of the plant. At both peaks of maximal N₂-ase activity, only 20–25% of the heterocysts present are metabolically active as demonstrated by the reduction of Neotetrazolium chloride (NTC) in the heterocysts and darkening of nuclear emulsions by silver salt reduction. Vegetative cells of the cyanobiont reduce Neotetrazolium chloride (NTC) to formazan more rapidly than has been observed in the free-living heterocystous cyanobacteriumAnabaena cylindrica tested in parallel experiments. This feature may be due to a more permeable cell wall of the vegetative cells of the cyanobiont compared to the free-living form, since the vegetative cells of the symbiont play a role in cross-feeding of the host (Azolla).Evidence is obtained that only the heterocysts of the cyanobiont ofAzolla are involved in the nitrogen fixation process as in free-living heterocystous cyanobacterium species. This situation is different from other cyanobacterial symbioses such as inGunnera, Blasia andAnthoceros, where physiological modifications are reported in the symbiosis with another photosynthetic partner such as the absence of O₂ evolution and the absence of photo-fixation of CO₂ in the cyanobionts.Pigment composition and N₂-ase activity in the symbiotic cyanobacteria of three Azolla species have indicated the superiority of theA. pinnata symbiont.A. pinnata var.pinnata is a semidomesticated form used in S.E. Asia for agricultural purposes (irrigated rice culture) to increase soil fertility.It is suggested that by selection (domestication) more efficient strains (clones) can be obtained, and further that with more advanced techniques such as gene mutation and genetic manipulation even more efficient and for agriculture more beneficial clones can be obtained.     

Reconfirmation of antimicrobial activity in the coelomic fluid of the earthwormEisenia fetida andrei by colorimetric assay

A novel tetrazolium salt, 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulphophenyl)-2H-tetrazolium (MTS) was used in the assessment of antimicrobial activity in earthworm in the presence of phenazine methosulphate (PMS) as an electron coupling reagent. This activity was purified from the coelomic fluid of the earthworm (ECF),Eisenia fetida andrei (Oligochaeta, Lumbricidae, annelids) using a series of column chromatography techniques and was tested against three Gram-negative strains ofEscherichia coli, Pseudomonas aeruginosa, Aeromonas hydrophila and three Gram-positive strains ofStaphylococcus aureus, Bacillus megaterium, Arthrobacter sp., respectively. Only the pigment-free eluate of coelomic fluid of the earthworm (ECFPE) showed activity againstB. megaterium amongst three isolated active fractions. The anion (DEAE-52) exchange effluent of the ECFPE was reported to have the strongest activity againstP. aeruginosa amongst the three active fractions. The 20% acetonitrile eluate (AE) by Sep-Pak C₁₈ cartridge was also tested and showed fair resistance againstE. coli, P. aeruginosa andArthrobacter sp., respectively.     

Colorimetric cell proliferation assay for microorganisms in microtiter plate using water-soluble tetrazolium salts

A colorimetric method to assay cell proliferation of microorganisms in 96-well microtiter plates using water-soluble tetrazolium salts and electron mediators was developed. Combinations of 6 kinds of water-soluble tetrazolium salts and 27 kinds of electron mediators that considered the metabolic efficiency of microorganisms and the influence with medium components were investigated. 2-Methyl-1,4-naphthoquinone (NQ) was reduced most effectively by various species of microorganisms, and a combination of WST-8 as a water-soluble tetrazolium salt with 2-methyl-1,4-NQ repressed the increase in background due to medium components. In the presence of 2-methyl-1,4-NQ, WST-8 was reduced by microbial cells to formazan, which exhibited maximum absorbance at 460 nm. The proposed tetrazolium method could be applied to measure proliferations of various microbial cells including 3 kinds of yeast, 9 kinds of Gram-positive bacteria, and 10 kinds of Gram-negative bacteria. Linear relationships between the absorbance and viable microbial cell density were obtained in all microorganisms, suggesting that the absorbance change reflected the microbial cell proliferation.     

Estimation of Frankia growth using Bradford protein and INT reduction activity estimations: application to inoculum standardization

Abstract The growth of Frankia spp. strain ORS 020607 in BAP medium was studied by using two methods simultaneously: determination of Bradford protein content and INT (2-( p -iodophenyl-3-( p -nitrophenyl)-5-phenyl tetrazolium chloride ) reduction activity (IRA). With the latter test, red formazan crystals formed intracellularly were extracted with methanol. Colouration intensity was estimated by absorbance spectrophotometry at 490 nm. The protein content and IRA of the culture were monitored for 96 days. IRA appeared to reflect the 'metabolically active' biomass of Frankia more accurately than the Bradford protein estimations.     

High-throughput screening of microbial adaptation to environmental stress

We developed a microwell plate, high-throughput, screening method aimed at quantitating the tolerance of a panel of Gram-positive and Gram-negative bacteria to metals (Frankia sp., Escherichia coli, Cupriavidus metallidurans, Rhizobium leguminosarum, and Streptomyces scabies). Microbial viability was quantified using MTS; a tetrazolium salt converted to a water-soluble formazan through microbial reduction. In this paper, we present the stepwise development of the method, highlighting the main elements underlying its reliability, and compare results obtained with literature. We conclude the method is well suited to efficiently screen bacteria, including those that are filamentous and slow-growing, without the need for large amounts of inoculum which may not always be available. The method allows testing of compound gradients with sufficient replicates to generate statistically robust results, and is transposable to other types of cell proliferation assays such as those for antimicrobial susceptibility, and chemoresistance.     

An improved method for screening Frankia viability in strain CcI3

An improved method for determining the viability of the nitrogen-fixing actinomycete Frankia is presented. This method uses tetrazolium red as a vital stain, which proved more effective than a previously used method of acridine orange staining.     

Trans-plasma membrane electron transport: A cellular assay for NADH- and NADPH-oxidase based on extracellular, superoxide-mediated reduction of the sulfonated tetrazolium salt WST-1

Summary Plasma membrane NADH-oxidase of mammalian cells is usually assayed biochemically in isolated plasma membranes by measuring its ability to oxidise NADH or to reduce oxygen to water. Lack of a convenient cellular assay has greatly limited the study of NADH-oxidase, the physiological significance of which remains uncertain. Recently, we demonstrated that the novel cell-impermeative sulfonated tetrazolium salt WST-1 (2-[4-iodophenyl]-3-[4-nitrophenyl]-5-[2,4-disulfophenyl]-2H-tetrazolium, monosodium salt), used in conjunction with an intermediate electron acceptor, was reduced extracellularly suggesting involvement of a component of the trans-plasma membrane electron transport system in WST-1 reduction. In this study we provide evidence that WST-1 is reduced at the external surface of the plasma membrane by an NADH-oxidase, and that reduction is primarily mediated by superoxide. Thus, WST-1 reduction was extensively inhibited by superoxide dismutase and by the potent NADH-oxidase inhibitor resiniferatoxin. Dihydrocapsaicin and capsaicin which are less potent inhibitors of NADH-oxidase also inhibited WST-1 reduction, but the impermeative SH-blocking reagentpara-chloromercuriphenylsulfonic acid and trypsin, both of which are known to inhibit NADH-ferricyanide reductase but not NADH oxidase, had little effect on WST-1 reduction. Human peripheral blood neutrophils activated by phorbol myristate acetate efficiently reduced WST-1. This reduction was inhibited by 95% by superoxide dismutase but was unaffected by resiniferatoxin indicating a distinct mechanism of reduction by neutrophil NADPH-oxidase. Metabolic inhibitors were used to investigate putative involvement of cytosolic NADH in WST-1 reduction. Mitochondrial inhibitors such as cyanide and thenoyltrifluoroacetone, and to a lesser extent azide and rotenone, stimulated WST-1 reduction by Jurkat cells whereas inhibitors of glucose uptake and glycolysis were inhibitory. These results are explained by respiratory inhibitors having a sparing effect on cytosolic NADH levels and by glycolytic inhibitors lowering NADH. We conclude that WST-1 is reduced extracellularly by plasma membrane NADH-oxidase by a mechanism involving superoxide production. WST-1 is also efficiently reduced by the plasma membrane NADPH-oxidase of activated neutrophils.Abbreviations WST-1 2-(4-iodophenyl)-3-(4-nitrophenyl)-5-(2,4-disulfophenyl)-2H-tetrazolium, monosodium salt - MTT 3-(4,5-di-methylthiazol-2-yl)-2,5-diphenyltetrazolium bromide - XTT 2,3-bis(2-methoxy-4-nitro-5-sulfophenyl)-5-carboxanilide-2H-tetrazolium, monosodium salt - MTS 3-(4,5-dimethylthiazol-2-yl)-5-(3-car-boxymemoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium, inner salt - TTFA thenoyltrifluoroacetone - pCMBS p-chloromercuriphenylsul-fonic acid - SOD Superoxide dismutase - PMOR plasma membrane - NADH oxidoreductase - PMS phenazine methosulfate - PMA phorbol myristate acetate     

Heterologous expression of human Neuromedin U receptor 1 and its subsequent solubilization and purification

Human Neuromedin U receptor 1 (hNmU-R1) is a member of G protein-coupled receptor family. For structural determination of hNmU-R1, the production of hNmU-R1 in milligram amounts is a prerequisite. Here we reported two different eukaryotic expression systems, namely, Semliki Forest virus (SFV)/BHK-21 and baculovirus/Spodoptera frugiperda (Sf9) cell systems for overproduction of this receptor. In the SFV-based expression system, hNmU-R1 was produced at a level of 5 pmol receptor/mg membrane protein and the yield could be further increased to 22 pmol receptor/mg membrane protein by supplementation with 2% dimethyl sulfoxide (DMSO). Around 8 pmol receptor/mg membrane protein could be achieved in baculovirus-infected Sf9 cells. The recombinant hNmU-R1 from SFV- and baculovirus-based systems was functional, with a K_d value of [¹²⁵I] NmU-23 (rat) similar to that from transiently transfected COS-7 cells, where hNmU-R1 was first identified. With the aid of 1% n-dodecyl-β-d-maltoside (LM)/0.25% cholesteryl hemisuccinate (CHS), the yield of functional hNmU-R1 could reach 80%. The recombinant receptor from Sf9 cells was purified to homogeneity. The specific binding of the purified receptor to [¹²⁵I] NmU-23 (rat) indicated that the receptor is bioactive. This is the first report of successful solubilization and purification of hNmU-R1, and will enable functional and structural studies of the hNmU-R1.