Expression of facilitative glucose transporter in rat liver and choroid plexus. A histochemical study in native cryostat sections.

Two isoforms of facilitative glucose transporters (GLUT), namely the erythroid/brain-type GLUT 1 and the liver-type GLUT 2, were demonstrated in native cryostat sections of normal rat liver and brain by immunofluorescence and a very sensitive immunoalkaline phosphatase reaction. Fixation with 0.1% alcoholic periodic acid resulted in an excellent localization of GLUT 2 in liver and GLUT 1 in brain. GLUT 1 in liver, however, could successfully be demonstrated after fixation with 1% alcoholic formaldehyde. GLUT 2 occurred in all hepatocytes as a basolateral membrane protein with a gradient of high expression in the periportal area and a lower one in the perivenous part. The first layer of hepatocytes adjacent to the hepatic vein coexpressed GLUT 1. In addition, GLUT 1 could be detected in the smooth muscle layer of the portal vein and in the apical and lateral plasma membrane of the bile duct epithelium. In brain, GLUT 1 showed a high expression in the microvessels, the ependyma and in the basal plasma membrane of choroid plexus epithelial cells. The blood capillaries associated with the choroidal epithelium were, however, negative for GLUT 1. The importance of the new findings in this study for the physiological role of the respective facilitative glucose transport proteins is discussed.     

A cytophotometric and electron-microscopical study on catalase activity in serial cryostat sections of rat liver

Summary The validity of the histochemical procedure for demonstrating catalase activity in cryostat sections of rat liver at the light-and electron-microscopical level was studied cytophotometrically. Incubations in the presence of 5 mm diaminobenzidine, 44 mm hydrogen peroxide and 2% polyvinyl alcohol performed on fixed cryostat sections resulted in the highest amounts of final reaction product precipitated in a fine granular form which was specific for catalase activity. Serial sections processed for electron microscopy indicated that the osmiophilic final reaction product was exclusively localized in the matrix and core of peroxisomes. The relationship between incubation time and the amounts of final reaction product generated by catalase activity as measured at 460 nm in mid-zonal areas of liver lobules showed non-linearity for the test-minus-control reaction because first-order inactivation of the enzyme occurred during incubation. Linearity of the test-minus-control reaction and section thickness was observed up to 8 m. Catalase in rat liver showed a K_m value of 2.0 mm for its substrate hydrogen peroxide when the diaminobenzidine concentration was 5 mm. It is concluded that the procedure for demonstrating catalase activity in serial cryostat sections of rat liver at the light- and electron-microscopical level is specific and can be applied to quantitative purposes. This approach may be useful in pathology, when only small biopsies are available, when the tissue is heterogeneous, and when other histochemical markers also need to be studied in the same material.     

Diurnal variation in glycogen phosphorylase activity in rat liver. A quantitative histochemical study

The diurnal variations of the glycogen content and of glycogen phosphorylase activity in periportal and pericentral areas of rat liver parenchyma have been analyzed in periodic acid Schiff (PAS)-stained cryostat sections using quantitative microdensitometry. Glycogen content and phosphorylase activity were always higher in periportal areas than in pericentral areas throughout the daily cycle. The glycogen content was highest at the end of the active period during darkness and lowest at the end of the resting period. Phosphorylase activity appeared to be inversely correlated with the glycogen content in both areas. It is concluded that the glycogen content is regulated by phosphorylase activity, which may be due to local cAMP concentration.     

Diurnal variation in 5'-nucleotidase activity in rat liver. A quantitative histochemical study

The diurnal variation of 5'-nucleotidase activity in periportal and pericentral areas of rat liver parenchyma has been determined with quantitative histochemical means. 5'-Nucleotidase activity was estimated using microdensitometry in cryostat sections after being incubated with a medium according to Wachstein and Meisel (1957). It appeared that 5'-nucleotidase activity was significantly higher in pericentral areas than in periportal areas throughout the daily cycle and showed a maximum at the end of the light period. It was concluded that 5'-nucleotidase activity may be related with the capacity to diminish messenger RNA resulting in protein breakdown.     

The use of unfixed cryostat sections for electron microscopic study of D-amino acid oxidase activity in rat liver.

Unfixed cryostat sections of rat liver were incubated to demonstrate D-amino acid oxidase activity at the ultrastructural level. Incubation was performed by mounting the sections on a semipermeable membrane which was stretched over a gelled incubation medium containing D-proline as substrate and cerium ions as capture reagent for hydrogen peroxide. After an incubation period of 30 min, ultrastructural morphology was retained to such an extent that the final reaction product could be localized in peroxisomes, whereas the crystalline core remained unstained. Control incubations were performed in the absence of substrate; the lack of final reaction product in peroxisomes indicated the specificity of the reaction. We conclude that the semipermeable membrane technique opens new perspectives for localization of enzyme activities at the ultrastructural level without prior tissue fixation, thus enabling localization of the activity of soluble and/or labile enzymes.     

Quantitative histochemical study of the reaction kinetics to inosine-5-monophosphate dehydrogenase and 5'-nucleotidase in cryostat sections of rat liver

The data are presented on kinetics of histochemical enzymatic reactions demonstrating two enzymes taking part in the purine metabolism--inosine-5-monophosphate dehydrogenase (IMPD) and 5'-nucleotidase (5'-NT). It is shown that IMPD has a very weak affinity to substrate IMP (KM = 2.5 . 10(-2) M); this fact partially explains the low rate course in cryostat sections. Cytosol and membrane forms of 5'-NT have the maximum affinity to AMP (KM for membrane and cytosol forms being 1 . 10(-3) M and 2.1 . 10(-3) M, resp.). When IMP is used as a substrate, 5'-NT localized in cytosol has much lower KM as compared to the membrane form. Cytoplasmic 5'-NT is thermostable. It is suggested that a low rate of histochemical reaction demonstrating IMPD is caused by a degradation of substrate by the membrane form of 5'-NT, the Michaelis constant of which is 5 times less than that of IMPD.     

The effect of ischemia on glycogen phosphorylase activity in rat liver: a quantitative histochemical study

The effects of ischemia in vitro for 0-60 min at 37 degrees C on glycogen phosphorylase activity in rat liver have been studied under different feeding conditions. Glycogen phosphorylase activity was demonstrated with a recently developed quantitative histochemical method using a semipermeable membrane and the PAS-reaction. The cytophotometrically measured glycogen phosphorylase activity in livers from 24 h-fasted rats was approximately five times the activity in livers from normally fed rats. The activity in periportal areas was about 1.5 times higher than the activity in pericentral areas in livers from starved rats, but more or less evenly distributed in livers from fed rats. Enzyme activity in pericentral areas of livers from 24 h-fasted rats started to decrease after 20 min of ischemia. After 50-60 min of ischemia, the activity was decreased to approximately 25% of the control activity. Livers from normally fed rats showed unchanged activity in periportal and pericentral areas after 10-60 min of ischemia. It has been assumed that the activation of the enzyme was disturbed by ischemia, possibly as a consequence of plasma membrane damage.     

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.     

Cytospectrophotometric study of the kinetics of histochemical reaction of GABA-transaminase in cryostat sections of rat cerebellar cortex

Summary A modification of the histochemical method for demonstration of GABA-transaminase is proposed. Substrate and cofactor concentrations are chosen on the basis of a kinetic investigation in cryostat sections of the rat cerebellar cortex. Enzymatic reactions were measured by quantitative microspectrophotometry. Michaelis constants for -oxoglutarate in the Purkinje cell layer and granular layer (K_m 1.7×10^–3 M) and white matter (K_m 3,8×10^–3 M) are found. It is shown that -oxoglutarate in concentrations higher than 5.2×10^–3 M (1 mg/ml) suppresses the reaction in sections by competitive inhibition. The advisability of addition of malonate, PMS and cyanide to the incubation medium is confirmed. It is suggested that there are some isoenzymes of GABA-transaminase with predominant localization either in neurons or glia.     

A quantitative histochemical study of D-amino acid oxidase activity in rat liver in relationship with feeding conditions.

The histochemical method for the demonstration of D-amino acid oxidase activity in rat liver, based on the use of cerium ions and the diaminobenzidine-cobalt-hydrogen peroxide procedure, was improved by the application of unfixed cryostat sections and a semipermeable membrane interposed between section and gelled incubation medium. The amount of final reaction product precipitated in a granular form was about four times higher with this technique in comparison with conventional procedures using fixed sections and aqueous incubation media. The specificity of the reaction was proven by the 70% reduction of the amount of final reaction product when incubating in the presence of substrate and D,L-beta-hydroxybutyrate, a specific inhibitor of D-amino acid oxidase activity. Cytophotometric analysis of liver sections revealed that the specific test minus control reaction was linear with incubation time and section thickness. The Km value of the enzyme of 10.3 +/- 2.7 mM, as determined in periportal areas, is about five times the value found with biochemical methods in liver cell homogenates. The enzyme activity in periportal areas is about five times the activity in pericentral areas. Fasting (24 and 48 hr) induced a significant decrease in D-amino acid activity in periportal and pericentral areas. The possible physiological role of the enzyme in liver is discussed.     

Combined histochemical and biochemical investigation to the reliability of the demonstration of arylsulphatase activity in cryostat sections.

The reliability of the enzyme histochemical technique, for the demonstration of arylsulphatase activity, using 6-bromo-2-naphthylsulphate as a substrate, is biochemically tested by using partly purified lysosome and microsome preparations from fresh human placenta tissue. Microsomes from frozen placenta with an arylsulphatase deficiency and lysosomes from rat liver, are also investigated. For the biochemical test methods, 6-bromo-2-naphthylsulphate and p-nitrocatecholsulphate are used as substrates. Under similar reaction conditions, varying the pH of the incubation medium and adding inhibitors or activators, the histochemical and biochemical reactions are compared. The results of this study show that the enzyme histochemical technique--except for some limitations--is suitable for the demonstration of microsomal arylsulphatase in cryostat sections.     

Biochemical investigation to the reliability of the histochemical demonstration of microsomal arylsulphatase activity in cryostat sections

Summary Polyacrylamide gel-electrophoresis was performed with an extract from cultivated skin fibroblasts. Arylsulphatase activity is measured and visualised using the biochemical substrate dehydroepiandrosterone sulphate and the histochemical substrate 6-bromo-2-naphthyl sulphate respectively. The histochemical substrate was hydrolysed at Rf=0.49 and 0.58 while the biochemical substrate was hydrolysed only at 0.49. We conclude that two different microsomal arylsulphatases exist: a sulphatase able to hydrolyse steroid sulphatases (Rf=0.49) and one unable to hydrolyse steroid sulphatases (Rf=0.58). In consequence it is recommended to carry out an electrophoresis experiment after the histochemical investigation, in order to discriminate between these two types of sulphatase.     

Combined histochemical and biochemical investigation to the reliability of the demonstration of arylsulphatase activity in cryostat sections

Summary The reliability of the enzyme histochemical technique, for the demonstration of arylsulphatase activity, using 6-bromo-2-naphthylsulphate as a substrate, is biochemically tested by using partly purified lysosome and microsome preparations from fresh human placenta tissue. Microsomes from frozen placenta with an arylsulphatase deficiency and lysosomes from rat liver, are also investigated. For the biochemical test methods, 6-bromo-2-naphthylsulphate and p-nitrocatecholsulphate are used as substrates. Under similar reaction conditions, varying the pH of the incubation medium and adding inhibitors or activators, the histochemical and biochemical reactions are compared. The results of this study whow that the enzyme histochemical technique — except for some limitations — is suitable for the demonstration of microsomal arylsulphatase in cryostat sections.     

A histochemical study about changes in rat liver plasma membrane enzyme activities after galactosamine administration.

In rats changes in plasma membrane enzyme activities due to Gal-N intoxication were studied by enzymehistochemical methods. The bile canalicular 5'-nucleotidase and nucleoside polyphosphatase activities decreased; the sinusoidal 5'-nucleotidase remained unchanged. The bile canalicular leucyl-beta-naphthyl-amidase showed an increase in activity; the alkaline phosphatase activity remained unchanged. In contrast to the spotty necrosis, changes in plasma membrane enzyme activities were seen in all liver cells, suggesting that changes of these activities, occurring after Gal-N treatment, do not correlate with cell death. The conclusion was drawn that the deviations of the enzyme activities might be due to changes in the lipid environment of the enzyme proteins in the membrane. With the exception of alkaline phosphatase, partial hepatectomy caused the same changes in enzyme activities as did Gal-N intoxication. Nevertheless Gal-N administration to partial hepatectomized rats did not lead to hepatic necrosis. Galactose given simultaneously or within two hours after Gal-N prevented both changes in plasma membrane enzyme activities and hepatocellular damage. This suggests an important role of galactolipids and galactoproteins in the plasma membrane alterations.     

A quantitative histochemical study of NADPH-ferrihemoprotein reductase activity

Summary A quantitative histochemical assay for NADPH-ferrihemoprotein (P450) reductase had been developed. For optimal activity, it is necessary to use a relatively electropositive tetrazolium salt such as neotetrazolium chloride as the final acceptor. The apparentK _m of the reaction is 0.83 mM. Its specificity has been proven in two ways: (i) activity is increased selectively in the pericentral zone of liver from rats treated with phenobarbitone, an inducer of the reductase, though not in liver of rats injected with 3-methylcholanthrene, which induces NAD(P)H dehydrogenase; (ii) it is competitively inhibited by NADP⁺ (K _i=1.50mm) though unaffected by dicumarol, an inhibitor of NAD(P)H dehydrogenase activity. An NADP⁺ concentration ten times greater than the substrate concentration inhibits the histochemical reaction and the reaction in a microsomal fraction assayed biochemically to the same degree (70% inhibition). The amount of inhibition is independent of temperature, of the zone of the acinus and of the treatment of the animal.Continuous microdensitometric monitoring of the reaction product as it is formed has shown that the specific reaction is linear with incubation up to 10 min, thus allowing end-point measurements to be used for cytophotometric analysis.     

A histochemical study about the influence of lytic enzymes on plasma membrane enzyme activities in rat liver and kidney.

1. The effect of lipolytic, glycolytic and proteolytic enzymes on the activities of plasma membrane enzyme activities in rat liver and kidney has been investigated by a pretreatment of tissue sections with the lytic enzymes. 2. The action of the proteolytic enzymes causes a very strong decrease of leucyl-beta-naphthylamidase activity, whereas the activities of ATP-ase, 5'-nucleotidase and alkaline phosphatase show a lesser decrease. This indicates a different membrane anchorage of leucyl-beta-naphthylamidase as compared to that of the phosphatases. 3. Treatment with glycolytic enzymes results in a decrease of 5'-nucleotidase and ATP-ase activity, whereas liver alkaline phosphatase and leucyl-beta-naphthylamidase show an increase in activity. 4. Treatment with phospholipase C gives about the same results. The very strong decrease of 5'-nucleotidase activity indicates a great dependence on phospholipids.     

Direct fluorophotometric recording of enzyme kinetics in cryostat sections

Summary A technique is described for the monitoring of enzyme-catalyzed pyridine nucleotide reduction in cryostat sections. By virtue of the native fluorescence of NADPH the kinetics of glucose 6-phosphate dehydrogenase in the mouse endocrine pancreas could be studied in a microscope fluorophotometer. The development of fluorescence was most rapid at a pH of about 8.0. Apparent K _mvalues were 0.2 mM for glucose 6-phosphate and 2 mM for NADP. The reaction was enhanced by MgCl₂ (optimum concentration of about 2 mM) but insensitive to KCN and oxygen. The rates of fluorescence development appeared unaffected by NADPH diffusion.The observed K _mvalues are higher than those obtained by biochemical analysis of homogenized pancreatic islets. It is suggested that this discrepancy is due to the relative morphological integrity of the cryostat section. If the present data are more representative of the properties of the enzyme in the living cell than are the values obtained with disintegrated tissue, the phosphogluconate pathway in the pancreatic -cells could be regulated by both glucose 6-phosphate and NADP.     

A histochemical study of changes in mitochondrial enzyme activities of rat liver after ischemia in vitro

Changes in the activity of three mitochondrial enzymes in rat liver after in vitro ischemia have been determined by enzyme histochemical methods. The changes were correlated with the appearance in the electron microscope of flocculent densities in the mitochondria indicative of irreversible cell injury. The flocculent densities were observed in rat liver after about 2 h of ischemia in vitro at 37 degrees C. At the same time the activity of glutamate dehydrogenase, localized in the mitochondrial matrix, started to decrease. However, the activities of succinate dehydrogenase localized in the inner membrane of mitochondria, as well as monoamine oxidase of the mitochondrial outer membrane did not change at that stage. It is concluded from the results of this study and those of others that flocculent densities are formed by denaturation of proteins of the mitochondrial matrix in which glutamate dehydrogenase takes part. It should be considered more as a sign than as the cause of cell death.     

A histochemical study about changes in rat liver plasma membrane enzyme activities after galactosamine administration

Summary In rats changes in plasma membrane enzyme activities due to Gal-N intoxication were studied by enzymehistochemical methods. The bile canalicular 5-nucleotidase and nucleoside polyphosphatase activities decreased; the sinusoidal 5-nucleotidase remained unchanged. The bile canalicular leucyl--naphthyl-amindase showed an increase in activity; the alkaline phosphatase activity remained unchanged. In contrast to the spotty necrosis, changes in plasma membrane enzyme activities were seen in all liver cells, suggesting that changes of these activities, occurring after Gal-N treatment, do not correlate with cell death. The conclusion was drawn that the deviations of the enzyme activities might be due to changes in the lipid environment of the enzyme proteins in the membrane.With the exception of alkaline phosphatase, partial hepatectomy caused the same changes in enzyme activities as did Gal-N intoxication. Nevertheless Gal-N administration to partial hepatectomized rats did not lead to hepatic necrosis. Galactose given simultaneously or within two hours after Gal-N prevented both changes in plasma membrane enzyme activities and hepatocellular damage. This suggests an important role of galactolipids and galactoproteins in the plasma membrane alterations.Dedicated to Prof. Dr. E. Havinga on the occasion of his 70th birthday