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2. Distribution intracellulaire de l'exonucléase acide dans le foie de rat.

Author

van Dyck, J. M. and Wattiaux, R.

Subjects
*DNA, *LIVER, *CYTOCHROMES, *ENZYMES, *MITOCHONDRIA, *ENDOPLASMIC reticulum
Abstract

Acid exonuclease activity of rat liver has been determined with the help of DNA core as substrate, The intracellular distribution of the enzyme has been investigated by differential centrifugation of homogenates and compared with those of cytochrome oxidase, acid phosphatase and glucose-6-phosphatase used as reference enzymes for mitochondria, lysosomes and endoplasmic reticulum respectively. Acid exonuclease is principally associated with mitochondrial fractions and exhibits a distribution pattern similar to that of acid phosphatase. After isopyenic centrifugation in a sucrose gradient of a total mitoehondrial fraction, acid exonuclease like acid phosphatase shows a relatively flattened distribution curve with a median equilibrium density of about 1.2. The injection to the rat of Triton WR -1339, which lowers the equilibrium density of lysosomal enzymes has a similar effect on acid exonuclease. Acid exonuclease exhibits the phenomenom of structurelinked latency. it is concluded that acid exonuclease is associated with the lysosomes in rat liver. Separation between acid DNase and acid exonuelease associated with lysosomes can be performed by chromatography on hydroxyapatite of an extract of purified granules. The complementary action of the two enzymes in lysosomal digestion of DNA is illustrated, [ABSTRACT FROM AUTHOR]

Published
1968
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3. Subcellular localization of transglutaminase. Effect of collagen

Author

Juprelle-Soret, M, Wattiaux-De Coninck, S, and Wattiaux, R

Abstract

1. The subcellular distribution of transglutaminase was investigated by using the analytical approach of differential and isopycnic centrifugation as applied to three organs of the rat: liver, kidney and lung. After differential centrifugation by the method of de Duve, Pressman, Gianetto, Wattiaux & Appelmans [(1955) Biochem. J. 63, 604-617], transglutaminase is mostly recovered in the unsedimentable fraction S and the nuclear fraction N. After isopycnic centrifugation of the N fraction in a sucrose density gradient, a high proportion of the enzyme remains at the top of the gradient; a second but minor peak of activity is present in high-density regions, where a small proportion of 5′-nucleotidase, a plasma-membrane marker, is present together with a large proportion of collagen recovered in that fraction. 2. Fractions where a peak of transglutaminase was apparent in the sucrose gradient were examined by electron microscopy. The main components are large membrane sheets with extracellular matrix and free collagen fibers. 3. As these results seem to indicate that some correlation exists between particulate transglutaminase distribution and those of collagen and plasma membranes, the possible binding of transglutaminase by collagen (type I) and by purified rat liver plasma membrane was investigated. 4. The binding studies indicated that collagen is able to bind transglutaminase and to make complexes with plasma-membrane fragments whose density is higher than that of plasma-membrane fragments alone. Transglutaminase cannot be removed from such complexes by 1% Triton X-100, but can be to a relatively large extent by 0.5 M-KCl and by 50% (w/v) glycerol. 5. Such results suggest that the apparent association of transglutaminase with plasma membrane originates from binding in vitro of the cytosolic enzyme to plasma membrane bound to collagen, which takes place during homogenization of the tissue, when the soluble enzyme and extracellular components are brought together.

Published
1988
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5. Effect of a transitory ischaemia on the structure-linked latency of rat liver acid phosphatase and β-galactosidase

Author

Wattiaux, R and Wattianx-De Coninck, S

Abstract

The structure-linked latency of acid phosphatase and beta-galactosidase was studied in rat liver lobes made ischaemic for 1 or 2 h and then recirculated with blood for increasing periods. Free activity of acid phosphatase and unsedimentable activity of beta-galactosidase are increased in homogenates of ischaemic livers. When ischaemia had been maintained for 1 h, the recovery of normal latency for both enzymes was observed 1 h after re-establishment of the blood flow. After a 2 h period of ischaemia, unmasked activity markedly decreases during the first 1 h after restoration of blood flow; after that, a large and irreversible secondary rise takes place. Chlorpromazine, injected 30 min before or just after induction of ischaemia, extensively prevents the latency decrease occurring during restoration of blood flow. Modifications of the hydrolase distribution pattern obtained after differential centrifugation are in agreement with the latency changes. These results suggest that a 2 h ischaemia causes an alteration of the liver lysosomes that is largely reversible and that restoration of blood flow induces an irreversible alteration of these organelles. Chlorpromazine treatment prevents the irreversible lesion from taking place.

Published
1981
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6. Isolation of rat liver lysosomes by isopycnic centrifugation in a metrizamide gradient.

Author

Wattiaux, R, Wattiaux-De Coninck, S, Ronveaux-dupal, M F, and Dubois, F

Abstract

A preparation, similar to the light mitochondrial fraction of rat liver (L fraction of de Duve et al, (1955, Biochem. J. 60: 604-617), was subfractionated by isopycnic centrifugation in a metrizamide gradient and the distribution of several marker enzymes was established. The granules were layered at the top or bottom of the gradient. In both cases, as ascertained by the enzyme distributions, the lysosomes are well separated from the peroxisomes. A good separation from mitochondria is obtained only when the L fraction if set down underneath the gradient. Taking into account the analytical centrifugation results, a procedure was devised to purify lysosomes from several grams of liver by centrifugation of an L fraction in a discontinuous metrizamide gradient. By this method, a fraction containing 10--12% of the whole liver lysosomes can be prepared. As inferred from the relative specific activity of marker enzymes, it can be estimated that lysosomes are purified between 66 and 80 times in this fraction. As ascertained by plasma membrane marker enzyme activity, the main contaminant could be the plasma membrane components. However, cytochemical tests for 5'AMPase and for acid phosphatase suggest that a large part of the plasma membrane marker enzyme activity present in the purified lysosome preparation could be associated with the lysosomal membrane. The procedure for the isolation of rat liver lysosomes described in this paper is compared with the already existing methods.

Published
1978
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7. Effect of glycyl-l-phenylalanine 2-naphthylamide on invertase endocytosed by rat liver

Author

Jadot, M and Wattiaux, R

Abstract

The release by glycyl-L-phenylalanine 2-naphthylamide (Gly-L-Phe-2-NNap) of endocytosed invertase associated with the MLP fraction (sum of the M, L and P fractions [de Duve, Pressman, Gianetto, Wattiaux & Appelmans (1955) Biochem. J. 63, 604-617]) of rat liver was investigated and compared with the release of cathepsin C. The percentage of invertase released increases with time after the enzyme injection, whereas the release of cathepsin C is not influenced by this treatment and corresponds to 85-90% of the total activity of the enzyme. It takes about 2h to attain a similar release of both enzymes. The quantity of invertase releasable or not by Gly-L-Phe-2-NNap was plotted against the time after the injection. Results agree well with the hypothesis that unreleasable invertase is associated with a pre-lysosomal compartment, whereas releasable invertase is present in lysosomes. A kinetic analysis indicates that invertase enters the pre-lysosomal compartment with a zero-order rate constant of 0.48 unit/min per g fresh wt., and leaves this compartment with a first-order rate constant of 0.042 min-1.

Published
1985
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8. Intralysosomal hydrolysis of glycyl-l-phenylalanine 2-naphthylamide

Author

Jadot, M, Colmant, C, Wattiaux-De Coninck, S, and Wattiaux, R

Abstract

Glycyl-L-phenylalanine 2-naphthylamide (Gly-L-Phe-2-NNap), a cathepsin C substrate, induces an increase of the free and unsedimentable activities of this enzyme when incubated with a total mitochondrial fraction of rat liver. 1 mM-ZnSO4 considerably inhibits the cathepsin C total activity, measured with Gly-L-Phe-2-NNap as the substrate, in the presence of Triton X-100. The inhibition is markedly less pronounced when the free activity is determined; a high activity remains that depends on the integrity of the lysosomes; it decreases as the free activity of N-acetylglucosaminidase increases when lysosomes are subjected to treatments able to disrupt their membrane. Cathepsin C activity is reduced when thioethylamine hydrochloride is omitted from the incubation medium. Under these conditions at 37 degrees C, the free activity equals the total activity, although the lysosomes are intact, as indicated by the low free activity of N-acetylglucosaminidase. 1 mM-ZnSO4 strikingly inhibits the total activity, whereas more than 80% of the free activity remains. These observations are presented as evidence that Gly-L-Phe-2-NNap can possibly cause a disruption of the lysosomes as a result of its hydrolysis inside these organelles. In the presence of ZnSO4, intralysosomal hydrolysis becomes apparent, owing to a preferential inhibition by Zn2+ of extralysosomal hydrolysis; in the absence of thioethylamine hydrochloride, it is measurable because the disruption of lysosomes by Gly-L-Phe-2-NNap is delayed as a result of a slow-down of the reaction. The usefulness of Gly-L-Phe-2-NNap and related dipeptidyl naphthylamides in lysosomal-membrane-permeability studies is emphasized.

Published
1984
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9. The permeability of lysosomes to sugars. Effect of diethylstilbestrol on the osmotic activation of lysosomes induced by glucose

Author

Jadot, M, Wattiaux-De Coninck, S, and Wattiaux, R

Abstract

We have investigated the effect on the osmotic activation of rat liver lysosomes, by glucose penetration, of different substances known to inhibit the glucose transport through the plasma membrane. Diethylstilbestrol is the most efficient, particularly when purified lysosomes are used. It has no effect on osmotic activation induced by hypo-osmotic sucrose or by iso-osmotic KCl. It is proposed that diethylstilbestrol reacts with specific sites involved in the glucose translocation through the lysosomal membrane. These sites could not be identified by binding experiments, presumably owing to the considerable unspecific binding of the compound to the membrane.

Published
1989
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25. Lysosomes and Fas-mediated liver cell death.

Author

Wattiaux R, Wattiaux-de Coninck S, Thirion J, Gasingirwa MC, and Jadot M

Subjects
Animals, Caspase 3 metabolism, Cell Death, Cell Fractionation, Female, Hepatocytes cytology, Hepatocytes physiology, Humans, Jurkat Cells, Liver physiology, Mice, Mice, Inbred Strains, Liver cytology, Lysosomes physiology, fas Receptor physiology
Abstract

A number of studies, mostly performed ex vivo, suggest that lysosomes are involved in apoptosis as a result of a release of their cathepsins into the cytosol. These enzymes could then contribute to the permeabilization of the outer mitochondrial membrane; they could also activate effector caspases. The present study aims at testing whether the membrane of liver lysosomes is disrupted during Fas-mediated cell death of hepatocytes in vivo, a process implicated in several liver pathologies. Apoptosis was induced by injecting mice with aFas (anti-Fas antibody). The state of lysosomes was assessed by determining the proportion of lysosomal enzymes (beta-galactosidase, beta-glucuronidase, cathepsin C and cathepsin B) present in homogenate supernatants, devoid of intact lysosomes, and by analysing the behaviour in differential and isopycnic centrifugation of beta-galactosidase. Apoptosis was monitored by measuring caspase 3 activity (DEVDase) and the release of sulfite cytochrome c reductase, an enzyme located in the mitochondrial intermembrane space. Results show that an injection of 10 microg of aFas causes a rapid and large increase in DEVDase activity and in unsedimentable sulfite cytochrome c reductase. This modifies neither the proportion of unsedimentable lysosomal enzyme in the homogenates nor the behaviour of lysosomes in centrifugation. Experiments performed with a lower dose of aFas (5 microg) indicate that unsedimentable lysosomal hydrolase activity increases in the homogenate after injection but with a marked delay with respect to the increase in DEVDase activity and in unsedimentable sulfite cytochrome c reductase. Comparative experiments ex vivo performed with Jurkat cells show an increase in unsedimentable lysosomal hydrolases, but much later than caspase 3 activation, and a release of dipeptidyl peptidase III and DEVDase into culture medium. It is proposed that the weakening of lysosomes observed after aFas treatment in vivo and ex vivo results from a necrotic process that takes place late after initiation of apoptosis.

Published
2007
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26. Effects of methylcyclodextrin on lysosomes.

Author

Jadot M, Andrianaivo F, Dubois F, and Wattiaux R

Subjects
Cathepsin C metabolism, Centrifugation, Isopycnic, Dipeptides pharmacology, Glucose metabolism, Humans, Hydrostatic Pressure, Hypotonic Solutions, Isotonic Solutions, Lysosomes enzymology, Osmotic Pressure, Permeability, Phosphodiesterase I, Phosphoric Diester Hydrolases metabolism, Tumor Cells, Cultured, beta-Galactosidase metabolism, Cyclodextrins pharmacology, Lysosomes drug effects, beta-Cyclodextrins
Abstract

The cholesterol complexing agent methyl-cyclodextrin (MCD) provides an efficient mean for the removal of cholesterol from biological membranes. In order to study the effects of this agent on the lysosomal membrane in situ, we treated HepG2 cells with MCD and studied the effects of this treatment on lysosomes in isolated fractions. We found that lysosomes prepared from treated cells are more sensitive to various membrane perturbing treatments such as: incubation of lysosomes in isotonic glucose, in hypotonic sucrose or in the presence of the lytic agent glycyl-L-phenylalanine 2-naphthylamide. The lysosomal membrane is also less resistant to increased hydrostatic pressure. Centrifugation methods were used to analyse the effect of MCD on lysosomes. Isopycnic centrifugation in sucrose density gradients demonstrates that the drug induces a reversible density increase of the lysosomes. Our study indicates that extracellularly added MCD can modify the properties of the lysosomal membrane in living cells. It suggests that MCD could be an effective tool to modulate the physical properties of lysosomes within intact cells and to monitor the cellular responses to such modifications.

Published
2001
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27. Identification of HE1 as the second gene of Niemann-Pick C disease.

Author

Naureckiene S, Sleat DE, Lackland H, Fensom A, Vanier MT, Wattiaux R, Jadot M, and Lobel P

Subjects
Amino Acid Sequence, Animals, Biological Transport, CHO Cells, Cell Membrane metabolism, Cells, Cultured, Cricetinae, Culture Media, Conditioned, Fibroblasts metabolism, Glycoproteins chemistry, Glycoproteins pharmacology, Humans, Molecular Sequence Data, Mutation, Niemann-Pick Diseases metabolism, Rats, Receptor, IGF Type 2 metabolism, Recombinant Proteins metabolism, Recombinant Proteins pharmacology, Transfection, Vesicular Transport Proteins, Carrier Proteins, Cholesterol metabolism, Glycoproteins genetics, Glycoproteins metabolism, Lysosomes metabolism, Niemann-Pick Diseases genetics
Abstract

Niemann-Pick type C2 disease (NP-C2) is a fatal hereditary disorder of unknown etiology characterized by defective egress of cholesterol from lysosomes. Here we show that the disease is caused by a deficiency in HE1, a ubiquitously expressed lysosomal protein identified previously as a cholesterol-binding protein. HE1 was undetectable in fibroblasts from NP-C2 patients but present in fibroblasts from unaffected controls and NP-C1 patients. Mutations in the HE1 gene, which maps to chromosome 14q24.3, were found in NP-C2 patients but not in controls. Treatment of NP-C2 fibroblasts with exogenous recombinant HE1 protein ameliorated lysosomal accumulation of low density lipoprotein-derived cholesterol.

Published
2000
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28. Subcellular localization of mannose 6-phosphate glycoproteins in rat brain.

Author

Jadot M, Lin L, Sleat DE, Sohar I, Hsu MS, Pintar J, Dubois F, Wattiaux-De Coninck S, Wattiaux R, and Lobel P

Subjects
Animals, Biological Transport, Lysosomes metabolism, Male, Neurons metabolism, Neurons ultrastructure, Rats, Rats, Wistar, Brain metabolism, Mannosephosphates metabolism
Abstract

The intracellular transport of soluble lysosomal enzymes relies on the post-translational modification of N-linked oligosaccharides to generate mannose 6-phosphate (Man 6-P) residues. In most cell types the Man 6-P signal is rapidly removed after targeting of the precursor proteins from the Golgi to lysosomes via interactions with Man 6-phosphate receptors. However, in brain, the steady state proportion of lysosomal enzymes containing Man 6-P is considerably higher than in other tissues. As a first step toward understanding the mechanism and biological significance of this observation, we analyzed the subcellular localization of the rat brain Man 6-P glycoproteins by combining biochemical and morphological approaches. The brain Man 6-P glycoproteins are predominantly localized in neuronal lysosomes with no evidence for a steady state localization in nonlysosomal or prelysosomal compartments. This contrasts with the clear endosome-like localization of the low steady state proportion of mannose-6-phosphorylated lysosomal enzymes in liver. It therefore seems likely that the observed high percentage of phosphorylated species in brain is a consequence of the accumulation of lysosomal enzymes in a neuronal lysosome that does not fully dephosphorylate the Man 6-P moieties.

Published
1999
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29. Uptake by rat liver and intracellular fate of plasmid DNA complexed with poly-L-lysine or poly-D-lysine.

Author

Laurent N, Wattiaux-De Coninck S, Mihaylova E, Leontieva E, Warnier-Pirotte MT, Wattiaux R, and Jadot M

Subjects
Animals, Biological Transport drug effects, Cations metabolism, Hydrolysis, Lysosomes metabolism, Male, Polyethylene Glycols pharmacology, Rats, Rats, Wistar, Stereoisomerism, Subcellular Fractions metabolism, Transfection, Genetic Vectors metabolism, Liver metabolism, Plasmids metabolism, Polylysine metabolism
Abstract

Efficiency of transfection is probably dependent on the rate of intracellular degradation of plasmid DNA. When a non-viral vector is used, it is not known to what extent the plasmid DNA catabolism is subordinated to the catabolism of the vector. In the work reported here, the problem was approached by following the intracellular fate in rat liver, of plasmid [35S]DNA complexed with a cationic peptide poly-L-lysine that can be hydrolyzed by cellular peptidases or with its stereoisomer, poly-D-lysine, that cannot be split by these enzymes. Complexes of DNA with poly-L-lysine and poly-D-lysine are taken up to the same extent by the liver, mainly by Kupffer cells, but the intracellular degradation of nucleic acid molecules is markedly quicker when poly-L-lysine is injected. The association of DNA with the polycations inhibits DNA hydrolysis in vitro by purified lysosomes but similarly for poly-L-lysine and poly-D-lysine. The intracellular journey followed by [35S]DNA complexed with poly-L- or poly-D-lysine was investigated using differential and isopycnic centrifugation. Results indicate that [35S]DNA is transferred more slowly to lysosomes, the main site of intracellular degradation of endocytosed macromolecules, when it is given as a complex with poly-D-lysine than with poly-L-lysine. They suggest that the digestion of the vector in a prelysosomal compartment is required to allow endocytosed plasmid DNA to rapidly reach lysosomes. Such a phenomenon could explain why injected plasmid DNA is more stable in vivo when it is associated with poly-D-lysine.

Published
1999
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30. Cationic lipids destabilize lysosomal membrane in vitro.

Author

Wattiaux R, Jadot M, Warnier-Pirotte MT, and Wattiaux-De Coninck S

Subjects
Animals, Cations, Cell-Free System, DNA chemistry, Hydrogen-Ion Concentration, Male, Plasmids, Rats, Rats, Wistar, Transfection methods, beta-Galactosidase metabolism, Fatty Acids, Monounsaturated chemistry, Intracellular Membranes chemistry, Lipids chemistry, Lysosomes chemistry, Quaternary Ammonium Compounds chemistry
Abstract

Addition of cationic lipids to plasmid DNA considerably increases the efficiency of transfection. The mechanism has not yet been elucidated. A possibility is that these compounds destabilize biological membranes (plasma, endosomal, lysosomal), facilitating the transfer of nucleic molecules through these membranes. We have investigated the problem by determining if a cationic lipid N-(1-(2,3-dioleoxy)propyl)-N,N,N,-trimethylammonium methyl-sulfate (DOTAP, Boehringer, Mannheim, Germany) affects the integrity of rat liver lysosomal membrane. We have measured the latency of beta-galactosidase, a lysosomal enzyme, and found that incubation of lysosomes with low concentrations of DOTAP causes a striking increase in free activity of the hydrolase and even a release of the enzyme into the medium. This indicates that lysosomal membrane is deeply destabilized by the lipid. The phenomenon depends on pH, it is less pronounced at pH 5 than at pH 7.4. Anionic compounds, particularly anionic amphipathic lipids, can to some extent prevent this phenomenon. It can be observed with various cationic lipids. A possible explanation is that cationic liposomes interact with anionic lipids of lysosomal membrane, allowing a fusion between the lipid bilayers which results in a destabilization of the organelle membrane.

Published
1997
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31. Supramolecular assemblies from lysosomal matrix proteins and complex lipids.

Author

Jadot M, Dubois F, Wattiaux-De Coninck S, and Wattiaux R

Subjects
Animals, Antigens, CD chemistry, Biomarkers analysis, Centrifugation, Density Gradient, Chromatography, Gel, Electrophoresis, Polyacrylamide Gel, Endopeptidase K metabolism, Hydrogen-Ion Concentration, Lipids chemistry, Liver chemistry, Liver enzymology, Lysosomal Membrane Proteins, Lysosomes enzymology, Male, Mannosidases chemistry, Membrane Glycoproteins chemistry, Phospholipids chemistry, Phospholipids metabolism, Protein Conformation, Rats, Rats, Wistar, Sphingomyelins metabolism, alpha-Mannosidase, Antigens, CD metabolism, Lipid Metabolism, Lysosomes chemistry, Mannosidases metabolism, Membrane Glycoproteins metabolism
Abstract

Most lysosomal hydrolases are soluble enzymes. Lamp-II (lysosome-associated membrane protein-II) is a major constituent of the lysosomal membrane. We studied the aggregation of a series of lysosomal molecules. The aggregation-sensitive lysosomal marker enzymes were optimally aggregated at intralysosomal pH. A similar pH dependence was recorded for aggregation of Lamp-II. The pH-dependent loss of solubility of isolated Lamp-II required components of the lysosome extract. Conditions of mild acid pH promoting aggregation triggered the formation of complexes with lipids of lysosomal origin. We fractionated a membrane-free lysosome extract by gel-filtration chromatography and could reconstitute assemblies in vitro from separated fractions. We found some selectivity in the lysosomal proteins binding to complex lipids, phosphatidylcholine, sphingomyelin, and phosphatidylethanolamine being most effective. We propose that the formation at pH 5.0 of such supramolecular assemblies between lysosomal proteins and lipids occurs within the intralysosomal environment. Some possible consequences of such an intralysosomal matrix formation on organelle function are discussed.

Published
1997
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32. A centrifugation study of rat-liver mitochondria, lysosomes and peroxisomes during the perinatal period.

Author

Mertens-Strijthagen J, De Schrijver C, Wattiaux-De Coninck S, and Wattiaux R

Subjects
Animals, Animals, Newborn, Cell Fractionation, Fetus, Growth, Hydrolases analysis, Liver enzymology, Liver ultrastructure, Oxidoreductases analysis, Rats, Subcellular Fractions enzymology, Liver growth & development, Lysosomes ultrastructure, Microbodies ultrastructure, Mitochondria, Liver ultrastructure, Organoids ultrastructure
Abstract

We have investigated the intracellular distribution of several enzymes on homogenates of late foetal, early postnatal and adult rat livers. Homogenates were subjected to differential centrifugations in 0.25 M sucrose and four fractions were isolated which corresponded to the N (nuclear) ML (total mitochondrial) P (microsomal) and S (soluble) fractions of de Duve et al. (1955). In general the age of the animal did not significantly affect the distribution pattern. Reference enzymes of mitochondria, lysosomes and peroxisomes were mainly recovered in the total mitochondrial fraction (ML). Glucose-6-phosphatase and esterase, both located in the endoplasmic reticulum, were chiefly associated with the microsomal fraction P together with galactosyltransferase (a reference enzyme of the Golgi apparatus). 5'-Nucleotidase, (a plasma membrane enzyme) exhibits a bimodal distribution and is mainly recovered in the N and the P fractions. Such results indicate that the membrane composition of the fractions isolated by the fractionation scheme was used, does not appreciably differ for the late foetal, early postnatal and adult rat livers. An analytical fractionation of the mitochondrial (ML) fraction of livers at different stages of development was performed by isopycnic centrifugation in sucrose gradients and in glycogen gradients using sucrose solutions of various concentrations as the solvents. The distribution of mitochondria, lysosomes and peroxisomes were assessed by establishing the distribution of their reference enzymes. Some physical characteristics of the particles were deduced from the manner in which the distributions were influenced by the sucrose concentration of the centrifugation medium. The distribution of liver mitochondrial enzymes one day prenatal differs strikingly from that of enzymes one day postnatal; foetal mitochondria seem characterized by a high osmotic space and a high hydrated matrix density; neonatal mitochondria seem devoid of an osmotic space and the density of their hydrated matrix is markedly lower than that of the foetal mitochondria. As ascertained by the distribution of mitochondrial enzymes in a sucrose 2H2O gradient, the high density of a foetal mitochondria matrix does not mainly originate from a lower amount of hydration water. The behavior of lysosomal enzymes in media with increasing concentrations of sucrose suggests that lysosomes originating from late foetal rat liver are endowed with a very small osmotic space. As for the peroxisomes, our results do not display significant behavior differences in centrifugations that would indicate physicochemical changes of these particles during the perinatal period.

Published
1979
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33. Effect of imipramine on the behavior of rat-liver mitochondria during centrifugation in a sucrose gradient.

Author

Wattiaux-De Coninck S, Dubois F, and Wattiaux R

Subjects
Animals, Binding Sites, Carbon Radioisotopes, Centrifugation, Isopycnic, Cytochrome c Group, Electron Transport Complex IV, Hydrostatic Pressure, Malate Dehydrogenase, Microscopy, Electron, Mitochondria, Liver enzymology, Mitochondrial Swelling, Monoamine Oxidase, Oxidoreductases, Permeability, Rats, Sucrose, Imipramine pharmacology, Mitochondria, Liver drug effects
Published
1974
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34. Subcellular distribution of particle-bound neutral peptidases capable of hydrolyzing gonadoliberin, thyroliberin, enkephalin and substance P.

Author

Horsthemke B, Leblanc P, Kordon C, Wattiaux-De Coninck S, Wattiaux R, and Bauer K

Subjects
Animals, Cell Membrane enzymology, Centrifugation, Density Gradient, Cytosol enzymology, Enkephalins metabolism, Gonadotropin-Releasing Hormone metabolism, Hydrogen-Ion Concentration, Hydrolysis, Mitochondria enzymology, Protein Binding, Rats, Subcellular Fractions enzymology, Substance P metabolism, Thyrotropin-Releasing Hormone metabolism, Nerve Tissue Proteins metabolism, Peptide Hydrolases metabolism, Pituitary Gland, Anterior enzymology
Abstract

Subcellular fractions from rat anterior pituitary homogenates were obtained by differential and gradient centrifugation, identified with the help of marker enzymes and screened for peptidases capable of hydrolyzing gonadoliberin, thyroliberin, enkephalin and substance P. Since each neuropeptide is susceptible to cleavage by more than one enzyme, specific substrates or inhibitors have been used for the selective determination of the individual peptidasic activities. Among the various enzymes tested, the angiotensin-converting enzyme, the thermolysin-like metalloendopeptidase ('enkephalinase'), a thyroliberin-degrading enzyme and some aminopeptidasic activities were found to be associated with the plasma membrane. Other aminopeptidases, a gonadoliberin-degrading and a substance-P-degrading enzyme are associated with the mitochondria and thus are most likely not involved in the biological inactivation of neuropeptides.

Published
1984
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35. Effect of lysosomes on rat-liver catalase.

Author

Mainferme F and Wattiaux R

Subjects
Animals, Cathepsin B, Cathepsins physiology, Electrophoresis, Polyacrylamide Gel, Female, Molecular Weight, Rats, Rats, Inbred Strains, Catalase isolation & purification, Liver enzymology, Lysosomes metabolism
Abstract

The electrophoretic behaviour of rat-liver catalase in polyacrylamide gel depends on the subcellular fraction the enzyme was isolated from. Catalase extracted from the mitochondrial fraction is more anodic than catalase recovered from the unsedimentable fraction of the homogenate. The difference disappears if the sedimentable enzyme is extracted from purified peroxisomes. On the other hand, when treated with a lysosomal extract, catalase present in the unsedimentable fraction or in purified peroxisomes, behaves like the enzyme isolated from the mitochondrial fraction. Factors that influence that effect of lysosomes on catalase indicate that it is due to a proteolysis by an enzyme like cathepsin B. These results suggest that catalase isolated from the mitochondrial fraction differs from catalase isolated from peroxisomes or from the unsedimentable fraction, because it has been subjected to a proteolysis caused by lysosomes present in the mitochondrial fraction, during the extraction procedure. As a matter of fact, catalase isolated from the mitochondrial fraction is endowed with a lower molecular weight than catalase extracted from purified peroxisomes or from the unsedimentable fraction. This structural modification does not apparently affect the stability and the catalytic power of the enzyme.

Published
1982
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36. Synthesis, transport and processing of cathepsin C in Morris hepatoma 7777 cells and rat hepatocytes.

Author

Mainferme F, Wattiaux R, and von Figura K

Subjects
Animals, Biological Transport, Cathepsin C, Chemical Precipitation, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases biosynthesis, Immunochemistry, Phosphorylation, Rats, Subcellular Fractions enzymology, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases metabolism, Liver enzymology, Liver Neoplasms, Experimental enzymology, Protein Processing, Post-Translational
Abstract

The synthesis, transport and processing of cathepsin C was studied in Morris hepatoma 7777 cells by metabolic labelling, immunoprecipitation and characterization of labelled polypeptides by gel electrophoresis and fluorography. The largest detectable precursor of cathepsin C was a polypeptide of Mr = 92 500. Even 3 min after synthesis this precursor was accompanied by four polypeptides with Mr values ranging from 63 000 to 54 000, indicating cleavage of the precursors within the endoplasmic reticulum. The early forms of cathepsin C were associated with low-buoyant-density organelles containing the markers of endoplasmic reticulum and Golgi complex. About 30% of these early forms were secreted within 3 h after synthesis. The remaining 70% were transferred into dense lysosomes and processed between 2 and 3 h after synthesis to a mixture of the least five major and nine minor polypeptides with Mr values ranging from 73 000 to 12 000. These forms remained stable for at least 3 days. In freshly isolated hepatocytes cathepsin C was processed to forms closely related to those found in the hepatoma cells. Cathepsin C was synthesized in Morris hepatoma 7777 cells as a glycoprotein with mannose-6-phosphate residues that mediated mannose-6-phosphate-specific receptor-dependent uptake in human skin fibroblasts. In contrast to hepatocytes, synthesis of mannose-6-phosphate receptors in Morris hepatoma 7777 cells was below the limit of detection. The hepatoma cells did not express at the cell surface these or other receptors mediating endocytosis of lysosomal enzymes. Further, processing and transport of newly synthesized cathepsin C was largely resistant to NH4Cl. Apparently, cathepsin C is transferred in Morris hepatoma 7777 cells by a mechanism independent of mannose-6-phosphate-specific receptors.

Published
1985
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37. Effect on lysosomes of invertase endocytosed by rat-liver.

Author

Jadot M, Wattiaux-De Coninck S, and Wattiaux R

Subjects
Animals, Centrifugation, Isopycnic, Hydrolases metabolism, Lysosomes enzymology, Male, Mitochondria, Liver metabolism, Rats, Rats, Inbred Strains, beta-Fructofuranosidase, Endocytosis, Glycoside Hydrolases metabolism, Liver metabolism, Lysosomes metabolism
Abstract

The intracellular localization of invertase endocytosed by rat liver was investigated by analytical centrifugation in sucrose and Percoll gradients of mitochondrial fractions originating from rats killed 15 h after injection. After isopycnic centrifugation in a sucrose gradient, invertase is located in higher density zones than acid hydrolases. The difference between the distribution of invertase and that of acid hydrolases increases with the amount of invertase injected. When the invertase dose is sufficiently high, a change of lysosomal enzyme distribution is clearly visible. It consists in the shift of a proportion of these enzymes to higher density regions where invertase is located. The proportion of hydrolase activity affected by invertase is different for each enzyme measured; it is the least pronounced for acid phosphatase, and most for acid deoxyribonuclease and arylsulfatase. A pretreatment of the rat with Triton WR 1339 considerably decreases the equilibrium density of structures bearing invertase. Nevertheless invertase distribution is quite distinct from that of the bulk of lysosomal enzymes that are recovered in lower density zones of the gradient; on the other hand the invertase injection to rats treated with Triton WR 1339 causes a spreading of the acid hydrolase distribution towards higher density zones. The distribution of acid hydrolases and invertase in a Percoll gradient depends on the sucrose concentration of the solvent. It is shifted towards higher densities when the sucrose concentration increases. The phenomenon is more important for invertase. These results are best explained by supposing that invertase accumulates in a distinct population of lysosomes that can be individualized as a result of the density increase they are subjected to by the invertase they accumulate. It is proposed that these lysosomes mainly originate from non-parenchymal cells of the liver.

Published
1985
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38. Uptake and intracellular transport in rat liver of formaldehyde-treated bovine serum albumin labelled with 125I-tyramine-cellobiose.

Author

Misquith S, Wattiaux-De Coninck S, and Wattiaux R

Subjects
Animals, Cell Fractionation, Cellobiose metabolism, Centrifugation, Isopycnic, Dipeptides pharmacology, Liver ultrastructure, Lysosomes drug effects, Lysosomes metabolism, Male, Rats, Rats, Inbred Strains, Tyramine metabolism, Endocytosis, Liver metabolism, Serum Albumin metabolism
Abstract

1. Endocytosis of formaldehyde-treated bovine serum albumin by rat liver sinusoidal cells has been followed by injecting rats with the protein labelled with 125I-tyramine cellobiose (125I-TCfBSA). 125I-TCfBSA is quickly taken up by the liver; the radioactivity present in the organ reaches a plateau 5-10 min after injection and is maintained for up to at least 180 min. During the first 5 min most of radioactivity remains acid-precipitable. After which, labelled acid-soluble components are produced at a constant rate for up to 30-40 min. 2. Differential centrifugation shows that radioactivity is first recovered mainly in the microsomal fraction. Within a few minutes it exhibits a distribution pattern similar to that of lysosomal enzymes, being chiefly located in the mitochondrial fractions. 3. Isopycnic centrifugation in a sucrose gradient of the microsomal fraction isolated 1 min after injection indicates a similar distribution for radioactivity and alkaline phosphodiesterase. Later, the microsomal radioactivity distribution curve is shifted towards higher densities and becomes distinct from that of the plasma-membrane enzyme. After isopycnic centrifugation in a sucrose gradient of the total mitochondrial fraction a considerable overlapping of acid-precipitable and acid-soluble radioactivity distributions is observed without significant changes with time. The same is observed in a Percoll gradient except that after a relatively long time (greater than 30 min) of injection a marked shift of radioactivity distribution towards higher densities occurs. 4. A pretreatment of rats with Triton WR 1339, a density perturbant of liver lysosomes, causes a striking shift of acid-soluble radioactivity distribution in a sucrose gradient towards lower densities while having markedly less influence on the acid-precipitable distribution. As a result, a distinction between the distribution of both kinds of radioactivity becomes clearly apparent. A preinjection of yeast invertase, modifies the acid-soluble distribution without having a significant effect on the acid-precipitable distribution up to 30 min after 125I-TCfBSA injection. 5. Glycyl-1-phenylalanine-2-naphthylamide largely releases acid-soluble radioactivity associated with the mitochondrial fraction, whatever the time after 125I-TCfBSA injection. On the other hand the proportion of acid-precipitable radioactivity present in the fraction that can be released is almost zero at 10 min after injection, and it later increases. 6. The results presented here are best explained by supposing that, after being trapped in small pinocytic vesicles, 125I-TCfBSA is quickly delivered to the endosomes.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1988
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39. Effect of a transitory ischaemia on the structure-linked latency of rat liver acid phosphatase and beta-galactosidase.

Author

Wattiaux R and Wattianx-De Coninck S

Subjects
Acid Phosphatase blood, Animals, Centrifugation, Chlorpromazine pharmacology, Liver blood supply, Liver drug effects, Male, Rats, beta-Galactosidase blood, Acid Phosphatase metabolism, Galactosidases metabolism, Ischemia enzymology, Liver enzymology, beta-Galactosidase metabolism
Abstract

The structure-linked latency of acid phosphatase and beta-galactosidase was studied in rat liver lobes made ischaemic for 1 or 2 h and then recirculated with blood for increasing periods. Free activity of acid phosphatase and unsedimentable activity of beta-galactosidase are increased in homogenates of ischaemic livers. When ischaemia had been maintained for 1 h, the recovery of normal latency for both enzymes was observed 1 h after re-establishment of the blood flow. After a 2 h period of ischaemia, unmasked activity markedly decreases during the first 1 h after restoration of blood flow; after that, a large and irreversible secondary rise takes place. Chlorpromazine, injected 30 min before or just after induction of ischaemia, extensively prevents the latency decrease occurring during restoration of blood flow. Modifications of the hydrolase distribution pattern obtained after differential centrifugation are in agreement with the latency changes. These results suggest that a 2 h ischaemia causes an alteration of the liver lysosomes that is largely reversible and that restoration of blood flow induces an irreversible alteration of these organelles. Chlorpromazine treatment prevents the irreversible lesion from taking place.

Published
1981
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40. Deterioration of rat-liver mitochondria during isopycnic centrifugation in an isoosmotic medium.

Author

Collot M, Wattiaux-De Coninck S, and Wattiaux R

Subjects
Animals, Cell Fractionation methods, Centrifugation, Density Gradient, Electron Transport Complex IV metabolism, Glycogen, Malate Dehydrogenase metabolism, Membranes ultrastructure, Microscopy, Electron, Mitochondria, Liver enzymology, Monoamine Oxidase metabolism, Osmolar Concentration, Rats, Mitochondria, Liver ultrastructure
Abstract

We have investigated the effect of the centrifugation speed on the behavior of rat-liver mitochondria during isopycnic centrifugation in an isoosmotic medium. The gradient was made with a macromolecular compound, glycogen dissolved in 0.25 M aqueous sucrose. The distribution curves of several mitochondrial enzymes change when the centrifugation reaches a certain speed: they are shifted toward regions of lower density. The results are plausibly explained by supposing that the inner mitochondrial membrane becomes permeable to sucrose at high centrifugation speeds, and that the granules swell. The main causal agent of the phenomenon is the hydrostatic pressure the mitochondria are subjected to during centrifugation. Morphological observations show that mitochondria are markedly deteriorated when centrifuged at high speed in the glycogen gradient; they are swollen and the outer membrane is broken; also frequently, a large electron-dense granule is seen in the matrix near the inner mambrane.

Published
1975
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41. Intracellular pathway followed by invertase endocytosed by rat liver.

Author

Jadot M, Misquith S, Dubois F, Wattiaux-De Coninck S, and Wattiaux R

Subjects
Animals, Biological Transport, Centrifugation, Density Gradient, Centrifugation, Isopycnic, Dipeptides pharmacology, Male, Rats, Rats, Inbred Strains, Subcellular Fractions metabolism, beta-Fructofuranosidase, Endocytosis, Glycoside Hydrolases metabolism, Liver metabolism
Abstract

Yeast invertase, when injected into rats, is endocytosed by the liver, mainly by sinusoidal cells. The work reported here aims at investigating the organelles involved in the intracellular journey of this protein. Experiments were performed on rats injected with 125I-invertase (25 micrograms/100 g body wt) and killed at various times after injection. Homogenates were fractioned by differential centrifugation, according to de Duve, Pressman, Gianetto, Wattiaux and Appelmans [(1955) Biochem. J. 63, 604-617]. Early after injection the radioactivity was recovered mainly in the microsomal fraction P; later it was found in the mitochondrial fractions (ML). At all times a peak of relative specific activity was observed in the light mitochondrial fraction L. After isopycnic centrifugation in a sucrose gradient, structures bearing 125I-invertase, present in P, exhibited a relatively flattened distribution with a density of around 1.17 g/ml, relatively similar to that of alkaline phosphodiesterase a plasma membrane marker. The organelles located in ML were endowed with a more homogeneous distribution, their median equilibrium density increasing up to 30 min after injection (1.20 g/ml----1.23 g/ml); with time the radioactivity distribution became more closely related to the distribution of arylsulfatase, a lysosomal enzyme. ML fractions, isolated 10 min and 180 min after 125I-invertase injection, were subjected to isopycnic centrifugation in Percoll gradient with, as solvent, 0.25 M, 0.5 M and 0.75 M sucrose. The change of density of the particles bearing 125I-invertase, as a function of the sucrose concentration, paralleled the change of density of the lysosomes as ascertained by the behaviour of arylsulfatase. The distribution of radioactivity and arylsulfatase in a sucrose gradient was established after isopycnic centrifugation of the ML fraction of rats injected with 125I-invertase, the animals having received or not an injection of 900 micrograms/100 g body weight of unlabelled invertase 15 h before killing. In agreement with our previous results, a shift towards higher densities of about 25% or arylsulfatase takes place in rats pretreated with unlabelled invertase. At 10 min, invertase preinjection did not change the radioactivity distribution curve. Later, it caused a progressive shift of the distribution towards higher-density regions of the gradient where the arylsulfatase, which had been shifted, was located.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1986
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44. Effect of temperature on the behavior of rat-liver mitochondria during centrifugation in a sucrose gradient.

Author

Wattiaux-de Coninck S, Ronveaux-Dupal MF, Dubois F, and Wattiaux R

Subjects
Animals, Cytochrome Reductases analysis, Electron Transport Complex IV analysis, Hydrostatic Pressure, Malate Dehydrogenase analysis, Microscopy, Electron, Mitochondrial Swelling, Monoamine Oxidase analysis, Rats, Sucrose, Sulfites, Centrifugation, Density Gradient, Mitochondria, Liver enzymology
Published
1973
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45. Subcellular distribution of sulfite cytochrome c reductase in rat liver tissue.

Author

Wattiaux-de Coninck S and Wattiaux R

Subjects
Acid Phosphatase, Adenine Nucleotides, Adenosine Triphosphate, Animals, Catalase, Centrifugation, Density Gradient, Digitalis Glycosides pharmacology, Endoplasmic Reticulum enzymology, Enzyme Activation, Glucose-6-Phosphatase, Glutamate Dehydrogenase, Hypotonic Solutions, Liver enzymology, Lysosomes enzymology, Male, Monoamine Oxidase, Phosphotransferases, Rats, Sulfites, Surface-Active Agents, Electron Transport Complex IV, Mitochondria, Liver enzymology, Oxidoreductases
Published
1971
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47. [Intracellular distribution of acid exonuclease in rat liver].

Author

Van Dyck JM and Wattiaux R

Subjects
Acid Phosphatase analysis, Animals, Centrifugation, Density Gradient, Chromatography, Ion Exchange, Electron Transport Complex IV analysis, Glucose-6-Phosphatase analysis, Male, Rats, Surface-Active Agents, Deoxyribonucleases analysis, Liver enzymology, Lysosomes enzymology
Published
1968
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