1,721,325 research outputs found
Gamma-glutamyltransferase induction by glucocorticoids in rat liver: age-dependence, time-dependence, dose-dependence, and intralobular distribution.
No full textPostnatal responsiveness of rat-liver gamma-glutamyltransferase (GGT) to glucocorticoids (GC) has been defined by investigating: age-dependence, time-dependence, hormonal dose-dependence, and lag-time of the enzyme re-expression; half-life of the induced enzyme activity; dynamics of the enzyme reappearance in the liver tissue. Hydrocortisone-acetate (HC) or dexamethasone (DEX) were administered to the animals starting 1, 2, 3, 4, or 5 d before killing, at the doses of 25 micrograms or 1 microgram/(g b. w. x d), respectively. In 14 d old rats, after a lag-time of about 20 h (DEX) or 30 h (HC), GGT activity progressively increased up to 38 and 31 times the control value, respectively, at 5th d; the enzyme re-expression was linearly hormone dose-dependent; half-life of the induced enzyme activity was about 36 h. In 21 d old rats, GGT re-induction behaved as in 14 d old animals, except that the induced activity was about half that of each correspondent treatment. In 28 d old rats, a very low but significant GGT activity was re-expressed only after hormonal treatments longer than 48 h. In 35 and 77 d old rats, significant GGT activity was never re-induced. GGT was re-expressed in liver parenchyma, with a defined space-course. In 14 d old rats, GGT reappeared first in periportal areas, then in acinar zone 1, finally in acinar zone 2. While the animals were ageing, GGT re-expression occurred to lesser and lesser extents in liver tissues, because of a progressive space-restriction from acinar zones 1 and 2 to zone 1 and finally, in 35 d old rats, to periportal areas. In adults, GGT was re-expressed only by rare hepatocytes in periportal spaces. Acinar zone-3 hepatocytes did never re-express GGT, irrespectively of the animal age. Thus, 2 rat hepatocyte populations could be distinguished (1 responsive, the other unresponsive to GC for GGT re-expression), the relative proportion of which changes in favour of the unresponsive one while the animal ages. Hepatic GGT re-induction by GC, occurring after a long lag-time, does not follow the typical model of hormonal induction. Previous permissive cell changes seem to be required. Hepatocyte-GGT re-expression by GC appears to be inversely correlated with the differentiation level and the cytochrome P-450 amount (activity) of the cell as limiting factors for the triggering of the enzyme induction
Cytological and quantitative cytochemical changes in the hepatocyte population of newborn rats following hydrocortisone administration.
No full textChanges have been assessed in cytological and quantitative cytochemical parameters of the hepatocyte population of newborn rats under glucocorticoid stimulation. Administration of hydrocortisone-acetate at the dose of 25 micrograms/g b.w./d during the 2nd week of postnatal life, caused: 1. an increase of the liver weight and of average dry mass, protein content, and volume of the hepatocytes; 2. a decrease of the number of hepatocytes per mg of liver tissue; 3. a reduction of the mitotic activity in liver parenchyma; 4. a gain in number of hepatocytes per liver lower than under normal conditions; 5. an increase of frequency of binuclear cells; 6. an increase of DNA-Feulgen per hepatocyte nucleus; 7. an increase per cell, greater than the mean protein increase per cell, in activity of arylhydrocarbonmonooxygenase and 7-ethoxycoumarin 0-deethylase, 2 enzymes dependent on cytochrome P-450. Induction of arylhydrocarbonmonooxygenase activity was prevalent in centrolobule. All the examined parameters, except that of DNA-Feulgen per nucleus and that of mitotic activity, changed strictly correlated with the duration of hormonal treatment. The values of a number of hepatocyte parameters (particularly: mean cell dry mass and volume, frequency of binuclear cells, enzymic activity) detected in the 12 d old rats after a 5 d long hormonal pretreatment, were in the range of those of animals 1 to 2 weeks older
Dexamethasone induction of gamma-glutamyl transferase in primary cultures of hepatocytes is enhanced by metyrapone.
No full textMetyrapone, a cytochrome P-450 inhibitor, reduces by about 3,000 times the dexamethasone concentration required to cause a maximal induction of gamma-glutamyltransferase in adult rat hepatocyte cultures, in itself having no inducing activity. Metyrapone effect decreases as dexamethasone concentration approaches the optimally inducing one. Metyrapone action on low DEX concentrations is dose-dependent while inhibiting 7-ethoxycoumarin O-deethylation by 20% to 75%. At the same doses, metyrapone amplifies also the effects of all the hormonal concentrations inducing tyrosine aminotransferase. These phenomena may be triggered by a modulation of the glucocorticoid biotransformation effective at both transcriptional and translational levels
Metyrapone modulation of tyrosine aminotransferase induction by dexamethasone in cultured hepatocytes.
No full textMetyrapone, an inhibitor of cytochrome P-450-dependent monooxygenases, enhanced the induction of tyrosine aminotransferase by dexamethasone in primary cultures of hepatocytes, while it had no effect on the basal level of the enzyme activity in the absence of the hormone. The amplification of the hormonal induction of tyrosine aminotransferase activity was strictly correlated with the concentration and with the inhibitory action of the compound on cytochrome P-450. The phenomenon occurred even at the maximally effective concentrations of dexamethasone, thus showing that metyrapone is a 'Glucocorticoid Potency Amplifier'. The dexamethasone activity amplification by metyrapone could be the consequence of a modulation of the glucocorticoid biotransformations due to the cytochrome P-450 inhibitor
Changes in protein sulfur groups in hepatocytes of newborn rats under glucocorticoid stimulation.
No full textA daily administration of hydrocortisone-acetate (25 micrograms/g b.w.) increased both dry mass and protein content of the hepatocytes of newborn rats by 84% and 89% respectively, after 5-day-treatment. The increase correlated with the duration of hormonal treatment. As an average per cell, the total reactive protein sulfur increased up to 127%. This increase depends on a major increment of thiols (+179%) and on a minor increment of disulfides (+18%). Within the thiols, the fast reactive ones exhibited the most pronounced increment (+214%). Per protein unit, the total reactive sulfur increased, after a 1 day lag period, by up to +20%. Thiols showed a 47%-increment due to increase of fast reactive thiols (+70%) more than of slow reactive thiols (+20%). On the contrary, disulfides decreased (-37%). Consequently, the protein thiol/disulfide ratio shifted from 2.14 in control hepatocytes to 4.98 (+133%) in hormone-stimulated hepatocytes. Both the increase of the thiol content, and the shift of the SH/SS-equilibrium of the cellular proteins, correlated with a concomitant increase of enzymic activities such as gamma-glutamyltranspeptidase, glutathione reductase, glutathione peroxidase, glutathione S-transferase and 7-ethoxycoumarin O-deethylase
Gamma-glutamyltransferase induction by dexamethasone in cytochrome P-450-depleted rat liver.
No full textThe effects of the cytochrome P-450 depletion by cobaltic protoporphyrin IX on the postnatal glucocorticoid-inducibility of the membrane-bound enzyme gamma-glutamyltransferase have been assessed in the rat liver. Dexamethasone-induced gamma-glutamyltransferase activity in 14-, 28- and 77-day-old rats was high, weak and absent, respectively, and inversely correlated with the physiological cytochrome P-450 activity. In the liver acinus, the enzyme was reexpressed by the zone 1 and zone 2 hepatocytes in suckling rats, substantially only by the zone 1-hepatocytes in just weaned rats. Following cytochrome P-450 depletion, gamma-glutamyltransferase induction by dexamethasone was more rapid, more intense and more extended in the liver acinus, occurring also in the zone 3 hepatocytes in suckling rats, in the zone 2 and a few zone 3 hepatocytes in just weaned rats. Further, the enzyme induction occurred also in adult rats in the zone 1 and in some zone 2 cells. This shows that cytochrome P-450 modulates the extent of hepatic gamma-glutamyltransferase induction by dexamethasone in postnatal rat-hepatocytes. The phenomenon may be consequent on hormone biotransformation changes caused by the cytochrome P-450 depletion
Gamma-glutamyltransferase, atherosclerosis, and cardiovascular disease: triggering oxidative stress within the plaque
No full textEditorial: no abstract availabl
Emerging Biochemical Risk Markers of Stroke
No full textStroke is a multifactorial event, resulting from the combination of genetic and environmental determinants. The first are more influent in younger patients, while the importance of the environmental factors increase with the age of patients. Biomarkers are thus needed, especially in older individuals, to define the current risk, as it results from the individual combination of genetic predisposition, environmental exposure, and clinical history.
The presence of atherosclerosis is a major cause of stroke. The well established risk factors for atherosclerosis (e.g. dyslipidaemia, hypertension, diabetes, obesity) allow the identification of patients at higher risk of vascular events, nevertheless, a large proportion of events still occur, even in patients apparently at low risk. Thus new biomarkers are needed to better identify high-risk patients, and to achieve further insights into the pathogenesis of stroke and its causative conditions.
In the first part of this chapter, inflammation, thrombosis, oxidative stress are discussed as possible source of biomarkers of plaque progression and destabilization. In the second part, serum gamma-glutamyltransferase is presented as novel marker for cardiovascular prognosis related to atherosclerosis
Identification/quantification of distinct sub-components of serum gamma-glutamyltransferase
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