The histochemical demonstration of aminopeptidase with bromoindolyl leucinamide

Summary The indigogenic method for aminopeptidase of Pearson et al. (1963) was critically evaluated. The localization obtained with it is not correct due to diffusion artifacts. Ferricyanide cannot be used as an oxidation agent. Based on experiments with other oxidation agents (phenazonium methosulfate, nitro BT, tetranitro BT) a new method was devised.The recommended incubation medium contains 0.9 mM L-N-(5-bromoindol-3-yl) leucinamide hydrobromide (chloride), 0.73 mM tetranitro BT, 0.27 mM phenazonium methosulfate and 0.67 M phosphate buffer pH 7.4. The enzyme activity is indicated by the deposition of tetranitro BT formazan.Results with this method in rat kidney, jejunum, liver, lung, and submaxillary gland, in monkey kidney and jejunum, and in human jejunal biosies are almost identical with those obtained with L-leucyl-4-methoxy--naphthylamide applied in a simultaneous azocoupling procedure. The given principle of the demonstration of aminopeptidase activity with an indolylamine substrate deserves a further exploration in the demonstration of peptidases in situ both on optical as well as electronmicroscopical levels.Dedicated to the 60th birthday of Prof. MUDr. J. vejda, DrSc., Head of the Department of Pathology, Medical Faculty, Purkyn University, Brno.     

Quantification of the histochemical reaction for alkaline phosphatase activity using the indoxyl-tetranitro BT method

Summary The indoxyl—tetranitro BT method for the demonstration of alkaline phosphatase activity has been optimized and its validity for quantitative histochemistry tested. The study has been performed with model films of polyacrylamide gel incorporating homogenate of rat liver and with cryostat sections from the same livers. Addition of polyvinyl alcohol to the incubation medium greatly improved the localization of the final reaction product in cryostat sections. In polyacrylamide films, the formazan production specifically due to alkaline phosphatase was highest when using a medium containing 100mm Tris-HCl buffer, pH 9.0, 0.2–1.0mm substrate, 0.32mm 1-methoxyphenazine methosulphate, 10mm MgCl₂, 5mm sodium azide and 1mm tetranitro BT. For the incubation of cryostat sections in the presence of polyvinyl alcohol, the same medium could be used but the optimum concentrations of substrate and tetranitro BT appeared to be 1–2mm and 5mm respectively. The test minus control reaction was specific for alkaline phosphatase activity and could be inhibited completely with tetramisole. The test minus control reaction was linear with time up to 30 min with model films and up to 15 min with cryostat sections. The formazan production was also linear with the amount of homogenate incorporated in model films and with section thickness up to 18 µm and therefore, the reaction obeyed the Beer—Lambert law. Variation of the substrate concentration yielded aK _M of 0.05mm for aqueous media and aK _M of 0.55mm for polyvinyl alcohol-containing media. The inhibition with tetramisole appeared to be competitive withK _i = 0.07mm for aqueous media andK _i = 0.7mm for polyvinyl alcohol-containing media. These values indicate that the indoxyl—tetranitro BT method is considerably more sensitive than any metal salt or diazonium salt method developed so far. It is concluded that the optimized method described here is a specific, sensitive and valid quantitative histochemical method for the demonstration of alkaline phosphatase activity.     

A sensitive cytochemical staining method for glucose-6-phosphate dehydrogenase activity in individual erythrocytes. I. Optimalization of the staining procedure

A sensitive cytochemical staining method for glucose-6-phosphate dehydrogenase activity in individual human erythrocytes is described. This staining method can be used for the rapid routine discrimination of patients with a deficiency of the enzyme in its homozygote or heterozygote form, but also for quantitative localization of its activity in individual erythrocytes. The staining procedure in its optimal form consists of a treatment of the erythrocytes with sodium nitrite, then a "fixation" in 0.025% glutaraldehyde (under NADP+ protection of the active site of the enzyme), followed by incubation of the cells in suspension in the presence of tetranitro BT, 1-methoxyphenazine methosulphate and polyvinyl alcohol. Using this new technique, a sharp localization is obtained of the glucose-6-phosphate dehydrogenase activity, which enables discrimination between red cells with different levels of enzyme activity, as a consequence of enzyme deficiencies or age changes.     

Histochemical demonstration of the intestinal hetero-β-galactosidase (glucosidase)

Summary The histochemical demonstration of hetero--galactosidase (glucosidase) has been attempted in sections and zymograms of rabbit, monkey and human intestine and of rat kidney.The leakage of this enzyme from unfixed sections was prevented by the use of cold microtome sections adherent to semipermeable membranes. Methods with -D-glucosides and galactosides of 6-Br-2-naphthol (postincubation azocoupling with Fast Blue B as well as simultaneous azocoupling with hexazonium-p-rosaniline), of -naphthol (simultaneous azocoupling with hexazonium-p-rosaniline) and of 4-Cl-5-Br-3-indolyl (with ferricyanide, phenazonium methosulfate or nitro BT and without any oxidation agent) were used an evaluated concerning the specificity, localization ability and inhibition of enzyme activity. Pretreatment of sections with distilled water or saline and inhibition by p-Cl-mercuribenzoate, glucono- and galactono-lactones were used for the characterization of the demonstrated enzyme activity.6-Br-2-naphthyl--D-glucoside is the most specific substrate for hetero--galactosidase. It is not split by lactase and acid -galactosidase. Only lysosomal -glucosidase can interfere. Because the latter enzyme is membrane-bound the difference in color intensity between untreated and prewashed sections are due to hetero--galactosidase. Only localization on the cellular (not intracellular) level can be achieved, however.The simultaneous azocoupling method with -naphthyl--D-glucoside and hexazonium-p-rosaniline enables a very good localization of hetero--galactosidase in the rabbit intestine. Due to a great inhibition exerted by hexazonium-p-rosaniline on the enzyme activity the method is unsuitable for the detection of hetero--galactosidase in zymograms and in the human intestine. Interference of lactase (or lactase-phlorizine hydrolase complex) is to be considered. The lysosomal -glucosidase does not seem to interfere.Indigogenic methods are not sensitive either. With ferricyanide as an oxidation agent it was not possible to detect the activity of hetero--galactosidase in zymograms and in sections. This is possibly due to overoxidation of indigo. The same holds true for phenazonium methosulfate used for the processing of zymograms. However, it was possible to reveal the activity of hetero--galactosidase in sections of the rabbit and monkey intestine with phenazonium methosulfate as oxidation agent. Nitro BT enhanced the coloration both in zymograms and in sections. In the latter case diffusion artifacts cannot be prevented, however. The interference of lactase, lysosomal -galactosidase and possibly of lysosomal -glucosidase (depending on the glycoside used) is always to be considered.Hetero--galactosidase was localized in the cytoplasm (particularly in the supranuclear region) of differentiated enterocytes covering the villi of the rabbit (the highest activity), monkey and human (the lowest activity) intestine. In crypt enterocytes and in cells of Brunner's glands the activity was lower. The occurrence of a low activity of hetero--galactosidase in the brush border of enterocytes of the rabbit intestine was also demonstrated.A proximodistal gradient was observed in the rabbit and monkey intestine, the upper jejunum displaying the highest activity.In jejunal biopsies of patients with celiac sprue (in the acute stage of the disease) the activity of hetero--galactosidase was lowered. No changes of activity were observed in jejunal biopsies of patients with isolated deficiencies of lactase or sucrase.In the rat kidney the enzyme was demonstrated particularly in the cytoplasm of cells of proximal convoluted tubules.     

The histochemical demonstration of brush border endopeptidase

Summary A histochemical method for the demonstration of a brush border endopeptidase is described based on results of biochemical and histochemical experiments. The substrate of choice is Glut-Ala-Ala-Ala-MNA which displays a very good localization ability and suitable kinetic properties. K_m estimated in rat kidney homogenate amounts to 2.35×10^–4 M. pH optimum of this endopeptidase associated with the brush border membrane is in the alkaline range. The activity is dependent on the buffer used. In phosphate and cacodylate buffers of pH 7.2 about 30% lower activity in rat kidney and about 25% lower activity in rat small intestine than in Tris-HCl buffer of the same pH was found. The most suitable diazonium salt for the detection in situ is Fast Blue B. It inhibits the endopeptidase activity of rat kidney by about 85% at pH 7.2 and by about 55% at pH 6.0. The best results are obtained in cryostat sections adherent to semipermeable membranes treated with chloroform-acetone before the incubation. A microdensitometric evaluation of the reaction product is possible and results are in good agreement with those of the biochemical determination. When Suc-Ala-Ala-Ala-INA is used as substrate hexazonium-p-rosaniline is the most suitable coupling agent although it inhibits more than Fast Blue B. The reaction using acylated trialanyl naphthylamides as substrates runs in two steps. Endopeptidase sets free Ala-NA which is attacked by aminopeptidase M. Aminopeptidase M is not reaction rate or localization limiting factor because its activity in the brush border is very high and the enzyme is anchored to the cell membrane very closely to endopeptidase. In homogenates of rat kidney and jejunal mucosa the endopeptidase activity was inhibited by EDTA (2×10^–3M) by 75% in the kidney and by 68% in the jejunum, by DFP (10^–3M) by 41% in the kidney and by 35% in the intestine, by Mn²⁺ (5×10^–3M) by 25% in the kidney and by 30% in the intestine. No inhibition was exerted by E 600. In sections the results were similar. 1,10-phenanthroline (10^–2M) caused a substantial inhibition.Endopeptidase activity was detected in the brush border of cells of proximal convuluted tubules of the kidney and in the brush border of differentiated enterocytes of the small intestine. In the same species enterocytes display a lower activity than kidney tubular cells. There are species differences in the distribution pattern of endopeptidase in the kidney. In the rabbit and man the positive reaction occurs in the whole cortex. It is distributed unevenly, however. In the rat the tubules of the inner cortex display a very high activity. In the outer cortex straight portions react strongly. In the rabbit kidney cells of the parietal layer of Bowman's capsule display a weak reaction as well. No sex differences were found in the distribution pattern of endopeptidase in the rat kidney. In the intestine of all species examined a proximo-distal gradient was found. The reaction appears in the duodenum, reaches its maximum in the jejunum and declines in the aboral direction. In patients suffering coeliac sprue the endopeptidase is the most seriously affected enzyme of the brush border peptidases which can be demonstrated in situ. There follow in decreasing order -glutamyl transferase, dipeptidyl (amino) peptidase IV, aminopeptidase A and aminopeptidase M.     

A new method for the enzyme cytochemical staining of individual cells with the use of a polyacrylamide carrier

A new method for enzyme cytochemical studies on individual cells is developed. Cells are incorporated in the matrix of a thin film of transparent polyacrylamide prior to incubation in a cytochemical medium. Five different kinds of individual cells, i.e. isolated rat hepatocytes, isolated mouse oocytes, cultivated human fibroblasts, rat thymocytes and human blood cells are used for testing the applicability of this method for the cytochemical demonstration of glucose-6-phosphate dehydrogenase with tetranitro BT. The incorporation technique solves at least some of the problems occurring with enzyme cytochemistry on single cells. The morphology of the cell is very well preserved, the formazan precipitation due to enzyme activity occurs entirely within the cell cytoplasm, the nothing dehydrogenase activity can be kept very low and the loss of cells is completely prevented with all cell types used.     

The role of exogenous electron carriers in NAD(P)-dependent dehydrogenase cytochemistry studied in vitro and with a model system of polyacrylamide films

The applicability of phenazine methosulfate, 1-methoxyphenazine methosulfate, menadione, and meldola blue as exogenous electron carriers for the cytochemical staining of nicotinamide adenine dinucleotide (phosphate) (NAD(P))-dependent dehydrogenases has been studied quantitatively with tetranitro BT in vitro and with a model system of polyacrylamide films incorporating either purified glucose-6-phosphate dehydrogenase or intact rat liver parenchymal cells. It was found that every assay in which a tetrazolium salt is used, whether or not an electron carrier is present, has to be carried out in darkness. Menadione did not appear to be useful, because electrons were not found to be transferred directly from reduced nicotinamide adenine dinucleotide (phosphate) (NAD(P)H) to this compound. Phenazine methosulfate at higher concentrations and meldola blue at concentrations optimal for carrying electrons to tetrazolium salts yielded a high level of "nothing dehydrogenase" activity in cell-containing films, but no inhibition of enzymatic activity was found. Factors involved in the interference of oxygen with tetrazolium salt reduction are discussed. 1-Methoxyphenazine methosulfate did not stain cellular compounds and caused only a very low nothing dehydrogenase activity. The cytochemical demonstration of dehydrogenase activity was shown to be independent on the concentration of 1-methoxyphenazine methosulfate used (50-1000 microM). It is concluded that 1-methoxyphenazine methosulfate is the exogenous electron carrier of choice.     

A sensitive cytochemical staining method for glucose-6-phosphate dehydrogenase activity in individual erythrocytes

Summary A sensitive cytochemical staining method for glucose-6-phosphate dehydrogenase activity in individual human erythrocytes is described. This staining method can be used for the rapid routine discrimination of patients with a deficiency of the enzyme in its homozygote or heterozygote form, but also for quantitative localization of its activity in individual erythrocytes. The staining procedure in its optimal form consists of a treatment of the erythrocytes with sodium nitrite, then a fixation in 0.025% glutaraldehyde (under NADP⁺ protection of the active site of the enzyme), followed by incubation of the cells in suspension in the presence of tetranitro BT, 1-methoxyphenazine methosulphate and polyvinyl alcohol. Using this new technique, a sharp localization is obtained of the glucose-6-phosphate dehydrogenase activity, which enables discrimination between red cells with different levels of enzyme activity, as a consequence of enzyme deficiencies or age changes.     

Tetrazoliummethoden zum histochemischen Hydrolasennachweis

Zusammenfassung An gefriergetrockneten und Schnitten von nativem oder aldehyd-fixiertem Material wird die Eignung von Nitro BT (NBT), Tetranitro BT (TNBT), Distyryl Nitro BT (DS-NBT), Thiocarbamyl Nitro BT (TC-NBT) und Benzothiazolylstyrylphthalhydrazidyltetrazoliumcholorid (BSPT) als Hilfsreagentien zur Lokalisation von Glykosidasen, Phosphatasen und unspezifischen Esterasen mit Indoxylsubstraten an Rattenorganen geprüft.Mit NBT und TNBT lassen sich die saure -d-Galactosidase, -d-N-Acetylglucosaminidase, saure Phosphatase, Neuraminidase und unspezifische Esterase höchstens auf Zellebene nachweisen; präziser kann die Lactase--d-glucosidase im intestinalen Bürstensaum dargestellt werden. Die besten Resultate liefert die Untersuchung der alkalischen Phosphatase; mit TNBT ist das Tetrazoliumverfahren unter allen bisher beschriebenen Reaktionen die Methode der Wahl für die lichtmikroskopische Darstellung dieses Enzyms.Mit BSPT als Tetrazoliumsalz und anschließender Osmierung seines Formazans lassen sich alle sauren und neutralen Hydrolasen exakt in Lysosomen, Sekretgranula, Cytoplasma und/oder Mikrovilli fassen; gleichzeitig sind damit ultracytochemische Studien möglich. Die alkalische Phosphatase reagiert mit BSPT nur an hochaktiven Stellen positiv.-DS- und TC-NBT sind NBT, TNBT und BSPT unterlegen.

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Tetrazolium methods for the histochemical investigation of hydrolases

Summary Using freeze-dried or sections from fresh-frozen or aldehyde-fixed material nitro BT (NBT), tetranitro BT (TNBT), distyryl nitro BT (DS-NBT), thiocarbamyl nitro BT (TC-NBT) or benzothiazolylstyrylphthalhydrazidyl tetrazolium chloride (BSPT) were tested as auxiliary reagents for the localization of glycosidases, phosphatases and non-specific esterases with indoxyl substrates in rat tissues.By means of NBT or TNBT as a tetrazolium salt acid -d-galactosidase, -d-N-acetylglucosaminidase, acid phosphatase, neuraminidase and non-specific esterase can only be localized at the cellular level; a more precise localization is possible for lactase--d-glucosidase in the intestinal brush border, and the best results are obtained in the demonstration of alkaline phosphatase; among all methods described previously the tetrazolium procedure with TNBT is the method of choice for the light microscopic localization of this enzyme.Reverse data are observed with BSPT as a tetrazolium salt; then, all acid and neutral hydrolases can be exactly localized in lysosomes, secretion granules, cytoplasm and/or microvilli of many cells and tissues provided BSPT-formazan is stabilized by osmification. Furthermore, this procedure enables the reliable ultracytochemical demonstration of these enzymes. However, in the case of alkaline phosphatase only sites with high enzyme activity reveal a positive reaction.-DS- and TC-NBT are inferior to NBT, TNBT or BSPT.

     

Short-term effect of a high-protein/low-carbohydrate diet on aminopeptidase in adult rat jejunoileum. Site of aminopeptidase response.

The short-term effects of high-protein/low-carbohydrate diet on aminopeptidase N activity were studied in the brush-border membranes of proximal jejunum and proximal ileum of adult rats. The animals were starved overnight and re-fed for 15 h either with a standard diet (20% protein, 55% carbohydrate, in terms of energy content) or with a high-protein/low-carbohydrate diet of equal energy content (70% protein, 5% carbohydrate). All rats consumed similar amounts of diet, and measurements were made 15 h after initiation of re-feeding. In the proximal jejunum a slight increase in aminopeptidase activity was observed after the high-protein intake. In contrast, considerable stimulation (52%) of the enzyme specific activity was obtained in the proximal ileum. This increase in ileal aminopeptidase activity was more prominent in the mature cells of the upper villus. To determine if the increase of aminopeptidase activity was due to an increased amount of enzyme protein, rocket immunoelectrophoresis was performed with detergent-solubilized brush-border protein from ileum on agarose gels containing anti-(rat brush-border) antiserum. When the same amount of enzyme activity was loaded on the gels, the peaks of immunoprecipitate for aminopeptidase were similar for animals fed on a standard or a high-protein diet. When the same amount of protein was loaded, the peak of immunoprecipitate for aminopeptidase was higher (81%) after a high-protein diet. These results showed that the high protein intake evoked an increase in aminopeptidase activity, with a concomitant increase in the amount of immunoreactive protein.     

The histochemical demonstration of brush border endopeptidase.

A histochemical method for the demonstration of a brush border endopeptidase is described based on results of biochemical and histochemical experiments. The substrate of choice is Glut-Ala-Ala-Ala-MNA which displays a very good localization ability and suitable kinetic properties. Km estimated in rat kidney homogenate amounts to 2.35 X 10(-4) M. pH optimum of this endopeptidase associated with the brush border membrane is in the alkaline range. The activity is dependent on the buffer used. In phosphate and cacodylate buffers of pH 7.2 about 30% lower activity in rat kidney and about 25% lower activity in rat small intestine than in Tris-HCl buffer of the same pH was found. The most suitable diazonium salt for the detection "in situ" is Fast Blue B. It inhibits the endopeptidase activity of rat kidney by about 85% at pH 7.2 AND BY ABOUT 55% AT PH 6.0. The best results are obtained in cryostat sections adherent to semipermeable membranes treated with chloroform-acetone before the incubation. A microdensitometric evaluation of the reaction product is possible and results are in good agreement with those of the biochemical determination. When Suc-Ala-Ala-Ala-INA is used as substrate hexazonium-p-rosaniline is the most suitable coupling agent although it inhibits more than Fast Blue B. The reaction using acylated trialanyl naphthylamides as substrates runs in two steps. Endopeptidase sets free Ala-NA which is attacked by aminopeptidase M. Aminopeptidase M is not reaction rate or localization limiting factor because its activity in the brush border is very high and the enzyme is anchored to the cell membrane very closely to endopeptidase. In homogenates of rat kidney and jejunal mucosa the endopeptidase activity was inhibted by EDTA (2X10(-3) M) by 75% in the kidney and by 68% in the jejunum, by DFP (10(-3) M) by 41% in the kidney and by 35% in the intestine, by Mn2+ (5X10(-3) M) by 25% in the kidney and by 30% in the intestine. No inhibition was exerted by E 600. In sections the results were similar. 1,10-phenanthroline (10(-2) M) caused a substantial inhibition. Endopeptidase activity was detected in the brush border of cells of proximal convuluted tubules of the kidney and in the brush border of differentiated enterocytes of the small intestine. In the same species enterocytes display a lower activity than kidney tubular cells. There are species differences in the distribution pattern of endopeptidase in the kidney. In the rabbit and man the positive reaction occurs in the whole cortex. It is distributed unevenly, however. In the rat the tubules of the inner cortex display a very high activity. In the outer cortex straight portions react strongly. In the rabbit kidney cells of the parietal layer of Bowman's capsule display a weak reaction as well. No sex differences were found in the distribution pattern of endopeptidase in the rat kidney. In the intestine of all species examined a proximo-distal gradient was found...     

Reaction rate studies of glucose-6-phosphate dehydrogenase in rat tracheal epithelium; the effect of section thickness

The reaction velocity of glucose-6-phosphate dehydrogenase has been quantified by continuous monitoring on a Vickers microdensitometer of the reaction product as it formed in sections of different thickness of rat tracheal epithelium. Reaction velocity was directly proportional to section thickness when either tetranitro BT or neotetrazolium was used as the final acceptor; the rate was the same with each tetrazolium salt. However, the amount of formazan deposited in a given time was not proportional to section thickness. When tetranitro BT was employed the reaction became non-linear in the thicker sections due to the inability of the instrument to record beyond a certain absorbance value. Using neotetrazolium a lag phase, due to the failure to overcome the critical supersaturation level of the formazan, preceded the linear response. The duration of this phase decreased as section thickness increased. The implications of these findings on studies using conventional "end point" methods of measurement are discussed.     

Glutathione-degrading enzymes of microvillus membranes

Microvillus membranes from rat kidney, jejunum, and epididymis have been purified by the Ca precipitation method. The membranes exhibit enrichment in specific activities of gamma-glutamyl transpeptidase, aminopeptidase M, and a dipeptidase. The latter has been characterized and shown to be the principal activity responsible for the hydrolysis of S derivatives of Cys-Gly (including cystinyl-bis-glycine (Cys-bis-Gly) and 5-hydroxy-6-S-cysteinylglycyl-1-7,9-trans-11,14-cis-eicosatetraenoic acid (leukotriene D4)). A method is described for the simultaneous purification of papain-solubilized forms of the three enzymes from renal microvilli. Dipeptidase (Mr = 105,000) appears to be a zinc metalloprotein composed of two Mr = 50,000 subunits. The enzyme is severalfold more effective in the hydrolysis of dipeptides than aminopeptidase M. Dipeptidase, in contrast to aminopeptidase M, is inhibited by thiol compounds; Cys-Gly, in particular, is a potent inhibitor (Ki = 20 microM). The inhibition of dipeptidase by thiols has been employed to probe the relative significance of dipeptidase and aminopeptidase M in the metabolism of glutathione and its derivatives at the membrane surface.     

Measurement of xanthine oxidase activity in some human tissues. An optimized method

Xanthine oxidase activity in human liver or jejunum homogenates was measured by using 8-14C-hypoxanthine (HX) as a substrate. Products of oxidation were separated by thin-layer chromatography on MN Polygram cellulose and located by autoradiography. The percentage of oxidation was measured by liquid scintillation. Main parameters of the enzyme reaction have been optimized. Repeatability and reproducibility of the overall procedure give a variation coefficient of 6.3 and 7.7%, respectively. Minimal detectable enzymatic activity corresponds to an oxidation percentage of 1% (HX) for liver and jejunum. The reliability and practicability of this method allow a rapid diagnosis of xanthine oxidase deficiency. Normal values obtained by this optimized method range between 25 and 42 mukat . kg-1 protein for liver and 18 and 40 mukat . kg-1 protein for jejunum.     

Kinin-converting aminopeptidase from human urine. Further purification and characterization through kinetic and inhibitory studies

An aminopeptidase from human urine (HUA) able to hydrolyze L-aminoacyl-2-naphthylamides, L-Leu-p-nitroanilide and to convert both MLBK and LBK to BK has been further purified and characterized. The preparation now obtained showed a 3-fold higher specific activity than the previously described one and a single active protein band in 7% polyacrylamide gel electrophoresis accounting for 86% of total protein. Kinetic constants for this kinin-converting enzyme were determined using L-aminoacyl-2-naphthylamides, L-Leu-p-nitroanilide and LBK. The Km values for different naphthylamides were in the 10(-5) M range while that for L-Leu-p-nitroanilide was 3.6 X 10(-4) M. With LBK as substrate the aminopeptidase activity showed the highest catalytic efficiency in spite of a Km in the mM range. The enzyme was poorly inhibited by -SH and -S-S- group reagents. Some L-aminoacids, as well as mono- and diamines, indomethacin, puromycin and bestatin were equipotent competitive inhibitors of both arylamidase and aminopeptidase activities. Results obtained in this paper are compatible with our conclusion that human urine, unlike other enzyme sources, contains only one aminopeptidase, and that this enzyme displays both arylamidase and kinin-converting activities. The enzyme's action may be important in the metabolism of kinins, yielding peptides which could interact with both B-1 and B-2 kinin receptors in the kidney.     

A specific enzyme assay for aminopeptidase M in rat brain.

A specific enzyme assay for aminopeptidase M (APM) activity on rat brain membranes has been developed through selective use of enzyme inhibitors. Amastatin was the most potent inhibitor (amastatin > actinonin > MDL73347 > bestatin) for purified porcine kidney APM, giving 98% inhibition at a 6 microM concentration, while actinonin, yielded only 57% inhibition at this concentration. Puromycin (10 microM) was used to inhibit puromycin-sensitive aminopeptidase activity in the rat brain membrane preparation. Puromycin (10 microM) had only a slight effect on the Km of porcine kidney APM, and had negligible effect on APM velocity at the high substrate concentration (2 mM) used in the APM assay. The assay produced a linear accumulation of product for increasing amount of rat brain membranes used, and for increasing incubation time. The Km of APM on rat brain membranes for L-Leucine-p-nitroanilide (0.383 mM) was similar to the Km of purified porcine kidney APM (0.558 mM). APM-activity, involved in the metabolism of several biologically important neuropeptides in different brain regions, can be specifically measured with this enzyme assay.     

Reaction rate studies of glucose-6-phosphate dehydrogenase in rat tracheal epithelium; the effect of section thickness

Summary The reaction velocity of glucose-6-phosphate dehydrogenase has been quantified by continuous monitoring on a Vickers microdensitometer of the reaction product as it formed in sections of different thickness of rat tracheal epithelium. Reaction velocity was directly proportional to section thickness when either tetranitro BT or neotetrazolium was used as the final acceptor; the rate was the same with each tetrazolium salt.However, the amount of formazan deposited in a given time was not proportional to section thickness. When tetranitro BT was employed the reaction became non-linear in the thicker sections due to the inability of the instrument to record beyond a certain absorbance value. Using neotetrazolium a lag phase, due to the failure to overcome the critical supersaturation level of the formazan, preceded the linear response. The duration of this phase decreased as section thickness increased.The implications of these findings on studies using conventional end point methods of measurement are discussed.     

Distribution of xanthine oxidoreductase activity in human tissues--a histochemical and biochemical study.

Localization of the activity of both the dehydrogenase and oxidase forms of xanthine oxidoreductase were studied in biopsy and postmortem specimens of various human tissues with a recently developed histochemical method using unfixed cryostat sections, poly-(vinyl alcohol) as tissue stabilizator, 1-methoxyphenazine methosulphate as intermediate electron acceptor and Tetranitro BT as final electron acceptor. High enzyme activity was found only in the liver and jejunum, whereas all the other organs studied showed no activity. In the liver, enzyme activity was found in sinusoidal cells and both in periportal and pericentral hepatocytes. In the jejunum, enterocytes and goblet cells, as well as the lamina propria beneath the basement membrane showed activity. The oxidase activity and total dehydrogenase and oxidase activity of xanthine oxidoreductase, as determined biochemically, were found in the liver and jejunum, but not in the kidney and spleen. This confirmed the histochemical results for these organs. Autolytic rat livers several hours after death were studied to exclude artefacts due to postmortem changes in the human material. These showed loss of activity both histochemically and biochemically. However, the percentage activity of xanthine oxidase did not change significantly in these livers compared with controls. The findings are discussed with respect to the possible function of the enzyme. Furthermore, the low conversion rate of xanthine dehydrogenase into xanthine oxidase during autolysis is discussed in relation to ischemia-reperfusion injury.     

On the preparation and some properties of closed membrane vesicles from hog duodenal and jejunal brush border

Closed and nearly spherical vesicles were obtained from both hog duodenum and jejunum after mucosa homogenization in the absence of EDTA and a series of fractional centrifugations. The vesicles were found to contain large amounts of two of the characteristic enzyme markers of the brush border membrane (aminopeptidase and alkaline phosphatase). They were seen by electron microscopy on thin sections or after negative staining to be composed of an apparently intact, 90–100 Å-thick membrane overlaid by the fuzzy coat and to be partly filled by a fibrous material tentatively identified with the cross-filaments of the microvilli. This filling was not removed by 5 mM EDTA or/and 1 M Tris unless the structure of the vesicles was largely destroyed. Very few empty vesicles were obtained at the end of these treatments.The vesicles from hog duodenum and jejunum were observed to contain nearly 2 molecules of cholesterol for 1 molecule of phospolipids. Specific differences were noted between both types of vesicles at the level of their sugar composition and associated enzyme activities. For instance, the jejunal vesicles contained no sialic acid and no enterokinase. They contain, respectively, 2 and 4 times as much alkaline phosphatase and aminopeptidase as duodenal vesicles.     

Histochemical demonstration of enterokinase

Summary A new simple method for the histochemical demonstration of enterokinase (enteropeptidase, EC 3.4.4.8) was elaborated. Unfixed cold microtome sections adherent to the slides are covered with agar-gel medium containing trypsinogen (0.5–1 mg per 1 ml), N-benzoyl-DL-arginine--naphthylamide hydrochloride (2–4 mM), and Fast Blue B Salt (0.5 mg per 1 ml) in 0.05 M Tris maleate buffer pH 6.5 with 0.05% CaCl₂. After the incubation in a wet chamber at 37° C the slides are chelated in 2% copper sulphate. The method enables a localization on the histological level. The evaluation of the overall staining obtained with this method in sections of the duodenum, jejunum and ileum of guinea pigs, rats, monkeys, dogs and humans reflects well the biochemical quantitative data on enterokinase activity obtained in homogenates of mucosal scrapings of the corresponding gut segments of the same animals.In all animals a proximodistal gradient was found. The highest activities were found in enterocytes covering apical parts of villi in the duodenum. According to the activities in the duodenum the investigated animals can be arranged in the following series: guinea pig (highest activity), monkey, man, rat and dog.