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.     

Enzyme histochemical studies on the conducting system of the human heart

Summary In this communication, the results of applying various histochemical techniques for the localization of oxidoreductases, transferases, hydrolases and isomerases in the human heart are presented. The Purkinje fibres of the atrioventricular conducting system of the human heart differ from the myocardium proper in containing a slightly higher activity of most of the glycolytic and gluconeogenetic enzymes investigated. The relatively higher activity of 6-phosphofructokinase, the key enzyme in anaerobic carbohydrate metabolism, is especially noteworthy. On the other hand, the activities of some of the enzymes that play a part in the aerobic energy metabolism is slightly less than those in the myocardium fibres.As for the activity of the NADPH regenerating enzymes, the activity of 6-phosphogluconate dehydrogenase and malate dehydrogenase (oxaloacetate-decarboxylating) is somewhat higher, and the activity of glucose-6-phosphate dehydrogenase similar, in the Purkinje fibres compared to that in the myocardial fibres. The activity of myosin ATPase is similar for both types of fibre. Likewise, the fibres of the conducting system and of the myocardium show a similar activity of acid phosphatase, -glucuronidase, non-specific naphthylesterase and peroxidase. The neurogenic function of the conducting system of the human heart was demonstrated by the high activity of acetylcholinesterase in the Purkinje fibres and in the atrioventricular node. All these histochemical findings in Purkinje fibres are similar at widely differing levels of the conducting system.     

Lead and some other metals in the histochemical demonstration of rat liver glycogen phosphorylase activity

Summary Lead in a concentration of 0.25 mM was tried as a histochemical trapping agent for inorganic phosphate, liberated in the reversible reaction catalyzed by the liver glycogen phosphorylase.The reaction product, formed during the incubation and made visible with ammonium sulphide, was totally extracted with -amylase. Iodine staining after incubation was completely negative.The inhibitory effect on liver phosphorylase activity of several other metals was also studied histochemically. It was found that the inhibition generally increased with the molecular weight and concentration of the metals. It is concluded that Fe⁺⁺ could be useful as a trapping agent instead of lead.     

Activities of some oxidative and hydrolytic enzymes in musculus biceps brachii of rats after tonic stress

Summary Employing histochemical and biochemical techniques the authors studied the activities of some oxidative and hydrolytic enzymes in musculus biceps brachii of rats which from day 15 of life (at this time the muscle is differentiated) were stressed by tonic exercise on ladders. After six months of stress significant changes in the proportions of basic fiber types were observed (an increase of intermediate and decrease of white fibers). Significant changes were found in the activities of succinate dehydrogenase, -glucan phosphorylase, and nonspecific esterase (increase of activities), whereas no such differences were found in the activities of lactate dehydrogenase and mitochondrial -glycerol phosphate dehydrogenase. The difficulties encountered in the classification of basic fiber types are pointed out. The findings furnished evidence that tonic stress influences the metabolism and typology of the striated muscle of the growing rat.     

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

Summary The activity and localization of -glucan phosphorylase in experimental canine glycogen-depleted heart tissue has been investigated with biochemical and histochemical methods using dextran as enzyme acceptor. Only linear, essentially unbranched, dextrans exhibit acceptor properties; highly branched dextrans are not suitable acceptors for the enzyme. Results of Michaelis-Menten constant measurements for the linear essentially unbranched dextran fractions used, indicate that the affinity of the enzyme for the non-reducing end group of the dextran molecule increases with increasing molecular weight of the acceptor.In the glycogen-depleted tissue of anoxic and ischaemic cardiac musculature there is a gradual inactivation of the enzyme during the ischaemic period. Shortly before total inactivation the affinity of the enzyme, especially for the lower molecular dextran fractions, is greatly reduced. Therefore, for the histochemical demonstration of phosphorylase activity in infarcted areas of the heart it is essential to use as acceptor an unbranched dextran fraction with a high average molecular weight.This investigation was partially supported by a grant from the Netherlands Organization for the Advancement of Pure Research (Z.W.O.).     

Histochemical definition of muscle fibre types in the trunk musculature of a teleost fish (cod,Gadus morhua,L.)

Summary Cryostat sections incubated for myofibrillar ATPase, SDH, LDH, and -GPDH as well as p-phenylene-diamine stained semithin sections were used to define muscle fibre types in the trunk musculature of the cod (Gadus morhua, L.).Three zones (superficial, intermediate, deep) containing different muscle fibre types are present within both epaxial and hypaxial parts of each myomere subjacent to the lateral line.Atypical relations concerning myofibrillar ATPase activity probably reflects instability of myosin during storage of frozen tissue. The histochemical reaction does not distinguish between myofibrillar and mitochondrial ATPase in cod muscle.Based on ATPase and SDH activities, seven different histochemical profiles of muscle fibres can be identified in trunk musculature of this teleost fish. Attempts to homologize these fibre types with those in cyclostomes or those in higher animals proved futile. The higher number of histochemically defined muscle fibre types in cod might be explained by developmental processes and an admixture of immature fibres throughout life.     

A histoenzymatic study of rat intrafusal muscle fibres

Summary The histochemical activities of myofibrillar adenosine triphosphatase (ATPase), succinic dehydrogenase (SDH) and alpha glycerophosphate dehydrogenase (-GPD) were studied in intrafusal muscle fibres of rat fast and slow muscles. The ATPase reaction was carried out after the three standard acid preincubations. The cold K₂-EDTA preincubated ATPase reaction product was similar to that seen following the regular or alkalipreincubated ATPase reaction, except that the intermediate bag fibres exhibited much higher activity after cold K₂-EDTA preincubation. Following either acetic acid solution or cold and room temperature K₂-EDTA-preincubation, followed by the ATPase reaction, chain fibres of the fast muscles vastus lateralis and extensor digitorum longus exhibited a very low amount of reaction product as compared with those of the slow soleus. Veronal acetate and K₂-EDTA preincubations (and equally preincubation in acetic acid solution) resulted in acid stable ATPase activity along the entire length of the typical bag fibres but only in the polar regions of the intermediate bag fibres. On the basis of differing -GPD reaction, two sub populations of nuclear chain fibres were discovered in one spindle. It is a matter of conjecture, to what extent the histochemical differences of intrafusal fibres from fast and slow muscles reflects functional distinctions in the response to stretch of muscle spindles from fast and slow muscles.     

Histochemical properties of the biventer cervicis muscle of the chick: a relationship between multiple innervation and slow-tonic fibre types

Summary Chick biventer cervicis muscle fibres have been studied histochemically. Fast-twitch, focally innervated () fibres represent 70–80% of the total fibres in this muscle. Two histochemical profiles of slow-tonic multi-innervated () fibres have been observed from embryonic life to the adult (three-months) stage. These two slow-tonic types differ in the activity of their histochemically demonstrated myofibrillar ATPase after either acid or alkaline preincubation, and after formalin fixation. Both slow-tonic fibre types have a high oxidative metabolism and are PAS-negative. They are referred as to ₁ and ₂R fibre types (slow-tonic oxidative) in an expansion of Ashmore's nomenclature, and compared to avian slow-tonic sub-types that have been described in recent reports. ₁ and ₂ fibre types exhibit a similar pattern of innervation. Possible explanations of the origin of histochemical heterogeneity in multiple innervated fibres are discussed.     

Symplasmic and apoplasmic radial ion transport in plant roots

Enzymes of starch synthesis and degradation were identified in crude extracts of the unicellular green alga Dunaliella marina (Volvocales). By polyacrylamide gel electrophoresis and specific staining for enzyme activities, 4 multiple forms of starch synthase, 2 amylases, and at least 2 forms of -glucan phosphorylase were visible. Using specific -glucans incorporated into the gel before electrophoresis we have tentatively correlated -amylase and -amylase with both hydrolytic activities. The activities of -glucan phosphorylase and amylase(s) were measured quantitatively in crude extracts, and the concomitant action of -glucan phosphorylase and amylase(s) was found to account for the fastest rate of starch mobilization observed in vivo. Isolated chloroplasts retained both typical plastid marker enzymes and ADPglucose pyrophosphorylase, starch synthase, amylase(s), and -glucan phosphorylase to a similar percentage. Gel electrophoretic analysis followed by staining for enzyme activity of a stromal fraction resulted in a pattern of multiple forms of starch-metabolizing enzymes analogous to that found in a crude extract. We interpret the combined data as indicating the exclusive location in vivo of starch-metabolizing enzymes in chloroplasts of D. marina.Abbreviations Chl chlorophyll - DEAE-dextran diethylaminoethyl-dextran - DDT dithiothreitol - EDTA ethylenediamine tetraacetic acid - FBPase fructose-1,6-bisphosphate phosphatase, EC 3.1.3.11 - G1P glucose 1-phosphate - G6P-DH glucose 6-phosphate dehydrogenase, EC 1.1.1.49 - HEPES N-2-hydroxyethylpiperazine-N-ethanesulphonic acid - MES 2-(N-morpholino)ethanesulphonic acid - P_i inorganic orthophosphate - RuBP carboxylase ribulose-1,5-bisphosphate carboxylase, EC 4.1.1.39     

Evaluation of enzyme histochemical observations for metabolic studies. A combined histochemical and biochemical investigation of experimentally induced skeletal muscle-changes

Summary The reliability of enzyme histochemical observations for metabolic studies on skeletal muscle tissue was investigated with a combined histochemical and biochemical study. Specimens of musculus soleus with a predominantly aerobic metabolism and of musculus flexor digitorum longus with a predominantly anaerobic metabolism of rabbits in which both muscles were surgically cross-reinnervated or auto-reinnervated were used. For the histochemical investigation activities and localisations of succinate dehydrogenase, l-glycerol-3-phosphate: acceptor oxidoreductase, nicotinamide adenine dinucleotide: tetrazolium oxidoreductase and of -glucan phosphorylase were examined. For the biochemical investigation maximal activity of phosphofructokinase, the rate limiting enzyme for the regulation of the glycolysis was measured. In addition the activities of succinate dehydrogenase and l-glycerol-3-phosphate: acceptor oxidoreductase to characterize the aerobic metabolism and the key role in gearing energy requirements to glycolysis respectively were biochemically determined. For further information about metabolic aspects the isoenzyme ratio of lactate dehydrogenase was established. In the present paper the histochemical findings are reported and discussed.Part of this study was taken from the Ph. D. thesis of A. C. Jöbsis (1971).     

Enzyme histochemical studies on the Purkinje fibres of the arrioventricular system of the bovine and porcine hearts

Synopsis In this communication the results of applying various histochemical semipermeable membrane techniques to the localization of several enzymes in bovine and procine heart are presented. The Purkinje fibres of the atrioventricular conducting system of the bovine heart differ from the myocardium proper in containing a greater activity of the glycolytic and gluconeogenetic enzymes—lactate dehydrogenase, glyceraldehyde-phosphate dehydrogenase, hexokinase, glucosephosphate isomerase and phosphoglucomutase, and less activity of the aerobic enzymes-NADH: nitroBT oxidoreductase and isocitrate dehydrogenase (NADP⁺). The metabolic reactions obtained with Purkinje fibres of the porcine heart are less pronounced. These histochemical findings are in accordance with the impression that Purkinje fibres, compared with the common myocardial fibres, have a higher rate of anaerobic metabolism and a lower rate of aerobic metabolism.The activity of the NADPH regenerating enzymes, glucose-6-phosphate dehydrogenase and phosphogluconate dehydrogenase (decarboxylating), and the activity of acid hydrolases such as non-specific esterase and acid phosphatase is higher in the Purkinje fibres of both the bovine and porcine heart.     

α-1,4-glucan phosphorylase forms from leaves of spinach (Spinacia oleracea L.)

Peptide patterns and immunological properties of the cytoplasmic and chloroplastic -1,4-glucan phosphorylase (EC 2.4.1.1) from spinach leaves have been studied and were compared with those of phosphorylases from other sources. The two spinach leaf phosphorylases were immunologically different; a limited cross-reactivity was observed only at high antigen or antibody concentrations. Peptide mapping of the two enzymes resulted in complex patterns composed of more than 20 fragments; but no peptide was electrophoretically identical in both proteins. Approximately 13 to 15 of the fragments exhibited antigeneity but no cross-reactivity of any peptide was observed. Therefore, the two compartment-specific phosphorylase forms from spinach leaves represent isoenzymes possessing different primary structures. Peptide patterns of potato tuber and rabbit muscle phosphorylase were different from those of the two spinach leaf enzymes. Although the potato tuber phosphorylase resides in the plastidic compartment and is kinetically closely related to the chloroplastic spinach enzyme, it reacted more strongly with the anti-cytoplasmic-phosphorylase immunoglobulin G. Similar results were obtained with rabbit muscle phosphorylase. These observations support the assumption that the chloroplast-specific phosphorylase isoenzyme has a higher structural diversity than does the cytoplasmic counterpart.Abbreviations EDTA ethylenediaminetetraacetic acid - Hepes 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid - PEG polyethylene glycol (approx. MW 8000) I=Schächtele and Steup 1986     

Phosphorylase activity as a histochemical marker of specialized tissue of heart

Synopsis Phosphorylase activity has been investigated histochemically under controlled conditions in the specialized tissue and the general myocardium of goat heart using glucose-1-phosphate as the substrate. It has been observed that the phosphorylase content of the nodal and conducting tissue is very high as compared to the general myocardium. The phosphorylase content of the cardiac neural elements is also high. Since the connective tissue which surrounds the nodal and conducting tissue has almost no phosphorylase activity, the nodal and conducting tissue is sharply demarcated by the histochemical reaction for phosphorylase. This reaction can, therefore, be used as a specific and expedient method for the localization of specialized tissue as an exploratory and confirmatory test.     

Subgrouping of fast twitch fibres in skeletal muscles of man

Summary Subgroups of fast twitch (FT) muscle fibres were identified by histochemical techniques on muscle samples of m. quadriceps femoris from six male and six female subjects, who had been assigned to three groups; untrained, active and well trained (endurance runners). Slow twitch (ST) and FT fibres were initially identified using the histochemical stain for myofibrillar ATPase, preincubated at pH 10.3 and 4.3. Three people, working independently, then identified the subgroups FTa and FTb on the basis of the staining intensity for only one of the following reactions: -glycerophosphate dehydrogenase, -GPD; NADH tetrazolium reductase, NADH-TR; and myofibrillar ATPase preincubated at pH 4.6, ATPase (4.6). FTa fibres were clearly distinguished from the darker staining FTb fibres using the ATPase (4.6) reaction. Differences in the staining within the FT fibres using the -GPD and NADH-TR reactions were more subtle, and differences between subject groups were evident. The percentage of FTa fibres was overestimated for the untrained and underestimated for the well trained subjects using NADH-TR. With the -GPD stain the percentage of FTa fibres was generally underestimated. When the data for all three stains were compared, only 27% of the FT fibres were placed in the same subgroups. These results demonstrate that the subgrouping of FT fibres in man is more reliable using the differences in pH sensitivity for the myofibrillar ATPase reaction compared to histochemical reactions for oxidative or glycolytic enzymes.     

Starch hydrolysing enzymes in the developing barley grain

Summary The enzymes -amylase (-1, 4-glucan 4-glucanohydrolase, 3.2.1.1), -amylase (-1,4-glucan maltohydrolase, 3.2.1.2) and phosphorylase (-1,4-glucan: orthophosphate glucosyltransferase, 2.4.1.1) were assayed in whole grains of barley throughout the maturation period. -amylase and phosphorylase had peaks of activity between 25 and 30 days after anthesis. On the other hand the activity of -amylase in both the available and latent forms reached a maximum value at 35 days after anthesis which did not decrease thereafter. -amylase activity was also assayed throughout development in the endosperm, aleurone, testa pericarp and embryo. Latent -amylase reached a constant maximum value in endosperm at 35 days but available -amylase reached a peak of activity at 25 days and then declined to zero at 45 days. Only latent -amylase was associated with the aleurone layer and activity rose to a maximum value at 35 days. The testa pericarp had mainly latent -amylase whose activity fell from an early maximum at 21 days to zero at 35 days. No hydrolytic activity was associated with the embryo. The phosphorylase activity was low and mainly associated with the endosperm fraction.     

Semipermeable membranes for improving the histochemical demonstration of enzyme activities in tissue sections

Summary Improved histochemical multi-step techniques for the demonstration of glucose 6-phosphate isomerase and phosphoglucomutase in tissue sections are described. With these techniques a semipermeable membrane is interposed between the incubating solutions and the tissue sections preventing diffusion of enzymes into the medium during incubation. In the histochemical system the glucosephosphate isomerase converts the substrate d-fructo-furanose 6-phosphoric acid to d-gluco-pyranose 6-phosphoric acid, and the phosphoglucomutase converts the substrate -d-glucose 1-phosphate to the same reagent, which in turn is oxidized, by exogenous and endogenous glucose 6-phosphate dehydrogenase to d-glucono--lactone 6-phosphoric acid. Concomittantly the electrons are transferred via NADP⁺, phenazine methosulphate and menadione to nitro-BT. Sodiumazide and amytal are incorporated to block electron transfer to the cytochromes.     

Comparative studies on the localization of esteroproteases and kallikrein-like activity in primate organs

Summary Various organs of three species of monkey were screened histochemically for esteroproteases usingN-acethyl-l-methionine--naphthylester ( N-O-met) as the substrate and also for enzymes with kallikrein-like activity usingd-Val-Leu-Arg-4-methoxy-2-naphthylamide as the substrate. Characteristic differences were found in the localization of the reaction products obtained with both substrates. In the main salivary glands, esteroproteases ( N-O-met reactivity) were found in mucous cells (submandibular gland), intercalated duct cells (parotid gland), acinar cells (sublingual gland), striated and interlobular duct cells (all glands). They were also localized in superficial lining epithelial cells of the digestive system, in liver cells, and acinar cells of the pancreas.Enzymes with kallikrein-like activity were found only in the striated and interlobular duct cells of salivary glands, in acinar cells of the pancreas, and in proximal tubular cells of the kidney. Free cells (including mast cells) normally distributed in the connective tissue of various organs showed reactivity towards N-O-met. Some of these cells were also reactive against Val-Leu-Arg-4-MNA.     

Histochemical and ultrastructural characteristics of a new muscle fibre type in avian striated muscle

Synopsis The serratus metapatagialis (SMP) muscle of the pigeon has been studied histochemically and ultrastructurally. At the gross anatomical level the SMP is clearly divisible into a peripheral whitish band and a red portion comprised predominantly of pale and red fibres respectively. The pale fibres possess low succinate dehydrogenase, low mitochondrial content, absence of subsarcolemmal mitochondrial aggregates, low fat, moderate glycogen, high phosphorylase, low-to-moderate regular myofibrillar adenosine triphosphatase (M-ATPase), activation of M-ATPase following acid preincubation and jagged Z bands. On the basis of these characteristics, these physiologically slow muscle fibres have been termed Type I white or slow-twitch glycolytic. The SMP red fibres, however, possess high aerobic as well as glycolytic capacity, high M-ATPase activity which is labile after acid preincubation and thick but straight Z bands; therefore, they are the Type II red or fast-twitch oxidative-glycolytic.Some of data in this paper was presented at the Anatomical Society of Australia and New Zealand, 1978.     

α-1,4-Glucan phosphorylase forms from leaves of spinach (Spinacia oleracea L.) I. In situ localization by indirect immunofluorescence

Antisera were raised against two forms of -1,4-glucan phosphorylase (EC 2.4.1.1) which had been purified from leaves of Spinacia oleracea L. Immunoglobulin G preparations were isolated from the antisera, and their specificity was ensured by immunoplobulin G preparations were used for in situ localization of the two phosphorylase forms in spinach leaf thin sections by indirect immuno-fluorescence. Both enzyme forms were present in the palisade and spongy parenchyma and in the guard cells, but their intracellular distribution was complementary. One phosphorylase form (designated as the chloroplastic form) was restricted to the stromal space of chloroplasts whereas the other (the non-chloroplastic form) was present only in the cytoplasm of chloroplast-containing cells. Thus, the phosphorylases represent two distinct compartment-specific enzyme forms which reside within the same photosynthetically active mesophyll cell.Abbreviations DBM diazobenzyloxymethyl - FITC fluorescein isothiocyanate - IgG immunoglobulin G - PMSF phenylmethylsulfonyl fluoride     

Endogenous sugar receptor pattern in human glioblastomas and gangliocytomas studied by histochemical application of biotinylated (neo)glycoproteins and affinity chromatography

Summary Biotinylation of chemically glycosylated bovine serum albumin, yielding a panel of neoglycoproteins, and of desialylated, naturally occurring glycoproteins allowed to systematically evaluate presence and distribution of various types of endogenous sugar receptors in the sections of human glioblastomas and gangliocytomas by a routine histochemical procedure. Pronounced cytoplasmic staining with markers, carrying constituents of natural glycoconjugates, e.g. for -galactoside-specific receptors, contrasted with the different intensities, noticed for - and -glucosidespecific receptors. Significant qualitative differences between the two tumor types were detected with N-acetyl-D-galactosamine-and sialic acid-carrying probes. Nuclear staining with only a part of the applied panel underscored the specificity of the protein-carbohydrate interaction. Fine structural features of the synthetic neoglycoproteins, e.g. the mode of coupling of the carbohydrate moiety to the protein, were found to exert a significant influence on their suitability as histochemical markers. On the basis of the histochemical results, exemplary biochemical analysis of certain classes of endogenous sugar receptors by affinity chromatography and subsequent gel electrophoresis, namely of -galactoside-, -fucoside-, -mannoside- and -glucoside-specific proteins, revealed presence and characteristics of respective sugar receptors that can contribute to the histochemical staining. Similar extent of histochemical staining with the respective probes notwithstanding, the different tumor types exhibited qualitative differences in the expression of individual endogenous sugar receptors. The combined histochemical and biochemical analysis is supposed to be of conspicuous value for biological and clinical investigations on endogenous sugar receptors.