Polyoxyethylene Sorbitan Monopalmitate (Tween 40) as a Vehicle for oil Red O Fat Stain

An oil red O fat stain is prepared by dissolving 250 mg of the dye in 100 ml of a 1% Tween 40 solution in 30% alcohol, and incubating the mixture at 60°C for 24 hr. The solution is then filtered at room temperature under vacuum through medium porosity frittedglass. Frozen sections cut from material fixed in CaCl₂-CdCl₂-formalin (1%:1%:10%) are placed in the stain for not less than 4 hr. After washing in the alcoholic-Tween solvent, they are mounted on glass slides from distilled water with Farrants' medium. The resulting preparations appear to be permanent, for in a 2-yr test they have remained free from stain crystalization and the fat particles are still discrete and dark red.     

NOTES ON ULTRASTRUCTURE AND SOME PROPERTIES OF TRANSPORT WITHIN THE LIVING MITOTIC SPINDLE

The sites of lead phosphate precipitation in mouse bladder smooth muscle incubated with adenosine triphosphate and lead nitrate were studied by electron microscopy. The media constituents and incubating conditions were independently varied so that we could determine optimal conditions for histochemical demonstration of ATPase activity in agranular endoplasmic reticulum. Specimens of glutaraldehyde-fixed bladder muscle, frozen, cut into 10–40-µ sections, and incubated for 1 hr at 25°C in medium containing 0.025 M ATP, 0.0025 M lead nitrate, 0.05 M magnesium chloride, and 0.09 M sodium acetate buffer at pH 6.2, exhibited microcrystalline deposits in agranular endoplasmic reticulum and pinocytotic vesicles. Lead salt deposition was also noted in terminal cisternae of sarcoplasmic reticulum in skeletal muscle similarly treated, suggesting that the organelle systems in the two types of muscle cells subserve a common function.     

Electron microscopic demonstration of rat liver glycogen phosphorylase activity with iron (Fe++)

Summary In this study a new electron microscopic method for the demonstration of liver glycogen phosphorylase activity has been presented.Prior to incubation the liver samples were shortly fixed in cold paraformaldehyde. Inorganic phosphate, liberated in the reaction catalyzed by the enzyme, were precipitated with iron (Fe⁺⁺) present in the incubating medium. Postfixation was performed in glutaraldehyde and osmium tetroxide.The ferrous phosphate precipitate was detected electron microscopically in unstained sections.The precipitate was mainly localized to endoplasmic membranes but also in glycogen particles. The method is imperfect in demonstrating phosphorylase activity bound to glycogen particles because of poor preservation of glycogen during treatment.     

The effects of storage on the retention of enzyme activity in cryostat sections. A quantitative histochemical study on rat liver

Summary The effect of storage of unfixed cryostat sections from rat liver for 4 h, 24 h, 3 days and 7 days at -25°C was studied on the activities of lactate dehydrogenase, glucose-6-phosphate dehydrogenase, xanthine oxidoreductase, glutamate dehydrogenase, succinate dehydrogenase (all demonstrated with tetrazolium salt procedures), glucose-6-phosphatase (cerium-diaminobenzidine method), 5-nucleotidase (lead salt method), dipeptidyl peptidase II, acid phosphatase (both simultaneous azo coupling methods), d-amino acid oxidase (cerium-diaminobenzidine-cobalt-hydrogen peroxide procedure) and catalase (diaminobenzidine method). The effect of drying of the cryostat sections at room temperature for 5 and 60 min was investigated as well. The enzyme activities were quantified by cytophotometric measurements of test and control reactions. The test minus control reaction was taken as a measure for specific enzyme activity. It was found that the activities of all the enzymes investigated, with one exception, were affected neither by storage of the cryostat sections at -25°C for up to 7 days, nor by drying of the sections at room temperature for up to 60 min. The exception was xanthine oxidoreductase, whose activity was reduced by 20% after 5 min drying of sections or after 4 h storage. Therefore, only incubations for xanthine oxidoreductase activity have to be performed immediately after cutting cryostat sections, whereas for the other enzymes a considerable margin appears to exist.     

Trehalose phosphorylase from Pichia fermentans and its role in the metabolism of trehalose

During a screening for novel microbial trehalose phosphorylase three Pichia strains were identified as producers of this particular enzyme that have not yet been described. To our knowledge, this is the first time that this enzyme activity has been shown in yeasts. Pichia fermentans formed trehalose phosphorylase when cultivated on a growth medium containing easily metabolizable sugers such as glucose. Addition of NaCl (0.4 M) to the medium increased the synthesis of the enzyme significantly. Production of trehalose phosphorylase was found to be growth-associated with a maximum of activity formed at the transition of the exponential to the stationary phase of growth. Trehalose phosphorylase catalyzes the phosphorolytic cleavage of trehalose, yielding glucose 1-phosphate (glucose-1-P) and glucose as products. In vitro the enzyme readily catalyzes the reverse reaction, the synthesis of trehalose from glucose and glucose-1-P. For this reaction, the enzyme of P. fermentans was found to utilize -glucose-1-P preferentially. A partially purified enzyme preparation showed a pH optimum of 6.3 for the synthesis of trehalose. The enzyme was found to be rather unstable; it was easily inactivated by dilution unless Ca²⁺ or Mn²⁺ were added. This instability is presumably caused by dissociation of the enzyme. In contrast to other yeasts, P. fermentans rapidly degraded intracellularly accumulated trehalose when the carbon source in the medium was depleted. Trehalose phosphorylase seems to be a key enzyme in the degradative pathway of trehalose in P. fermentans. Additional enzymes in this catabolic pathway of trehalose include phosphoglucomutase, glucose-6-phosphate dehydrogenase, and gluconolactonase.This contribution is part of the Ph.D. thesis of Ingrid Schick     

A quantitative histochemical procedure for the demonstration of purine nucleoside phosphorylase activity in rat and human liver using Tetranitro BT and xanthine oxidase as auxiliary enzyme

Summary A quantitative histochemical procedure was developed for the demonstration of purine nucleoside phosphorylase in rat liver using unfixed cryostat sections and the auxiliary enzyme xanthine oxidase. The optimum incubation medium contained 18% (w/v) poly(vinyl alcohol), 100 mM phosphate buffer, pH 8.0, 0.5 mm inosine, 0.47 mm methoxyphenazine methosulphate and 1 mm Tetranitro BT. An enzyme film consisting of xanthine oxidase was brought onto the object slides before the section was allowed to adhere. The specificity of the reaction was proven by the low amount of final reaction product generated when incubating in the absence of inosine. Moreover, 1 mm p-chloromercuribenzoic acid, a non-specific inhibitor of purine nucleoside phosphorylase, inhibited the specific reaction by 90%. The specific reaction defined as the test reaction, in the presence of substrate, minus the control reaction, in the absence of substrate was linear with incubation time at least up to 30 min as measured cytophotometrically. A high activity was observed in endothelial cells and Kupffer cells of rat liver and a lower activity in liver parenchymal cells. Pericentral hepatocytes showed an activity higher than that of periportal hepatocytes. In human liver, purine nucleoside phosphorylase activity was also high in endothelial cells and Kupffer cells, but the activity in liver parenchymal cells was only slightly lower than it was in non-parenchymal cells. The localization of the enzyme is in agreement with earlier ultrastructural findings using fixed liver tissue and the lead salt procedure.     

Stability of neuronal and glial marker enzymes in post-mortem rat brain

The enzymatic activities in post-mortem rat brain kept at 4°C and at 25°C were determined for a number of enzymes localized in specific cell types in the central nervous system. Choline acetyltransferase (CAT), glycerol-3-phosphate dehydrogenase (GPDH), glutamine synthetase (GS), lactate dehydrogenase (LDH) and 2,3-cyclic nucleotide phosphohydrolase (CNPase) were found to be very stable at both 4°C and 25°C with only slight, if any, losses of activity being seen even at periods as long as 72 hr. Glutamic acid decarboxylase (GAD) activity was less stable than that of the other enzymes. In brains kept at 4°C GAD activity was stable out to 24 hr after which it began to decline rapidly to 65% of control at 72 hr. In brains kept at 25°C, GAD activity was stable for 6–8 hr and then began to steadily decline to 58% of control at 24 hr and 29% of control at 72 hr. Assuming that these enzymes have similar stabilities in post-mortem human brain, the effect of post-mortem delay in processing tissues may be of lesser significance than other factors with regard to the measured enzyme activities in human brain samples.     

Histochemical studies on the distribution of urease,dopa oxidase and glucosan phosphorylase in Trichomonas vaginalis

Summary Most of the enzyme activity for urease, dopa oxidase and glucosan phosphorylase is contained in the granules in T. vaginalis. The nucleus lacks reaction in all cases, although a positive reaction in the nuclear membrane and perinuclear concentration of reactive granules is often seen.The failures in the preliminary trials and inconsistency of results obtained with glucosan phosphorylase have been discussed. The similar results obtained with both the techniques used for the demonstration of glucosan phosphorylase chiefly suggest that T. vaginalis contains the inactive form of phosphorylase. The cytoplasmic activity for phosphorylase may represent true enzyme site or diffusion of the enzyme or reaction products from the positive granules. This enzyme appears to be labile and some activity is lost during the drying process. The presence of phosphorylase in these organisms along with our previous findings and those of other workers may explain their high glycogen content.     

A staining method of epoxy-embedded lymphatic and hemopoietic tissues in autoradiograms

Summary Autoradiograms of sections 0.8–1.0 thick of epoxy-embedded, glutaraldehyde and OsO₄ fixed lymphatic and hemopoietic tissues were stained with 4% aqueous basic fuchsin at 70°C for 3 min, rinsed well and destained twice at 70°C for 1 min. A 1% methylene blue solution dissolved in 1% borax aqueous solution mixed with 1% aqueous azur II solution in the proportion of 1:1 was then allowed to act on the slide at 70°C for 1 min. The stain was rinsed well off slide and destained also twice at 70°C for 1 min.The preparation was dried before applying a mounting medium (Eukitt) and cover glass. An Eukitt mounting prevented the stain from fading for at least 1 year. The method is simple, rapid and provides sharp contrast in autoradiography with well destained nucleal emulsion.This study was supported by Alexander von Humboldt-Foundation.     

Quantitative histochemical investigation of semipermeable membrane techniques for the assay of acid phosphatase in skeletal muscle

Summary A post-coupling semipermeable membrane technique for determining the activity of acid phosphatase in sections of skeletal muscle has been developed and investigated for its reproducibility and validity. Cryostat sections of unfixed muscle mounted on dry dialysis membranes are first incubated for 1–4 h at 37° C on a gelled medium containing 4 mM naphthol AS-BI phosphate buffered at pH 5. They are next transferred to another gel containing only hexazotised Pararosanaline and incubated for a further 30 min. Finally, they are treated with 70% ethanol, dried in air, and mounted. The final reaction product (FRP) deposited within muscle fibres is mostly distributed as a fine reticular network, tentatively identified as sarcoplasmic reticulum. Large FRP granules of the kind observed with Meijer's simultaneous coupling membrane technique are not formed. The method is reproducible and valid in terms of several working criteria. For example, the mean absorbance of the FRP at its absorption maximum increases linearly with incubation time; and in model sections containing various amounts of a subcellular fraction rich in acid phosphatase, the mean absorbance after a constant incubation time is proportional to the enzyme concentration. FRP is formed at approximately twice the rate it is deposited in the simultaneous coupling method. The most important advantage of the post-coupling method over the simultaneous coupling method is that the inhibition of the enzyme by coupling reagents is avoided.     

Electron microscopic demonstration of phospholipase B activity in the liver and the kidney of the mouse

Summary A method has been developed for electron microscopic histochemical demonstration of phospholipase B, (lecithinase B, E C 3.1.1.5, lysolecithin acyl hydrolase), which hydrolyzes - and -positions of phospholipids in mouse liver, kidney and adrenal tissues. Tissues either fixed in cold 1% paraformaldehyde or unfixed were cut into 40 m frozen sections and were incubated at 37° C in a medium at pH 6.6 or 4.5 containing 2 M lysolecithin and 0.25 mM CaCl₂ for 20 min. The fatty acids liberated by enzymatic hydrolysis were trapped as calcium precipitate and were converted to lead precipitate by treatment with lead nitrate. The reaction products were observed by electron microscopy to be localized on the end of the smooth endoplasmic reticulum at pH 6.6 and in lysosomes and lipid droplets at pH 4.5. It is concluded that the products showed the localization of phospholipase B activity.     

Production and properties of ∝-mannosidase from aspergillus sp.

Summary Aspergillus sp NCIM 508 produced 22 U/L of extracellular -mannosidase activity in a medium containing 8 % brewer's yeast cells. The optimum period and pH range for maximum production of the enzyme were 7 days and 4.0–6.0, respectively. The optimum pH and temperature for enzyme activity were 6.0 and 50°C, respectively. The enzyme was stable for 24 h at 28°C, in the pH range 6.0–7.0. The enzyme retained 100 and 65 % of its original activity after heating for 15 min at 45 and 55°C, respectively. The Km and V_max for p-nitrophenyl--D- mannoside (PNPM) were 71M and 7.5 × 10^–2 moles/min/mg, respectively. The enzyme was strongly inhibited by 1 mM Hg⁺⁺ and Cu⁺⁺ and partially by Co.⁺⁺ (NCL Communication No.; 5780)     

Purification and characterization of glycogen phosphorylase A and B from the freeze-avoiding gall moth larvae Epiblema scudderiana

The active a and inactive b forms of glycogen phosphorylase from cold-hardy larvae of the gall moth, Epiblema scudderiana, were purified using DEAE⁺ ion exchange and 3-5-AMP-agarose affinity chromatography. Maximum activities for glycogen phosphorylases a and b were 6.3±0.74 and 2.7±0.87 mol glucose-1-P·min^-1·g wet weight^-1, respectively, in -4°C-acclimated larvae. Final specific activities of the purified enzymes were 396 and 82 units·mg protein^-1, respectively. Both enzymes were dimers with native molecular weights of 215000±18000 for glycogen phosphorylase a and 209000±15000 for glycogen phosphorylase b; the subunit molecular weight of both forms was 87000±2000. Both enzymes showed pH optima of 7.5 at 22°C and a break in the Arrhenius relationship with a two- to four-fold increase in activation energy below 10°C. Michaelis constant values for glycogen at 22°C were 0.12±0.004 mg·ml^-1 for glycogen phosphorylase a and 0.87±0.034 mg·ml^-1 for glycogen phosphorylase b; the Michaelis constant for inorganic phosphate was 6.5±0.07 mmol·l^-1 for glycogen phosphorylase a and 23.6 mmol·l^-1 for glycogen phosphorylase b. Glycogen phosphorylase b was activated by adenosine monophosphate with a K _a of 0.176±0.004 mmol·l^-1. Michaelis constant and K _a values decreased by two- to fivefold at 5°C compared with 22°C. Glycerol had a positive effect on the Michaelis constant for glycogen for glycogen phosphorylase a at intermediate concentrations (0.5 mol·l^-1) but was inhibitory to both enzyme forms at high concentrations (2 mol·l^-1). Glycerol production as a cryoprotectant in E. scudderiana larvae is facilitated by the low temperature-simulated glycogen phosphorylase b to glycogen phosphorylase a conversion and by positive effects of low temperature on the kinetic properties of glycogen phosphorylase a. Enzyme shut-down when polyol synthesis is complete appears to be aided by strong inhibitory effects of glycerol and KCl on glycogen phosphorylase b.Abbreviations E _a activation energy - GPa glycogen phosphorylase a - GPb glycogen phosphorylase b - h Hill coefficient - I ₅₀ concentration of inhibitor that reduces enzymes velocity by 50% - K _a concentration of activator that produces half-maximal activation of enzyme activity - K _m Michaelis-Menten substrate affinity constant - MW molecular weight - PEG polyethylene glycol - P_i morganic phosphate - SDS PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis - V _max enzyme maximal velocity     

Enzyme histochemistry on bone marrow sections after embedding in methacrylate at low temperature

Summary This paper presents a method for the application of light microscopy to enzyme histochemistry on semi-thin sections of non-decalcified bone marrow cylinders (4×15 mm), entire rat femurs and larger soft-tissue specimens (4×30 mm²) after embedding in a methacrylate mixture which is then polymerized at 4°C. The best results were obtained using 1–4 h fixation in 4% formaldehyde solution in 0.1 M cacodylate buffer and propanol, . Dehydration of the tissue in concentrated solutions of propanol was complete within 2 h. It was then impregnated for 4 h in the embedding medium containing 55% 2-hydroxyethyl methacrylate, 27% methyl methacrylate, 9% 2-hydroxyethyl acrylate, 9% propanol and 2% di-benzoyl peroxide. For the final polymerization the amount of peroxide was reduced to 0.4%, and 0.1% N,N-dimethylaniline was added as a co-initiator. Polymerization lasted about 10 h at 4°C; the heat of the reaction caused the internal temperature to rise, reaching a peak of 20°C after 6 h. The blocks could then be inserted directly into the tissue-holder of a rotation microtome and cut with a steel knife. Semi-thin sections (1–3 m), free from wrinkles, were easily obtained: on the surface of 1% acetic acid at 35°C, even bone-containing sections spread out spontaneously. Enzyme activity was well preserved throughout the entire section when tested for acid (acPase) and alkaline phosphatase (alkPase), non-specific esterase (nEst), butyrate esterase (bEst), -naphthol-AS-D-chloroacetate esterase (chEst), and peroxidase (poAse) on entire rat femurs and bone marrow biopsy cylinders of different species including human. Enzyme activity was still present in the blocks after a 2,5-years storage time. AlkPase outlined a network of reticulum cells, and marked osteoblasts and granulocytic cells (human). AcPase activity was strong in osteoclasts, macrophages, and Golgi zones of megakaryocytes and myeloid precursors. Best clearly marked monocytes and fat cells (rat), but not bone marrow macrophages, nEst followed the pattern of AcPase. PoAse was seen in the osteolytic rim of osteoclasts and in granulocytes. Treatment of the sections with 20% sucrose prior to incubation broke the latency of acPase and alkPase after overfixation.     

Improved histochemical method for the demonstration of the activity of α-glucan phosphorylase

Summary A modified method for the histochemical demonstration of the activity of -glucan phosphorylase is described. In the histochemical system the enzyme catalyses the synthesis of glycogen by transglucosylation from -d-glucosylphosphate. The incubation medium contains dextran as glucosyl acceptor. Therefore, in contrast with the unmodified method, the new technique is able to demonstrate the activity of phosphorylase in ischaemic glycogen-depleted tissues.     

Stabilization of cetyltrimethylammonium bromide permeabilized yeast whole cell lactase

Summary Cetyltrimethylammonium bromide-permeabilized cells ofK. fragilis loose -galactosidase activity due to leaking of the enzyme into the medium. This leakage of the enzyme can be prevented by storing the permeabilized cells either in buffer containing 50% glycerol or by treating the permeabilized cells with 0.2% glutaraldehyde at 4°C for 10 min. In repeated batch hydrolysis of lactose in milk, glutaraldehyde treated cells could be repeatedly used very efficiently.     

Continuous production of α,α-trehalose by immobilised fungal trehalose phosphorylase

Immobilisation of trehalose phosphorylase from Schizophyllum commune by adsorption onto anion-exchange materials stabilised the enzyme activity at 30°C by approx. 35-fold. Immobilised and free enzymes showed similar pH-dependence of activity but different inactivation behavior above 30°C. A fixed-bed enzyme reactor produced ,-trehalose at a stable substrate conversion of 80% with a productivity of 2.6 g l–1 h–1 for 72 h. Inhibition of trehalose phosphorylase by phosphate limited the productivity of a direct conversion of starch into ,-trehalose.     

Cytochemical detection of catalase with 3,3′-diaminobenzidine

Summary The influence of various parameters of fixation and incubation upon the oxidation of DAB by catalase have been analyzed. Crystalline beef liver catalase was fixed with different concentrations of glutaraldehyde and peroxidatic activity was determined spectrophotometrically using DAB as hydrogen donor. Although aldehyde fixation appeared to be important in elicitation of the peroxidatic activity of catalase, the final pigment production after 60 min incubation was optimal with the lowest concentration of glutaraldehyde (1%), after the shortest fixation period (30 min), and at the lowest temperature (5° C) tested. Similarly cytochemical studies with rat kidney sections incubated for 10 min confirmed that the staining of peroxisomes in proximal tubules was strongest after the mildest fixation conditions. The pH and the temperature of incubation were closely interrelated, so that at room temperature (25° C) the maximal pigment production was obtained at pH 10.5 but incubation at 45° C gave the strongest staining at pH 8.5. The production of pigment increased with higher DAB concentrations which required larger amounts of H₂O₂ in the incubation medium. Cytochemical studies on renal peroxisomes were in agreement with these biochemical findings. The observations indicate that there are several options for the localization of catalase depending on the fixation and incubation conditions. Hence, these conditions should be selected according to the tissue and the purpose of the study. Examples for such selective applications are presented.     

Application and Evaluation of the Lead-Adenosine Triphosphatase Method in Skeletal Tissue

Application and evaluation of the lead-ATPase histochemical method in skeletal tissue has demonstrated an intracellular localization of enzyme activity. The skeletal tissue was demineralized for 72 hr in cold 10% aqueous EDTA adjusted to pH 7.2. Frozen sections were cut and placed on cold albumenized slides, oriented, thawed, dried in a cool air stream, and fixed for 10 min in cold (-2 to -3 C) 10% formalin buffered with Na-acetate and adjusted to pH 7.2. The sections were washed, treated with 10% EDTA for 20 min at room temperature, rewashed, and incubated for an optimal period of 30 min at 37 C. in the lead-ATP medium of Wachstein and Meisel. Following incubation the sections were washed, treated for 1 min with 1% (NH₄)₂S, rewashed, immersed for 30 min in 10% buffered formalin, dehydrated, cleared, and mounted. Evaluation of the substrate specificity suggests that other phosphatases associated with skeletal tissue do not complicate the ATPase reaction.     

Superoxide dismutase from Mycobacterium species,strain Takeo

Superoxide dismutase from Mycobacterium species, strain Takeo, has been purified to homogeneity as judged by disc gel electrophoresis and ultracentrifugation. The enzyme was found to have a molecular weight of approximately 61 500 by sedimentation equilibrium and to contain manganese by atomic absorption and electron spin resonance spectra. The amino acid composition was also determined. The enzyme was considerably stable to the treatment with sodium dodecyl sulfate; unless incubating at 80°C for 2 min, it was not completely dissociated into the subunits. The molecular weight of the subunit was found to be approximately 21 000. Antibodies against the superoxide dismutase were produced by immunization of rabbits with the enzyme, and the -globulin fraction was purified. Superoxide dismutase preparations obtained from various species of mycobacteria and nocardia cross-reacted to different degrees with these antibodies on the Ouchterlony double diffusion plates. Comparative immunological studies indicated that strain Takeo might be most closely related to Myobacterium smegmatis among species of mycobacteria and nocardia tested. The antibodies against superoxide dismutase may be used as a valuable tool for the classification of mycobacteria.