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We previously described in the rat the presence of dehydroascorbate reductase, an enzyme regenerating ascorbic acid, which is constantly lost during oxidative processes occurring at a fast rate within the central nervous system. In the present study, we specifically evaluate the occurrence of this enzyme in the rat substantia nigra by using immunohistochemistry, and by analyzing the neuronal compartmentalization of dehydroascorbate reductase within nigral neurons by immunoblotting and transmission electron microscopy coupled with immunocytochemistry. The enzyme occurs in various portions of the substantia nigra, but it is more abundant in the ventromedial part extending through the ventral tegmental area, and the dorsal portion, involving the pars compacta. Within nigral neurons, the cytosolic enzyme is present in a perinuclear position, close to mitochondria, and in the nuclear membrane; we also found the enzyme in nigral axons close to the myelin sheath. In addition, dehydroascorbate reductase was present in the nucleus of nigral neurons. The nuclear occurrence of the enzyme was confirmed by immunocytochemical labelling and immunoblotting of isolated nuclei. The nuclear enzyme was constantly evident as clusters of immunogold particles on chromatin. This localization suggests new roles for dehydroascorbate reductase (eg. prevention of DNA oxidative damage and regulation of gene transcription).

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OBJECTIVE: A decrease in plasma T3 concentration is a frequent finding in patients with heart failure. However, the role of this 'low T3 syndrome' on disease evolution has never been clarified. As phenotypic and functional cardiomyocyte impairments are alterations that correlate with the failing myocardium, we studied the long-term effects of T3 deprivation on human cardiomyocyte structure and calcium handling. METHODS: Atrial cardiomyocytes and myocardial tissue were cultured with or without 3 nM T3. Microscopical examination of structural features was followed by analysis of alpha-sarcomeric actinin and sarcoplasmic reticulum calcium ATP-ase (SERCA-2) content. Calcium handling was studied by [Ca2+](i) imaging. RESULTS: When stimulated with cyclopiazonic acid, a SERCA-2 inhibitor, T3-deprived cardiomyocytes showed significantly faster (P=0.03) and more transient (P=0.04) increases in [Ca(2+)](i) than T3-supplemented cells. Moreover, in the T3-free cultures a significantly lower number of cells (P=0.003) responded to caffeine, a typical activator of sarcoplasmic reticulum Ca(2+)-release channel. T3-deprived cardiomyocytes also presented altered morphology with larger dimensions than T3-supplemented cells (P < 0.0001). Additionally, in T3-deprived samples alpha-sarcomeric actinin and SERCA-2 protein levels were reduced to 65.6 +/- 3% (P < 0.0001) and 74.1 +/- 4% (P=0.005), respectively, when compared with the T3-supplemented group. CONCLUSIONS: Our data show that human cardiomyocyte calcium handling and phenotype are strongly influenced by T3 suggesting important implications of the 'low T3 syndrome' on the progression of heart failure.

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Recently, we described the occurrence of a dehydroascorbate reductase within the rat CNS. This enzyme regenerates ascorbate after it is oxidized during normal aerobic metabolism. In this work, we describe the neuronal compartmentalization of the enzyme, using transmission electron microscopy of those brain areas in which the enzyme was most densely present when observed under light microscopy. In parallel biochemical studies, we performed immunoblotting and measured the enzyme activity of the cytoplasm and different nuclear fractions. Given the abundance of ascorbate in the caudate-putamen, we focused mostly on the occurrence of dehydroascorbate reductase at the striatal subcellular level. We also studied cerebellar Purkinje cells, hippocampal CA3 pyramidal cells and giant neurons in the magnocellular part of the red nucleus. In addition to neurons, immunolabeling was found in striatal endothelial cells, in the basal membrane of blood vessels and in perivascular astrocytes. In neuronal cytosol, the enzyme was observed in a peri-nuclear position and on the nuclear membrane. In addition, in both the striatum and the cerebellum, we found the enzyme within myelin sheets. Dehydroascorbate reductase was also present in the nucleus of neurons, as further indicated by measuring enzyme activity and by immunoblotting selected nuclear fractions. Immunocytochemical labeling confirmed that the protein was present in isolated pure nuclear fractions. Given the great amount of free radicals which are constantly generated in the CNS, the discovery of a new enzyme with antioxidant properties which translocates into neuronal nuclei appears to be a potential starting point to develop alternative strategies in neuroprotection.

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In this study, we describe for the first time the occurrence, within the central nervous system of the rat, of a dehydroascorbate reductase analogous to the one we recently described in the liver. Dehydroascorbate reductase plays a pivotal role in regenerating ascorbic acid from its oxidation product, dehydroascorbate. In a first set of experiments, we showed that a dehydroascorbate reductase activity is present in brain cytosol; immunoblotting analysis confirmed the presence of an immunoreactive cytosolic protein in selected brain areas. Immunotitration showed that approximately 65% of dehydroascorbate reductase activity of brain cytosol which was recovered in the ammonium sulphate fraction can be attributed to this enzyme. Using immunohistochemistry, we found that a variety of brain areas expresses the enzyme. Immunoreactivity was confined to the gray matter. Amongst the several brain regions, the cerebellum appears to be the most densely stained. The enzyme was also abundant in the hippocampus and the olfactory cortex. The lesion of norepinephrine terminals following systemic administration of DSP-4 markedly decreased immunoreactivity in the cerebellum. Apart from the possible co-localization of the enzyme with norepinephrine, the relative content of dehydroascorbate reductase in different brain regions might be crucial in conditioning regional sensitivity to free radical-induced brain damage. Given the scarcity of protective mechanisms demonstrated in the brain, the discovery of a new enzyme with antioxidant properties might represent a starting-point to increase our knowledge about the antioxidant mechanisms operating in several central nervous system disorders.

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Recently a new member of the corticotropin-releasing factor (CRF) family has been cloned and named urocortin. It has been localized in rat brain and to human chromosome 2. The present study investigated whether human placenta and related tissues express mRNA and immunoreactive urocortin. Using specific oligonucleotide primers, reverse transcriptase-polymerase chain reaction experiments were performed on total RNA isolated from human placenta and decidua collected both at early stage of gestation (8-11 weeks) and at term (39-40 weeks). In addition, experiments were also done on specimens of amnion and chorion collected at term. Independently from the gestational age, placental and decidual cells expressed urocortin mRNA, with a 145 bp DNA band corresponding to the expected length. The expression of urocortin mRNA was also found in amnion and chorion. Using specific antiserum and an immunoperoxidase technique, immunoreactive urocortin was then localized in syncytiotrophoblast cells and in some extent in cytotrophoblast cells of placental villi at term, as well as in fetal membranes and maternal decidua. The present findings revealed that human placenta and gestational related tissues express human urocortin gene and localize immunoreactive urocortin, supporting the concept that these tissues are capable of expressing a large number of neuroendocrine peptides.

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A novel GSH-dependent dehydroascorbate (DHA) reductase from rat liver cytosol has been recently purified and partially characterized in our laboratory. A further characterization study has been carried out in order to determine intracellular and tissue distribution of the enzyme. A modified purification method, yielding a threefold increase in enzyme activity recovery, has been used. Polyclonal antibodies were obtained in rabbits and specific anti-DHA reductase IgG were purified by affinity chromatography employing the homogeneous enzyme as ligand. Immunoblotting analysis of subcellular fractions showed the exclusively cytosolic location of the enzyme. Immunotitration experiments, performed in order to determine the percentage of cytosolic DHA reductase activity ascribable to our enzyme, revealed that purified enzyme activity was completely titrable, while only 70% of DHA reducing activity was titrable in liver cytosol preparation. When immunoblotting analysis was employed to determine tissue distribution of the enzyme, liver, intestinal mucosa, kidney, adrenals, submaxillary gland, testis, and pancreas appeared most endowed with the enzyme, and lower levels were observed in all the other tissues examined. Immunohistochemical studies showed clear zonal distributions in kidney and intestinal tract and overall homogeneous patterns in the other tissues.

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S-Adenosyl-L-methionine (SAM) is a strong chemopreventive agent of rat liver carcinogenesis. Examination was made to determine whether inhibition by SAM of the development of preneoplastic liver lesions persists to SAM withdrawal in diethylnitrosamine-initiated F344 rats promoted with thiobenzamide (TB). The rats were subjected, 2 weeks after initiation, to 5 weeks feeding with a 0.1% TB diet followed by a TB-free diet for 6 weeks and then a second TB treatment for 3 weeks. SAM (384 micromol/kg/day) was injected i.m. during the first TB cycle (treatment A) or for 6 weeks after the first TB cycle (treatment B). Many gamma-glutamyltranspeptidase (GGT)-positive lesions developed in initiated rats after the first TB cycle. They decreased in number after TB withdrawal, while partial recovery of lesion number and a great increase in volume occurred after the second TB cycle. Liver ornithine decarboxylase (ODC) activity and c-myc and c-Ha-ras mRNAs increased during the TB cycles and returned to normal liver values after TB withdrawal. Number and size of GGT-positive lesions, DNA synthesis of GGT-positive cells, liver ODC activity and c-myc and c-Ha-ras mRNA levels decreased as a consequence of SAM treatment A. The recovery of these parameters, induced by a second TB cycle in rats not treated with SAM, was prevented by SAM treatment B. These results suggest that SAM causes a persistent decrease in growth capacity of preneoplastic liver lesions in rats subjected to a diethylnitrosamine/TB protocol.

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A comparative biochemical and histological study on the hepatotoxicity of a single dose of N,N-dimethylformamide (DMF) and N-methylformamide (NMF) in control and acetone-treated SD male rats and CD-1 male mice was performed. In control and acetone-pretreated rats, neither DMF nor NMF caused hepatic damage or elevation of plasma transaminases. In contrast, in acetonized but not in control mice, DMF administration yielded some evidence of liver necrosis and elevation of ALAT (alanine-amino transferase) activity. After a DMF dose of 1000 mg/kg, ALAT activity was found 1215 +/- 832 mU/ml and 47 +/- 18 mU/ml in acetonized and control mice, respectively. NMF treatment was hepatotoxic in control mice and lethal in acetonized mice. In control mice, an NMF dose of 600 mg/kg increased ALAT activity from a basal value of 35 +/- 5 to 2210 +/- 1898 mU/ml. When the oxidative metabolism of DMF was investigated, microsomes from both rats and mice preinduced by acetone increased the demethylation rate of DMF 7 to 10-fold compared to that (about 0.25 nmol/min per mg protein) of the corresponding control microsomes. The enzymatic affinities for DMF oxidation, however, were different: in mice the Km (0.05 mM) was one order of magnitude lower than that (0.56 mM) found in rats. The experiments performed with purified rat and mouse P-450 2E1 in a reconstituted system confirmed that the P-450 2E1 isoforms are very active catalysts towards DMF oxidation (the turnover was about 10 nmol/min per nmol P-450 for both enzymes) but with a strikingly different affinity. Whereas the Km for mouse P-450 2E1 was 0.08 +/- 0.03 mM, that for rat P-450 2E1 was 1.1 +/- 0.2 mM.(ABSTRACT TRUNCATED AT 250 WORDS)

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Pulsing Electromagnetic Field (PEMF) effects lead to a modification of the multidrug resistance (MDR) of cells in vitro and in vivo. The murine leukemic doxorubicin-resistant cell line, P388/Dx, subjected to PEMF irradiation in vitro, showed a significant difference in thymidine incorporation when the concentration of doxorubicin reached a level of 1 microgram/mL, which corresponds to the inhibition dose 50 (ID50). The human lymphoblastic leukemia vinblastine-resistant cell line, CEM/VLB100, also showed a significant modification under the same experimental conditions at the in vitro ID50 corresponding to a vinblastine concentration of 100 ng/mL. BDF1 mice transplanted with P388/Dx cells also had an increase in their life span when doxorubicin was injected intraperitoneally in fractionated doses, while being subjected to PEMF irradiation.

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We measured the cholinesterase activity in morning urines from 63 insulin-dependent diabetics and 27 controls. The total esterase (TotE) activity (Ellman's method) has been divided into aliesterase (AliE), pseudocholinesterase and acetylcholinesterase by means of two inhibitors, eserine and quinidine. Diabetics were divided in 2 groups according to the urinary albumin/creatinine ratio (mg/mmol, < 2 in group 1, > 2 in group 2). The urinary cholinesterase behavior was correlated with that of a known tubular lysosomal hydrolase, N-acetyl-beta-D-glucosaminidase (NAG). Compared to normals, in addition to a significant increase in urinary NAG in diabetes (in group 2 more than in group 1), TotE and AliE were also significantly raised (+36% and 109% of the controls, in group 1 as much as in group 2).

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Results of our conclusive study on urinary enzyme stability during sample storage are reported. We measured alanine aminopeptidase (AAP) and N-acetyl-beta-D-glucosaminidase (NAG) in morning urines from 9 healthy normal subjects immediately after collection and throughout a 1-year storage at -70 and -20 degrees C. AAP proved to be quite stable at -70 degrees C (99.2% of the basal value at the end of the year). NAG is partially preserved (84.1% of the basal value) at -70 degrees C, but significantly decreased (50.4%) at -20 degrees C.

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The effect of acetone pretreatment (5% in drinking water for 10 days on rat liver metabolism and toxicity of thiobenzamide (TB) was investigated. Hepatic microsomes from acetone-pretreated rats showed a significant increase of TB-S-oxidation rate which, on the basis of selective thermal inactivation of FAD-containing monooxygenase (FADM), appeared dependent only on cytochrome P-450. Furthermore, TB was able to competitively inhibit acetone hydroxylase (AcH), an enzymatic reaction highly specific for the P-450IIE1 isozyme. Acetone pretreatment of rats also produced an exacerbation of liver damage induced by acute administration of TB (150 mg/kg), as judged by the extent of liver necrosis and serum alanine-amino transferase (ALAT) activities. Coadministration of acetone with TB reduced on the other hand the extent of liver damage. The findings suggest that P-450 species induced by acetone, and in particular the P-450IIE1 isozyme, could be involved in the biotransformation of TB.

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To verify whether a mild, but prolonged liver injury by chemicals needing bioactivation causes both hepatic cirrhosis and the appearance of hepatocyte nodules and tumors (providing the liver has been exposed previously to initiating stimuli), diethylnitrosamine-initiated and uninitiated rats were administered thioacetamide at low dose (250 mg/l drinking water) for 6 months. Hepatocyte nodule incidence as well as changes in the drug-metabolizing system were followed at monthly intervals. In the uninitiated rats a micronodular liver cirrhosis slowly developed upon thioacetamide chronic administration; a few hepatocyte focal lesions of small size were seen from the 3rd month onward. By contrast in the diethylnitrosamine-initiated thioacetamide-treated rats the liver was macronodular because of the appearance and growth of many hepatocyte nodules; some hepatomas were also seen. During thioacetamide administration both uninitiated and diethylnitrosamine-initiated rats underwent a progressive decrease of the cytochrome P-450 liver content as well as of the activity of aminopyrine N-demethylase, ethoxycoumarin O-deethylase and ethoxyresorufin O-deethylase. On the other hand, most components of the phase II of the drug-metabolizing system were markedly enhanced. In conclusion, chronic administration of thioacetamide at low doses provided strong promoting stimuli for previously initiated hepatocytes.

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The changes in the hepatic drug metabolizing enzymes induced by the liver tumor promoter thiobenzamide (TB) were investigated. Feeding of TB to rats at a promoting regimen (1 g/kg of diet for 2 weeks) resulted in a significant decrease in the amount of liver microsomal cytochrome P-450 and of total heme. Also, the activity of cytochrome P-450 dependent monooxygenases (aminopyrine demethylase, arylhydrocarbonmonooxygenase and ethoxycoumarindeethylase) and FAD-containing monoxygenase (N,N-dimethylaniline N-oxidase and TB S-oxidase) were depressed. By contrast, phase II enzymes such as epoxide hydrase, UDP-glucuronyl transferase and GSH-transferase were significantly induced. This overall change in the drug metabolizing system was associated with tolerance of the liver towards a high necrogenic dose of TB itself as well as with an increase of mitoses and apoptosis of the hepatocytes. The findings suggest a possible relationship between this TB-induced adaptive response and the promoting activity of the compound on liver carcinogenesis.

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To characterize the promoting activity of thiobenzamide (TB), a thiono-sulfur-containing xenobiotic, rats of both sexes were treated with the compound for 4 or 8 weeks after an initiating dose of diethyl-nitrosamine. The number, area (volume), and phenotypic complexity of the enzyme-altered hepatocyte foci were studied in serial sections stained with hematoxylin/eosin and reacted for glycogen, iron, and gamma-glutamyltranspeptidase activity. The TB-induced changes on the drug metabolizing systems were also investigated. The main findings were: When fed in a dose range of 500-2,000 mg/kg of diet, TB induced a number of foci greater than controls, especially in female rats. Benzamide, a major TB metabolite, was ineffective. The appearance of hepatocyte foci upon TB feeding was nearly synchronized. An increase of the phenotypic complexity of the hepatocyte foci occurred only during the first 4 weeks of TB administration; it correlated with an increase in size. The liver microsome content of cytochrome P-450 as well as the activity of many monooxygenases was decreased, some of the phase II reactions being increased. In conclusion TB behaves as an efficient promoter of liver carcinogenesis, possibly as a consequence of an induced adaptive response.

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Thiobenzamide (TB) administration to rats (1 g/Kg of diet for 4 weeks) 10 days after a single i.p. injection of dimethylnitrosamine promotes the growth of preneoplastic liver lesions as evidenced by the sharp increase in number and area of gamma-glutamyltranspeptidase-positive hepatocellular foci. At the same time the number of the plaque forming cells isolated from the spleen of rats challenged with sheep red blood cell after the completion of a TB cycle is significantly lower than in the controls 5 as well 13 days after immunization. Accordingly, TB could act as immunodepressant in the rat; this should be taken into account as far as the promoting ability of such xenobiotic is concerned.

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