Phosphorylase activity and glycogen content in cerebral and myocardium tissues in rats of different age

The phosphorylase activity (EC 2.4.1.1) and the glycogen content were determined in the brain and myocardium of adult and old rats. In the cortex and while substance of great cerebral hemispheres, the phosphorylase a activity decreases and the phosphorylase b activity increases, while the total enzyme activity remains unchanged with aging. In the myocardium, the activity of phosphorylase a increases, while that of phophorylase b decreases against a background of an insignificant decrease in the total phosphorylase activity. During aging, the glycogen content decreases sharply in the myocardium, whereas in the cerebral tissue it remains unchanged. Age peculiarities of the adrenaline effect upon myocardial phosphorylase activity are presented.     

Phosphorylase and gluco-6-phosphatase activity and glycogen level in tissues of vertebrates

The activity of phosphorylase (EC 2.4.1.1), glucose-6-phosphatase (EC 3.1.3.9) and the content of glycogen have been determined in tissues of fish, amphibians, reptiles, mammalians. No differences in the activity of phosphorylase and glucose-6-phosphatase in the liver, myocardium, and brain of animals of the phylogenetic groups under study are found. The activity of glucose-6-phosphatase in the anaerobic muscles of poikilothermal animals is found to be rather high. The share of phosphorylase a in the skeletal muscles and brain as well as the glycogen content in the brain of these animals is essentially higher than that of adult mammalians.     

Enzyme histochemical studies on the Purkinje fibres of canine, bovine and porcine hearts

Synopsis Whereas in ungulates the Purkinje fibres of the atrioventricular conducting system are highly characteristic cells, those in the canine heart are poorly differentiated and accordingly they cannot always be readily identified in histological sections. Consequently in this paper the results of various histochemical tests on bovine and porcine hearts have been compared with the view of evaluating them as dependable methods for identifying Purkinje fibres that are microscopically poorly differentiated.It appeared that, histochemically, canine Purkinje fibres differ consistently in similar ways and as markedly from the common myocardial fibres as the morphologically typical conducting fibres in bovine and porcine hearts. The conducting fibres distinguish themselves from the myocardium proper in containing more glycogen and fewer lipids, in possessing higher activities of the enzymes -glucan phosphorylase,l-glycerol-3-phosphate:menadione oxidoreductase, myosin adenosine triphosphatase and monoamine oxidase, as well as in possessing lower activities of several dehydrogenases, cytochrome oxidase, peroxidase and mitochondrial adenosine triphosphatase. The relatively high activity of -glucan phosphorylase in particular is striking. As the activity of this enzyme persists during periods of up to 20 min after death, the staining method for this enzyme provides a valuable technique for identifying Purkinje fibres even if they are cytologically poorly differentiated.It is of interest in relation to electrophysiological data that the histochemical properties are similar in Purkinje fibres derived from widely differing levels of the conducting system. From the present histochemical findings it may be assumed that, as compared with the myocardium proper, the Purkinje fibres have a higher rate of anaerobic and a lower rate of aerobic metabolism. Furthermore, it is pointed out that histochemically the differences between Purkinje fibres and common myocardial cells on the one hand, and those between white (Type II) and red (Type I) striated muscle fibres on the other, are essentially similar.     

Sensitivity and Specificity of Cardiac Tissue Discrimination Using Fiber-Optics Confocal Microscopy

Disturbances of the cardiac conduction system constitute a major risk after surgical repair of complex cases of congenital heart disease. Intraoperative identification of the conduction system may reduce the incidence of these disturbances. We previously developed an approach to identify cardiac tissue types using fiber-optics confocal microscopy and extracellular fluorophores. Here, we applied this approach to investigate sensitivity and specificity of human and automated classification in discriminating images of atrial working myocardium and specialized tissue of the conduction system. Two-dimensional image sequences from atrial working myocardium and nodal tissue of isolated perfused rodent hearts were acquired using a fiber-optics confocal microscope (Leica FCM1000). We compared two methods for local application of extracellular fluorophores: topical via pipette and with a dye carrier. Eight blinded examiners evaluated 162 randomly selected images of atrial working myocardium (n = 81) and nodal tissue (n = 81). In addition, we evaluated the images using automated classification. Blinded examiners achieved a sensitivity and specificity of 99.2±0.3% and 98.0±0.7%, respectively, with the dye carrier method of dye application. Sensitivity and specificity was similar for dye application via a pipette (99.2±0.3% and 94.0±2.4%, respectively). Sensitivity and specificity for automated methods of tissue discrimination were similarly high. Human and automated classification achieved high sensitivity and specificity in discriminating atrial working myocardium and nodal tissue. We suggest that our findings facilitate clinical translation of fiber-optics confocal microscopy as an intraoperative imaging modality to reduce the incidence of conduction disturbances during surgical correction of congenital heart disease.     

Histochemical studies on phosphorylase activity in the tissues of the albino rat under normal and experimental conditions

Summary Various substrate mixtures have been tested for the histochemical demonstration of phosphorylase in tissue blocks. These studies indicate that phosphorylase activity, cytological detail and localization of the reaction product are optimally demonstrated when tissue blocks are incubated for one hour or longer in a medium containing high concentrations of G-1-P, ATP and PVP.Abbreviations AMP adenosine-5-monophosphate - ATP adenosine-5-triphosphate - EDTA ethylenediamine-tetraacetic acid - G-1-P glucose-1-phosphate - PPa active phosphorylase - PPb inactive phosphorylase - PVP polyvinyl pyrrolidone     

Sudden Death in Infancy: A Study of Cardiac Specialized Tissue

The hearts from 15 cot death patients have been compared with those of 15 controls. In one of the cot death patients an accessory atrioventricular connexion known to be capable of producing ventricular pre-excitation and sudden death was identified. In all hearts examined additional segments of specialized tissue were found in relation to the atrioventricular orifices which may have been significant in producing pre-excitation. Haemorrhagic lesions were present in the atrial myocardium and conducting tissues of hearts from both groups, but no evidence was found of cellular degeneration in the atrioventricular bundle. There is a need for further studies of conducting tissues in sudden death syndromes.     

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.     

Electrical activation of the ventricular myocardium of the crocodile Crocodylus johnstoni: a combined microscopic and electrophysiological study.

We mapped the sequence of ventricular depolarization in the crocodile Crocodylus johnstoni. We also attempted to find specialized conduction tissue within the ventricular myocardium. Electrical recordings with miniature multi-point electrodes revealed two strands of rapidly conducting tissue (channels) within the interventricular septum, suggestive of conductive tissue pathways. From these septal channels, wavefronts of excitation swept around each ventricle. Electrical recordings did not indicate that there was conductive tissue in the wall of either ventricle. Similarly, microscopic studies of the septal channels provided no indication of specialized conductive tissue. We suggest that the channels of early septal depolarization provide the crocodile heart with a high speed depolarization pathway functionally analogous to a rudimentary conductive system.     

Electron microscopical study of a cytosolic enzyme in unfixed cryostat sections: demonstration of glycogen phosphorylase activity in rat liver and heart tissue

Summary Glycogen phosphorylase activity has been demonstrated at the ultrastructural level in liver and heart tissue of fasted rats. Unfixed cryostat sections were incubated by mounting them on a semipermeable membrane stretched over a gelled incubation medium. The medium contained a high concentration of glucose 1-phosphate which enables indirect detection of glycogen phosphorylase activity on the basis of the synthesis of glycogen. Tissue fixation, dehydration and embedding for electron microscopical study were performed after the incubation had been completed. The ultrastructure of both liver and heart tissue was rather well preserved. Glycogen granules resulting from glycogen phosphorylase activity were found in the cytoplasmic matrix of both hepatocytes and cardiomyocytes; no relationship with membranous structures could be detected. It is concluded that the semipermeable membrane method is well suited for localizing cytosolic enzyme activities at the ultrastructural level without prior tissue fixation; this opens further perspectives for correlations between histochemical and biochemical data.     

Metabolism of the reserve polysaccharide of Streptococcus mitior (mitis): is there a second alpha-1,4-glucan phosphorylase?

The alpha-1,4-glucan phosphorylase (alpha-1,4-glucan: orthophosphate glucosyltransferase; EC 2.4.1.1) associated with the particulate cell fraction of Streptococcus mitior strain S3 was compared with the soluble maltodextrin phosphorylase that had been previously isolated from the same organism (Walker et al., 1969). The particulate enzyme was more sensitive to the glycogen content of the cell than the soluble euzyme; its activity was highest when the cells were grown under conditions favoring high glycogen storage. Substrate specificities of the two high activity towards endogenous glycogen, whereas low-molecular-weight maltodextrins were the preferred substrates for the soluble phosphorylase. The purification of the particulate phosphorylase included incubation of the particulate fraction in 160 mM sodium phosphate-10 mM sodium citrate-0.1% (wt/vol) Triton X-100 buffer (pH 6.7) and ion-exchange chromatography on diethylamino-ethyl- Sephadex A-50. The purified enzyme was fully soluble. The value for the purification factor was variable and depended on (i) the substrate used and (ii) whether the synthetic or the degradative reaction was being measured. The solubilization resulted in considerable changes in the properties of the phosphorylase: the pH optimum for activity was raised from 6.0 to 7.0-7.5 and the substrate specificity was altered. Consequently, the purified enzyme bore greater similarity to the soluble maltodextrin phosphorylase. The reported results are best explained in terms of a single phosphorylase, the specificity which is determind by its binding state in the cell. The enzyme acts as a glycogen phosphorylase in the particulate state and as a maltodextrin phosphorylase when soluble. The equilibrium between the two forms is related to the glycogen content of the cells.     

Tissue composition of the sinoauricular area of the human heart (a quantitative electron microscopic analysis)

An original technique for fixation, treatment and oriented embedding of the sinoauricular area material of the human heart makes it possible to study ultrastructure of the conducting myocardial in the sinus node (SN) and that of the parasinusoid working myocardium in the right atrium (RA), while the spatial interrelations, between the structures of the area examined are fully kept intact. Quantitative analysis of the SN and RA myocardial tissue composition has been performed. Contents of muscular, connective tissue, vascular and nervous components in the SN and RA have been estimated in hearth of 8 men died from causes not connected with any heart disease. Informativity degree of each component studied is discussed for differentiating the SN conducting myocardium from the RA working myocardium in ultrastructural investigations of the human heart in autopsies.     

Age-related changes of glycogen metabolism in human fetal heart

The changes in the activities of three important glycogen metabolising enzymes, viz. glycogen synthetase, glycogen phosphorylase and alpha-D-glucosidase, along with glycogen content have been measured in adult human heart and human fetal heart collected at 13-36 weeks of gestation. At an early period, particularly 13-16 weeks of gestational age, the activity of glycogen synthetase and glycogen content were found to be maximum. However the activity of glycogen phosphorylase remained constant throughout the gestation and that of alpha-D-glucosidase showed a peak at 25-28 weeks of gestation, thereby indicating that fetal heart tissue has the capacity to utilise glycogen for energy.     

Extracellular superoxide dismutase and other superoxide dismutase isoenzymes in tissues from nine mammalian species.

The contents of extracellular superoxide dismutase, CuZn superoxide dismutase and Mn superoxide dismutase were determined in tissues from nine mammalian species. The pattern of CuZn superoxide dismutase distribution was similar in all species, with high activity in metabolically active organs such as liver and kidney and low activity in, for example, skeletal muscle. Mn superoxide dismutase activity was high in organs with high respiration, such as liver, kidney, and myocardium. Overall the Mn superoxide dismutase activity in organs was almost as high as the CuZn superoxide dismutase activity. The content of extracellular superoxide dismutase was, almost without exception, lower than the content of the other isoenzymes. The pattern of tissue distribution was distinctly different from those of CuZn superoxide dismutase and Mn superoxide dismutase. The tissue distribution of extracellular superoxide dismutase differed among species, but in general there was much in lungs and kidneys and little in skeletal muscle. In man, pig, sheep, cow, rabbit and mouse the overall tissue extracellular superoxide dismutase activities were similar to each other, whereas dog, cat and rat tissues contained distinctly less. There was no general correlation between the tissue extracellular superoxide dismutase activity of any of the various species and the variable plasma activity. The ratio between the plasma and the overall tissue activities was high, for some species over unity, providing further evidence for the notion that one role of extracellular superoxide dismutase is as a plasma protein.     

Histochemistry of the carbohydrate metabolism in cysts of Toxoplasma gondii (author's transl)]

Mice were infected with cysts of the ALT strain Toxoplasma by intraperitoneal injection. After 2-8 weeks disseminated cysts could be demonstrated in the brain tissue. All cysts showed identical histochemical characteristics, independent of their sizes or their cell number. The encysted organisms were intensely stained after the PAS-reaction. This polysaccharide is highly diastase and acid resistant. Glycogen synthetase activity could not be demonstrated, but phosphorylase activity was very high. The energy metabolism was characterized by a high lactate dehydrogenase activity, whereas the reaction for succinate dehydrogenase activity only leads to sparse deposits of reaction products. The carbohydrate content is interpreted to be not only a store of energy substrate but also a store of biosynthetic substrate. It is assumed that a part of the liberated glucose at high activities of G-6-P-DH and 6-P-G-DH is metabolized by the hexose monophosphate shunt, the pentoses of which may contribute to nucleic acid synthesis which is necessary for the proliferation of the encysted organisms.     

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.).     

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.     

Glycogen Metabolism in Bovine Adrenal Medulla

Abstract: Glycogen content was determined both in whole adrenal medullary tissue and in isolated adrenal chromaffin cells, in which it responds to glucose deprivation and restoration. [¹⁴C]glucose incorporation into glycogen in isolated adrenal chromaffin cells is increased by previous glucose deprivation ("fasting"). Total glycogen synthase activities are 452 ± 66 mU/g in whole tissue and 305 ± 108 mU/g in isolated cells. The K _m of glycogen synthase for UDP-glucose is 0.67 mM with 13 m m glucose-6-phosphate and 1 m m without this effector. The in vitro inactivation process of glycogen synthase a has been found to be mainly cyclic AMP-dependent, but it also responds to Ca²⁺. Total glycogen phosphorylase activities are 8.69 ± 1.26 U/g in whole tissue and 2.38 ± 0.30 U/g in isolated cells. The requirements for interconversion in vitro of both glycogen synthase and phosphorylase suggest a system similar to that of other tissues. During incubation of isolated adrenal chromaffin cells with 5 m m -glucose, phosphorylase a activity decreases and synthase a activity increases; these changes are more marked in "fasted" cells. Glycogen content and glycogen synthase and phosphorylase activities are higher in the adrenal medulla than in the brain, suggesting a greater metabolic role of glycogen in the adrenal medulla.     

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.     

Adaptive changes in the myocardium of patients with ischemic heart disease

Changes in the human heart muscle resulting from chronic coronary insufficiency have been analyzed using biopsies taken during surgery from nine patients with ischemic heart disease (IHD) and six patients with the WPW syndrome (without IHD). Histochemical analysis have shown that the atrial myocardium in IHD patients is characterized by an increased density of the microvascular network, increased phosphorylase activity, and decreased succinate dehydrogenase activity. Virtually the same changes have proved to occur in the myocardium of rats adapted to hypoxia by means of repeated exposure in a low-pressure chamber. According to the results of two-dimensional electrophoresis and immunoblotting, acid (but not alkaline) isoforms of inducible HSP70 proteins appear in the myocardium of IHD patients. It is concluded that the myocardium of IHD patients undergoes adaptive changes at the tissue level in response to repeated exposure to ischemia in the course of development of this disease. It is proposed that activation of the synthesis of alkaline HSP70 isoforms in the myocardium of cardiological patients may provide the possibility of improving its resistance to the impact of ischemia and reperfusion (this possibility is not realized under conditions of IHD).     

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

Summary A new histochemical method for light microscopic demonstration of liver glycogen phosphorylase activity has been introduced in this study.The method demonstrates phosphorylase activity by precipitating phosphate ions, liberated in the reaction catalyzed by the enzyme, with Fe⁺⁺ present in the incubating medium. The precipitate is visualized as ferrous sulphide.The new glycogen, formed in the same reaction, can also be demonstrated in this method after staining with iodine.The lobular localization of the reaction products obtained according to this method in the liver, corresponds well to that obtained according to earlier methods for the demonstration of only new-formed glycogen.