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.     

Original method for the histochemical demonstration of tripeptidyl aminopeptidase I.

The original histochemical method for the visualization of tripeptidyl aminopeptidase I (TPP I, EC 3.4.14.9) is developed. The method is based on the new synthetic substrates Gly-L-Pro-L-Met(or L-Ala)-5-chloro-1-anthraquinonyl hydrazide (Gly-Pro-Met[Ala]-CAH). The final reaction product is represented as tripeptidyl-5-chloro-1 anthraquinonyl hydrazides (TPP-CAH). Upon the enzyme action the practically in aqueous media insoluble brown-reddish dye 5-chloro-1-anthraquinonyl hydrazine (CAH) is released, which reacts simultaneously with aromatic aldehydes as e.g. 4-anisaldehyde (p-AA) or 4-nitrobenzaldehyde (p-NBA), resulting in microcrystalline or amorphous deeply colored hydrazones. The last compounds mark accurately the locations of enzymatic activity. The biochemically suggested lysosomal localization of this collagen-degrading exopeptidase is thus confirmed on tissue sections. More information about the distribution of TPP I in different rat organs is presented as well.     

The histochemical demonstration of calcium with 8-hydroxyquinoline.

A method for the histochemical demonstration of calcium using 8-hydroxyquinoline was investigated. It was found to give intense, highly selective staining of various pathologic and natural calcifications, and compared favourably with conventional procedures for calcium. Calcium oxalate and calcium pyrophosphate were not stained.     

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...     

The histochemical demonstration of hydrolase activities with films of homopolyribonucleotides.

Films of polycytidylic acid, polyuridylic acid and polyguanylic acid were exposed to tissue sections and the results were compared with those obtained in previous studies on polyadenylic acid and ribonucleic acid. Important variations were observed in the distribution of the hydrolases acting on the different polyribonucleotides, suggesting that a variety of nucleases with marked proclivity for particular nucleotide residues can be demonstrated by the use of films of homopolymers.     

The histochemical demonstration of calcium with 8-hydroxyquinoline

Summary A method for the histochemical demonstration of calcium using 8-hydroxyquinoline was investigated. It was found to give intense, highly selective staining of various pathologic and natural calcifications, and compared favourably with conventional procedures for calcium. Calcium oxalate and calcium pyrophosphate were not stained.     

New method for the histochemical demonstration of dipeptidyl aminopeptidase I activity using a novel anthraquinoyl hydrazide substrate.

A new method for the histochemical localization of dipeptidyl aminopeptidase I (DPP I, cathepsin C), based on a newly synthesized substrate-Gly-L-Phe-5-chloro-1-anthraquinoyl hydrazide.HCl (Gly-Phe-CAH), is proposed. The enzyme activity liberates 5-chloro-1-anthraquinoyl hydrazine (CAH)--a water-insoluble brown-reddish compound, which precipitates on the enzyme locations. The primary reaction product reacts simultaneously or, otherwise, by post-coupling with p-anisaldehyde (p-AA), thus converting to the reddish-violet amorphous hydrazone--the final reaction product. The validity of enzyme localization is thus assured by the insolubility of the primary reaction product and does not depend on the rate of the second reaction step. The enzyme studied is successfully localized in different rat organs using the newly proposed technique.     

The histochemical demonstration of phosphoglucose isomerase

Summary A technique for the histochemical demonstration of phosphoglucose isomerase, using an indirect tetrazolium method, is described. The enzyme is shown to be widely distributed, thus confirming biochemical findings. The wide distribution is of significance because phosphoglucose isomerase occupies a position of considerable importance in carbohydrate metabolism, particularly in the conversion of fructose to glucose by means of intermediate phosphates.     

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.     

The use of hexazonium-p-rosanilin in the histochemical demonstration of peptidases.

The suitability of hexazonium-p-rosanilin (HP) in the histochemical demonstration of peptidases was investigated. The detection was carried out in cold mictrotome sections adherent to slides or semipermeable membranes. Alanyl-1-naphthylamide, alanyl-2-naphthylamide, leucyl-2-naphthylamide, leucyl-4-methoxy-2-naphthylamide (all substrates in concentration of 0.4 mg/1 ml of citrate phosphate buffer pH 6.5), gamma-L-glutamyl-1-naphthylamide, gamma-L-glutamyl-2-naphthylamide (both substances in concentration of 0.24 mg/1 ml of acetate buffer pH 6.5) were used as the substrates. Results were compared with those obtained with Fast Blue B and Fast Garnet GBC. In comparison with Fast Blue B and Fast Garnet GBC HP is a faster coupler, furnishes azodyes which are stable, amorphous (even without lipid extractions from sections), more substantive and in the case of 1-naphthylamine almost insoluble in ordinary lipid solvents used for the dehydration and clearing of sections before mounting. The molecular extinction coefficient of azodyes furnished by HP is 1.5X higher for 1-naphthylamine than for 2-naphthylamine. It is higher than that of Fast Garnet GBC, however, lower than that of Fast Blue B. The inhibitory influence of individual diazonium salts on enzyme activity (activities) splitting leucyl-2-naphthylamide amounts to 36% (Fast Garnet GBC), 37% (Fast Blue B), 52% (HP, 0.03 ml/1 ml) and 63% (HP, 0.09 ml/1 ml) at pH 6.5. For gamma-glutamyl-transpeptidase the corresponding values are 50%, 59%, 62% and 67%. The higher inhibitory influence of HP is compensated by the possibility of its using in the technic of semipermeable membranes. HP improves greatly the localization of peptidases in cold microtome sections from which lipids were not extracted. The best results are furnished by 1-naphthylamine dervatives. In the case of 4-methoxy-2-naphthylamine derivatives the localization is very sharp, however, the azodye is less distinct than that of 2-naphthylamine. The localization as obtained with HP in combination with substrates derived of simple naphthylamines is similar or even better than with 4-methoxy-2-naphthylamine derivatives applied with Fast Blue B. Typical examples are shown.     

The histochemical demonstration of sialic acid residues in pancreatic islets.

Using a modified colloidal iron reaction in connection with neuraminidase extraction test 3 different sialic acid-containing components have been demonstrated in pancreatic islets comprising golgi region and glycocalyx layer of islet cells and intrainsular capillary walls. The colloidal iron positive cationophilia increased markedly after treatment with alkali; an effect which might be due to deesterification, thus exposing additional free carbonyl groups of sialic acid residues.     

The histochemical demonstration of myoglobin in muscle spindles

Synopsis Muscle spindles from skeletal muscles of the rat and the guinea pig were stained to demonstrate their myoglobin content.Large intrafusal muscle fibres stained strongly for this pigment whilst the small intrafusal fibres showed little staining. This staining pattern contrasts strongly with that of the extrafusal muscle fibres.It has been suggested that myoglobin may act either as an oxygen storing or as an oxygen transporting pigment. The staining pattern present in muscle spindles indicates that myoglobin may act more as an oxygen transporting pigment than as an oxygen storing pigment.