The clearing-factor lipase activity of isolated fat-cells.

1. When fat-cells are isolated from the epididymal adipose tissue of 24h-starved rats and incubated at 25 degrees C in the presence of dialysed serum, glucose, insulin, amino acids and heparin, the total clearing-factor lipase acitivity of the incubation system increases progressively over a period of several hours. 2. All of the increase in activity is accounted for by the appearance of enzyme in the appearance of enzyme in the incubation medium and the fat-cell activity does not change significantly. Cycloheximids, at a concentration that prevents protein synthesis, does not affect the appearance of enzyme in the incubation medium, but the fat-cell enzyme activity is decreased in its presence. 3. The magnitude of the increase in total clearing factor lipase activity is unaffected by the omission of heparin from the medium. However, less enzyme is extracted in tis absence and the fat-cell activity increases. Cycloheximide again only affects the rise in cell activity and does not alter the activity in the incubation medium. 4. When serum in the incubation medium is replaced by casein, the distribution of enzyme between the cells and the medium is changed, but the magnitudes of the increases in total enzyme activity are similar. 5. These characteristics of the clearing-factor lipase response of isolated fat-cells differ in several respects from those observed earlier with intact adipose tissue from 24h-starved rats (Robinson & Wing, 1971; Cryer et al., 1973). The differences could be due, in part, to changes in the relative amounts of two different molecular forms of the enzyme that occur during the isolation of the fat-cells.     

Regulation of human skin collagenase activity by hydrocortisone and dexamethasone in organ culture

Hydrocortisone and dexamethasone (9α-fluoro, 16α-methyl prednisolone) prevent the appearance of collagenase in cultures of normal human skin, human rheumatoid synovium and rat uterus. Hydrocortisone is maximally inhibiting at 10^?7M and dexamethasone at 10^?8M in culture medium. Neither steroid is an inhibitor of enzyme activity. The loss of collagenase activity in cultured tissue is not accompanied by detectable inhibition of protein synthesis. Reduction of enzyme activity in culture medium is concomitant with a parallel cessation of tissue collagen degradation, indicating that the tissue fails to produce active collagenase in the presence of physiologic levels of glucocorticoids.     

Comparison of Isocitrate Dehydrogenase Activity, Pyruvate Kinase Activity, and Polyphenol Content in Physiologically Different Pine Callus Tissue

During the growth of callus tissue of slash pine (Pinus elliottil Engelm.) several physiologically different types of tissue can be observed, often within the same culture. Different tissues were selected, based on color appearance, and used to determine isocitrate dehydrogenase and pyruvate kinase activity, and total polyphenol content. Isocitrate dehydrogenase and pyruvate kinase activity in yellow tissue was 3- to 5-fold greater than in brown tissue, whereas the polyphenol content in yellow tissue was approximately 5-fold less than in brown tissue. Dark brown callus, which also contained large amounts of polyphenols, did not have detectable enzyme activity. The differences in optimal concentrations of substrate and cofactors for the isocitrate dehydrogenase and pyruvate kinase reactions in yellow and brown tissues were very minor and therefore cannot account for the 3- to 5-fold difference in enzyme activity between these tissues. Also, the addition of brown or dark-brown tissue extract to the yellow tissue extract did not inhibit isocitrate dehydrogenase or pyruvate kinase activity in the yellow tissue extract.     

The source and action of head factors regulating juvenile hormone esterase in larvae of the cabbage looper, Trichoplusia ni

Brain (median or lateral regions) or suboesophageal ganglion (SOG) homogenates of Day 1 fifth instar larvae of Trichoplusia ni induced the appearance of haemolymph juvenile hormone esterase (JHE) when injected into Day 1, Day 2 or early Day 4 fifth instar ligated hosts. Brain and SOG homogenates of late fourth instars also induced JHE when injected into Day 1 hosts, whole late fifth instar and pupal tissue did not. The pattern of JHE induction by early fourth through Day 3 fifth instar brain and SOG homogenates correlated with natural haemolymph JHE activity occurring at these times. Implantation of late fourth and Day 1 fifth instar brains and/or SOG into similar age hosts similarly induced JHE activity while prothoracic and abdominal ganglia did not. The relative levels of induction following implantation were SOG<brain<brain+SOG. JHE activity which appears in the haemolymph following injection of brain homogenates appears to be largely due to a single enzyme which has an isoelectric point indistinguishable from that of the natural haemolymph enzyme. Evidence is presented which suggests that inhibitory as well as stimulatory brain factors are involved in JHE regulation.     

Changes with starvation in the rat of the lipoprotein lipase activity and hydrolysis of triacylglycerols from triacylglycerol-rich lipoproteins in adipose tissue preparations.

Lipoprotein lipase activity was higher in fat-pad pieces than in isolated adipocytes from the same fed rats, whereas hydrolysis of triacylglycerols from triacylglycerol-rich lipoproteins was similar in the two preparations when incubated either in basal conditions or in the presence of heparin. In both preparations there was a similar release of lipoprotein lipase activity into the medium during basal incubation, enhanced by the presence of heparin. In fat-pad pieces, but not in isolated adipocytes, incubation with heparin produced a decrease in the lipoprotein lipase activity measured in the tissue preparation. In fat-pad pieces from 24 h-starved rats, lipoprotein lipase activity was the same as in isolated adipocytes from the same animals and incubation with heparin did not affect the appearance of lipoprotein lipase in the medium or the utilization of triacylglycerols from triacylglycerol-rich lipoproteins. These results support the following conclusions. (1) The effectiveness of lipoprotein lipase in adipose tissue preparations in vitro depends more on its availability to the substrate than on its total activity. (2) Heparin acts on adipose tissue preparations from fed animals both by enhancing the release of pre-existing extracellular enzyme (which is absent in isolated adipocytes) and by enhancing the transfer outside the cells of the intracellular (and mainly undetectable) enzyme that is activated in the secretion process. (3) In adipose tissue from starved animals there is not only a decrease in the active extracellular form of lipoprotein lipase activity but also a reduction in the intracellular (and mainly undetectable) pool of the enzyme.     

Fluctuations in pulmonary fibrin decomposing activities (plasmin and non-plasmin activities) in an endotoxin DIC model in rats

Non-plasmin fibrinolysis enzyme was extracted from the lung and spleen of conventional rats (Thrombos. Haemostas., 1979), although the enzyme was not found in germfree rats, suggesting the possibility that the enzyme may participate in the defence mechanism of the body. The present study was made in an attempt to determine the behavior of non-plasmin fibrinolysis enzyme of the lung tissue in the DIC model of conventional rats induced by a single injection of bacterial endotoxin. The plasminogen-activator activity of the lung tissue, and the fibrinogen level, platelet count, urea nitrogen and plasminogen-activator activity in the blood were also measured. Examination of the lung tissue in the DIC rats indicated a remarkable increase in non-plasmin fibrinolysis activity and a disappearance of plasminogen-activator activity. Inhibitor studies using t-AMCHA and DFP demonstrated that the increased non-plasmin fibrinolysis activity was not derived from activated plasmin, but from serine protease. The disappearance of plasminogen-activator activity in the lung and increase of plasminogen-activator activity in the blood suggested a release of the activator from the lung into the blood due to the endotoxin injection.     

The Effects of Germination on the Subcellular Distribution of Cholinesterase in Cotyledons of Phaseolus vulgaris

Homogenates of Phaseolus vulgaris cotyledons have been found capable of hydrolyzing acetylthiocholine. The hydrolysis occurs optimally at pH 8.0, and is inhibited by neostigmine but not eserine. Total activity of the enzyme increases about three-fold between the second and third days of germination, and remains high until day 6 before dropping coincident with the appearance of visible morphological symptoms of senescence in the tissue. Fractionation studies have revealed that the enzyme is enriched in preparations of purified cell wall and plasma membrane and is also present in a soluble fraction. The soluble enzyme accounts for more than 70% of the total cholinesterase activity two days after planting but by the fourth day of germination only about 30% of the total activity in the tissue is soluble. During the same period there is a large increase in the specific activities of both the cell wall and plasma membrane enzymes. By the seventh day of germination the particulate and soluble forms of the enzyme both show much reduced activities, but the specific activities of the cell wall and plasma membrane enzymes subsequently increase again. This is thought to reflect breakdown of protein other than cholinesterase in these structures as they in turn become subject to the increasing pressures of senescence. Cholinesterase in plant tissue presumably serves to regulate the endogenous titre of acetylcholine. The behaviour of this enzyme in bean cotyledons has been interpreted in terms of patterns of physiological and ultrastructural change known to characterize this tissue during germination.     

Higher-plant cofactor-independent phosphoglyceromutase: purification,molecular characterization and expression

Cofactor-independent phosphoglyceromutase (PGM) was purified to homogeneity from developing castor seed endosperm. Immunological characterization using monospecific antisera raised against this protein indicates that the enzyme is located in the cytosol and that there is no immunologically related polypeptide in the leucoplast from this tissue. Isolation and sequence determination of full-length cDNA clones for castor and tobacco PGM demonstrate that the protein is highly conserved in these plants and is closely related to the maize enzyme. A comparison of the amino acid sequence of peptides derived from Neurospora crassa PGM with the cofactor-independent enzyme from higher plants demonstrated that they are related and may have diverged from a common ancestral gene. The previously proposed relationship between higher-plant PGM and alkaline phosphatases is not supported by sequence analysis of the castor and tobacco enzymes. Expression of the single castor cytosolic PGM gene correlates well with other cytosolic glycolytic genes in developing and germinating castor seeds, and with the appearance of enzyme activity and PGM polypeptides in these tissues.Institute of Cell and Molecular Biology     

The mechanism of in vivo arylamine acetyltransferase activation

A kinetic analysis of arylamine acetyltransferase activation by prodigiozane, a stimulator of organism unspecific resistance, has been carried out. The change of enzyme activity is associated not with a change of its tissue content, but is due to the appearance of a new isoenzyme with altered rate of product dissociation from the catalytic site under condition when k-1 much greater than kKaT. The effect observed is suggested to be defined by a genetically determined adaptative mobility of organism rather than by genetically determined enzyme synthesis. A search strategy for arylamine acetyltransferase activity regulators is proposed.     

Precocious induction of tryptophan dioxygenase by glucocorticoid in suckling rats and correlation with change in glucocorticoid receptor

When young rats (less than 14 days old) were treated once a day for 2 days with 100 micrograms/100 g body weight of dexamethasone, their liver cytosol showed a sharp new peak of glucocorticoid binding protein (peak C) eluted with 0.14 M NaCl on DEAE-cellulose chromatography. When the young rats were given a single injection of the hormone, the chromatogram showed a dominant peak of binding protein (peak B), eluted with 0.07 M NaCl, which was similar to that in untreated rats. The appearance of peak C on two treatments of young rats with hormone was confirmed by both in vivo and in vitro labeling and also studies on the nuclear fraction. Peaks B and C were specific hormone-binding proteins as shown with excess unlabeled hormone. The appearance of peak C was concomitant with the precocious induction of tryptophan dioxygenase in the liver of the young rats, and pretreatment with two injections of dexamethasone were necessary for maximal enzyme induction. On the other hand, in adult rats a single injection of dexamethasone (of 20 micrograms/100 g body weight or more) was enough to cause the appearance of peak C and induce tryptophan dioxygenase activity maximally; an additional injection of the hormone did not change the chromatographic pattern of the specific binding or the enzyme activity. For this effect in young rats, dexamethasone could not be replaced by other hormones such as glucagon, growth hormone, thyroid hormones, insulin, sex steroids or short-acting glucocorticoid.     

Enzyme histochemistry on human placental trophoblasts: the effect of fixation delay on enzyme activity

We examined the effect of time delay in tissue fixation on enzyme histochemically detectable enzyme activity and its localization in term human placental trophoblasts. Four placental enzymes, alkaline phosphatase, acid phosphatase, glucose-6-phosphatase, and cytochrome c oxidase, were studied. A fixation delay of 15 min did not markedly alter the activity or distribution pattern of the four enzymes, excepted for a slight reduction in cytochrome c oxidase activity and the appearance of dilated endoplasmic reticula positive for glucose-6-phosphatase. A fixation delay of 60 min abolished cytochrome c oxidase activity, but the activities of the other three enzymes remained positive. When the placental tissue was stored at 4 degrees C without cutting for 24 h before fixation, cell degeneration occurred. However, alkaline phosphatase activity was still clearly demonstrable. In enzyme histochemistry, ,,immediate" fixation is superior, but even if this cannot be performed, the placentas, especially when they are from patients with rare disorders, should not be discarded. Observations made here will be useful for clinician's attempting enzyme histochemistry in organs other than the placenta.     

Developmental expression of murine HPRT. I. Activities,heat stabilities,and electrophoretic mobilities in adult tissues

Total and specific activity of the enzyme hypoxanthine phosphoribosyltransferase (HPRT) varied widely among six tissues from C3H/f mice; the highest levels of activity were in brain. More striking were thermostability differences in tissue enzymes. Although brain, spleen, and kidney HPRT retained 65% basal activity after 15 min at 85 C, heart, liver, and erythrocyte HPRT retained only 20–30% initial activity. Kidney HPRT behaved as monospecific heat-stable enzyme (K _denaturation=0.022/min, and liver enzyme behaved as monospecific heat-labile enzyme (K _denaturation=0.061/min), while other tissues appeared to contain both forms of the enzyme. Multiple electrophoretic activity bands were present in all tissues; no activity band was restricted to a single tissue. The data presented here are consistent with the hypothesis that the distinct tissue properties of HPRT result from posttranslational modification of the product of a single genetic locus which is expressed in all tissues.This study was supported in part by NIH Grant AM 16722 and by an Institutional Biomedical Grant.     

Changes in immunoreactive malic enzyme in liver and brown adipose tissue during development of the rat

There is a good correlation between changes in malic enzyme activity and immunoreactive protein in both hepatic and brown adipose tissue during postnatal development of the rat. Furthermore, the previously observed premature appearance of hepatic malic enzyme during the suckling period, in response to triiodothyronine, can also be achieved through dichloroacetate administration. A combination of triiodothyronine and dichloroacetate induces malic enzyme activity and immunoreactive protein in a synergistic manner, indicating different sites of action in the control of synthesis of hepatic malic enzyme although neither agent was found to affect the level of malic enzyme in brown adipose tissue. There is evidence to suggest that changes in the ability of the liver to express malic enzyme in response to triiodothyronine administration occur early in postnatal life.     

Characterization of purified rat testicular transglutaminase and age-dependent changes of the enzyme activities

The Ca2+-dependent tissue transglutaminase is widely distributed in various tissues and has been reported to participate in many cellular growth and differentiation processes. In the past decade, tissue transglutaminase is also identified as a G protein, G(alphah), for intercellular signaling. To further characterize testicular transglutaminase, the rat testicular transglutaminase was purified by ammonium sulfate precipitation, DEAE ion-exchange, heparin-agarose, and GTP-agarose affinity chromatographies. This purification protocol resulted in a 8400-fold enrichment of the enzyme with a reproducible 15% yield. The purified enzyme showed as a single band of 78kDa on SDS-polyacrylamide gel. Western blot analysis using anti-liver tissue transglutaminase monoclonal antibody also recognized the enzyme, indicating it is a t-TGase in nature. The Km values of purified testicular transglutaminase for putrescine and N,N-dimethylcasein were determined to be 35 and 17 microM, respectively. Its transglutaminase cross-linking activity was strongly inhibited by EGTA, GTP, polyamines, and cystamine, as well as moderately by ATP and NaCl. The enzyme exhibited a magnesium-dependent GTP-hydrolyzing capacity, but its GTP-binding activity did not require magnesium. Furthermore, the enzyme activity was found to be closely related with the first wave of spermatogenesis. Thus, testicular transglutaminase is speculated to participate in the event of spermatogenesis. In conclusion, the purified testicular transglutaminase displays property of either the tissue-type transglutaminase, or the GTP-binding and hydrolyzing characteristics. The activity of testicular transglutaminase is age-dependent, greatly stimulated during the first wave of spermatogenesis.     

Multiple effects of tumor necrosis factor on lipoprotein lipase in vivo

A single dose of recombinant murine tumor necrosis factor (TNF) suppressed lipoprotein lipase activity in adipose tissue of fed rats, mice, and guinea pigs for 48 h, even though TNF itself is rapidly metabolized in vivo. Immunoprecipitation of [35S]lipoprotein lipase from fat pads pulse-labeled with [35S]methionine showed a decrease in relative synthesis of the enzyme, which correlated to the decrease in activity. There was no decrease in general protein synthesis and no change in distribution of the enzyme between adipocytes and extracellular locations in the tissue. This is in contrast to fasting in which case there is redistribution of the enzyme within the tissue, decrease in general protein synthesis, but no change in relative synthesis of lipoprotein lipase. TNF did not decrease lipoprotein lipase activity in any tissue other than the adipose but increased the activity in several cases, most markedly in the liver. No [35S]methionine was incorporated into lipoprotein lipase by liver slices from normal or TNF-treated animals. Thus, the increased activity can not be ascribed to enhanced hepatic synthesis of the enzyme. There was an increase in lipoprotein lipase activity in plasma, which correlated to the increase in liver. Thus, TNF suppresses lipoprotein lipase synthesis in adipocytes, but not in other tissues, and has some as yet undefined effect on lipoprotein lipase turnover in extrahepatic tissues, which results in increased transport of active lipase through plasma to the liver.     

Region-specific aldehyde oxidase activity in Tumorous-head eye discs of Drosophila melanogaster

Summary Histochemical staining for aldehyde oxidase in mature tumorous-head eye imaginal discs of Drosophila melanogaster reveals region-specific enzyme activity that normally is not found in wild type eye discs. Confined primarily to the central portion of the mutant disc is a morphologically distinct area that can be predicted to be the only aldehyde oxidase (aldox) positive tissue in the eye disc. Prior to staining, this area can be removed mechanically from the surrounding tissue and is characterized by smooth boundaries. The separated tissue stains for aldehyde oxidase whereas the remaining disc is aldox negative as in the wild type. We presume that the aldehyde oxidase positive region subsists in the primordium of the tumorous-head abnormality and propose that the appearance of this enzyme signals a change in the state of determination in the mutant disc.     

Influence of light on phosphoenol pyravate carboxylase in sorghum leaves

Upon greening of sorghum leaves ( Sorghum vulgare Pers. cv. INRA 450) under white light illumination, phosphoenolpyruvate carboxylase activity increases. 17 times; at the same time, a new isoform of the enzyme appears.
The aim of the present work has been to identify the process responsible for the appearance of this isoform. Greening. of the leaves in the presence of D₂O did not lead to a significant increase in the buoyant density of the enzyme. On the other hand, cycloheximide was a powerful inhibitor of the rise in PEP carboxylase activity. In order to clarify these conflicting data a procedure based on the immunoprecipitation of the enzyme and its quantification by gel electrophoresis was developed in order to estimate the amount of enzyme in leaf tissue. The results clearly demonstrate that light triggers an increased synthesis of the enzyme protein during greening of sorghum leaves.     

Effect of atherosclerosis on lysosomal cholesterol esterase activity in rabbit aorta.

Radiolabeled cholesteryl oleate, when incorporated into phospholipid vesicles, was hydrolyzed at acid pH by an enzyme present in rabbit aortic homogenates. In contrast, cholesteryl oleate presented as an acetone dispersion was not effectively hydrolyzed at acid pH under identical conditions. Using the vesicle preparation as substrate, a sensitive assay system for the acid hydrolase was developed in which hydrolysis was proportional to protein concentration and incubation time, and was independent of substrate concentration. The physical state of the vesicles was apparently not altered by the assay conditions, and no hydrolysis of the vesicle-associated phospholipid was detected. Acid cholesterol esterase activity in atherosclerotic aortic tissue was 2.5-fold greater than that of control tissue, and even greater increases were observed in the activities of other lysosomal enzymes (N-acetyl-beta-d-glucosaminidase and beta-glucuronidase). Glucose-6-phosphatase activity was also increased in aortas from cholesterol-fed animals while 5' nucleotidase activity remained unchanged. Labeled triolein also was incorporated into phospholipid vesicles and was hydrolyzed by an acid lipase in aortic tissue. Similarities between triolein and cholesteryl oleate hydrolysis existed with respect to pH optimum and the effect of cholesterol feeding on activity, suggesting that a single enzyme may hydrolyze both lipids.     

Isolation and characterization of hyodeoxycholic-acid: UDP-glucuronosyltransferase from human liver

The enzyme hyodeoxycholic-acid: UDP-glucuronosyltransferase was purified about 230-fold from a solubilized human liver microsomal preparation utilizing anion-exchange chromatography, ampholyte-displacement chromatography and UDP-hexanolamine--Sepharose affinity chromatography. The homogeneity of the final enzyme preparation was judged by two criteria: the appearance of a single band of Mr 52000 in SDS/PAGE; the elution of a single peak in reversed-phase FPLC. The isolated enzyme catalyzed the glucuronidation of the 6 alpha-hydroxy bile acids hyodeoxycholic and hyocholic acids, and of the steroid hormone estriol, with a ratio of relative reaction rates of 13:1:2.7. UDP-glucuronosyltransferase activities toward the 3 alpha-hydroxy bile acid lithocholic acid, androsterone, testosterone, bilirubin and p-nitrophenol were not detectable in the pure enzyme preparation and were shown to be separated from enzyme activity toward hyodeoxycholic acid during ampholyte-displacement chromatography and/or UDP-hexanolamine--Sepharose affinity chromatography. Two-substrate kinetic analysis of hyodeoxycholic-acid-conjugating activity gave a sequential mechanism with apparent Km values of 12 microM and 4 microM for hyodeoxycholic acid and UDP-glucuronic acid, respectively. Phospholipids were required for reconstitution of maximal activity toward hyodeoxycholic acid. Phosphatidylcholine was the most effective activator of enzyme activity.