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Query: UNIPROT:P06889 (Mol)
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Mammalian heart myocytes have a limited capacity to withstand the deleterious effects of free radical generating compounds. To assess the role of the glutathione redox cycle relative to this capacity, rat heart cell cultures were subjected for 90 min to 80 mumol/l cumene hydroperoxide (CHPO) without and with prior glutathione depletion by buthionine sulfoximine. Preincubation of cultures with 125 mumol/l buthionine sulfoximine for 2 h and 17 h caused a reduction of glutathione by 33% and 82%, respectively, without concomitant increase of glutathione disulfide. Subsequent incubation with CHPO for 90 min caused slowing of NADPH consumption (in the first 20 min 27 pmol vs 68 pmol without pretreatment with buthionine sulfoximine for 17 h), which indicates that glutathione depletion reduced the turnover rate of the glutathione redox cycle. Pretreatment with buthionine sulfoximine for 17 h exaggerated the negative chronotropic effects of CHPO: the time elapsed to 50% of baseline contraction frequency fell from 5.7 +/- 1.4 min without buthionine sulfoximine to 3.7 +/- 0.4 min after pretreatment with buthionine sulfoximine (P < 0.02). The severity of CHPO-induced lipid peroxidation as assessed by malondialdehyde formation (2.23 +/- 0.51 vs 0.99 +/- 0.05 nmol in the first 20 min; P < 0.05) was increased by buthionine sulfoximine pretreatment, as was the extent of cell necrosis as assessed by release of alpha-hydroxybutyrate dehydrogenase (39.5 +/- 5.1 vs 29.0 +/- 12.9% in the first 45 min). A "sublethal" dose of 10 microM CHPO for 60 min caused no substantial HBDH release, no formation of malondialdehyde, and no exhaustion of cellular GSH (35 nmol/U HBDHt = 0). However, following pretreatment with buthionine sulfoximine, 10 microM CHPO for 60 min produced 12% HBDH release and extensive lipid peroxidation (1.95 nmol malondialdehyde/U HBDHt = 0). As the deleterious effects of CHPO were aggravated by glutathione depletion, we conclude that the glutathione redox cycle plays a major role in the protection of myocytes against peroxide-induced free radical attack.
J Mol Cell Cardiol 1993 May
PMID:Buthionine sulfoximine reduces the protective capacity of myocytes to withstand peroxide-derived free radical attack. 810 52

Molecular cloning of the prolactin (PRL) receptor cDNA has revealed different forms of the receptor: among them, the longest form encodes a transmembrane protein of 592-598 amino acids and was originally found in rabbit mammary gland as well as in human and rat tissues. It contains a cytoplasmic domain of 358 amino acids. In CHO cells transfected with the PRL receptor cDNA, PRL is able to induce the specific expression of a reporter gene provided with the promoter of the milk protein gene beta-lactoglobulin. The cDNA encoding this long receptor form has been expressed permanently after stable transfection of Chinese hamster ovary (CHO) cells. In these cells, we have determined the fate of the bound hormone and of the receptor. At 37 degrees C, transfected cells were able to endocytose 125I-labeled human growth hormone (hGH) or ovine prolactin (oPRL) at an initial rate of about 1 fmol/h at 100 pM labeled hormone and 10(6) cells/well. Lowering the temperature to 15 degrees C slowed the endocytosis of [125I]hGH by a factor of 5. These results were confirmed by electron microscopy with oPRL labeled with colloidal gold. At 37 degrees C, the receptor underwent rapid insertion to the cell surface and constitutive endocytosis (half-life 80 min). This rate of endocytosis was enhanced in the presence of 10 nM oPRL (half-life 8 min), leading to down-regulation of the receptor by exhaustion of the intracellular receptor pool. After down-regulation, the cell surface was replenished with newly synthesized PRL receptor with a half-time of 8-10 min. If cycloheximide was added, almost no receptors could be found on the cell surface. These results indicate that in transfected cells the PRL receptor behaved largely as in classical target cells. A "conveyor belt" endocytosis behavior was found, with degradation of the endocytosed receptors, and occupation by the hormone enhancing this process. Moreover, since the PRL receptor belongs to a family of receptors in which companion protein(s) seem to play important roles, transfected CHO cells appear to provide the expressed receptors with the necessary element(s) to function as in normal PRL target cells.
Mol Cell Endocrinol 1994 Mar
PMID:Endocytosis and degradation of prolactin and its receptor in Chinese hamster ovary cells stably transfected with prolactin receptor cDNA. 820 30

Zygotic expression of the three rows (thr) gene of Drosophila melanogaster is required for normal cell proliferation during embryogenesis. Mitotic defects in thr mutant embryos begin during mitosis 15, and all subsequent divisions are disrupted. Chromosome disjunction and consequently cytokinesis fail during these defective mitoses, although the initial mitotic processes (chromosome condensation, spindle assembly, metaphase plate formation, and cyclin degradation) are not affected. Despite the failure of chromosome disjunction and cytokinesis, later mitotic events (chromosome decondensation) and subsequent cell cycle progression continue. The thr gene has been isolated and shown to encode a 1209 amino acid protein that shares no extended sequence similarity with known proteins. thr mRNA is present as maternal mRNA that degrades at the time of cellularization. At this and all subsequent times during embryogenesis, zygotic expression correlates with mitotic proliferation. These observations, together with the observation that the zygotic phenotype of thr mutant embryos is influenced by the maternal genotype, suggest that the embryonic phenotype results from exhaustion of the maternal thr contribution and does not reflect a developmentally restricted requirement for thr function. Our results indicate that the novel thr product is required specifically for chromosome disjunction during all mitoses.
Mol Biol Cell 1993 Nov
PMID:The three rows gene of Drosophila melanogaster encodes a novel protein that is required for chromosome disjunction during mitosis. 830 37

The role of glutathione (GSH) in myocardial antioxidant defense was investigated in Swiss-Webster mice either performing swim exercise to exhaustion or rested in both the GSH adequate (GSH-A) and GSH deficient (GSH-D) states. GSH deficiency was accomplished by injecting mice with L-buthionine [S,R]sulfoximine (BSO; 2 nmol/kg body wt, i.p.) and providing BSO (20 mM) in drinking water for 12 days. GSH and glutathione disulfide (GSSG) contents in the GSH-D hearts were decreased to 10 and 8%, respectively, of those in the GSH-A mice. This decrease was associated with a significant decline of the total glutathione level in the liver, skeletal muscle and plasma. Myocardial GSH peroxidase and GSH sulfur-transferase activities decreased significantly following GSH deficiency, whereas superoxide dismutase activity was significantly elevated. GSH deficiency did not affect exercise endurance performance. However, exhaustive exercise decreased GSH content in the myocardium of the GSH-A and GSH-D mice by 22 and 44% (p < 0.05), respectively. The GSH:GSSG ratio was not altered significantly following exercise because of a concomitant decrease in GSSG (p < 0.05). gamma-Glutamyltranspeptidase activity was significantly increased after exercise, especially in the GSH-D hearts (72%; p < 0.05). GSH content after exercise correlated negatively with exercise time in both GSH-A and GSH-D mice (p < 0.05). These data indicate that GSH is actively used in the myocardium during prolonged exercise at moderate intensity and that GSH deficiency is tolerated by the heart, possibly compensated for by an increased GSH uptake from the plasma.
Mol Cell Biochem 1996 Mar 09
PMID:Effect of acute exercise on glutathione deficient heart. 870 71

UDPG-dependent trehalose synthase activity was determined during growth on glucose medium in controls and yeast strains having deletions on components of the trehalose phosphate synthase complex. Deletion of TPS3 produced any alteration. In contrast, strains harboring deletions tsl1 delta or tsl1 delta/tps3 delta showed no activation of enzyme after glucose exhaustion. To evaluate the role played by TPS3 and TSL1 on trehalose synthase activity we have determined the effect of the addition of a cell free extract from a strain expressing only TPS3 and TSL1 to extracts of strains lacking TSL1, TPS3 or both. No effect was observed on trehalose synthase activity from tps3 delta mutant. The addition of the same extract to trehalose synthase from tsl1 delta or tsl1 delta/tps3 delta strains showed a two-fold activating effect, indicating that TPS3 and TSL1 regulated differently the UDPG-dependent trehalose synthase activity.
Biochem Mol Biol Int 1996 Feb
PMID:A regulatory role for TSL1 on trehalose synthase activity. 885 May 21

The aim of the present study was to find out whether activities of the enzymes controlling adenosine metabolism, 5'-nucleotidase (5NT) and adenosine deaminase (ADA), in the left ventricle of the rat's heart change after 6 weeks of endurance or sprint training. Additionally, an influence of a single bout of endurance exercise till exhaustion on activities of these enzymes was investigated in sedentary and trained rats. The rats were divided into three groups: (1) sedentary controls (C), (2) endurance-trained (ET), and (3) sprint-trained (ST). It was shown that both types of training increased 5NT, but did not change ADA activity in the rat heart. Acute exercise till exhaustion did not affect 5NT activity in the heart taken from C and ST rats, but decreased its activity in the ET group. The heart ADA activity after exhaustive exercise increased in C and in ET group, but decreased in ST animals. It is concluded that physical training affects cardiac adenosine metabolism and the type of training may exert an influence on purine nucleotides metabolism in the heart during exhaustive exercise.
Biochem Mol Med 1996 Oct
PMID:Effect of various types of exercise training on 5'-nucleotidase and adenosine deaminase activities in rat heart: influence of a single bout of endurance exercise. 890 90

The results in this paper indicate that mitochondrial permeability transition is activated by dysfunction of the respiratory chain caused by anaerobiosis, exhaustion of the oxidative substrate, and antimycin A, in the presence of 100 microM Ca2+. Membrane damage coincides with the collapse of the electric gradient. The opening of the non-selective pore is prevented by cyclosporin A.
Biochem Mol Biol Int 1997 Apr
PMID:Membrane permeability transition as induced by dysfunction of the electron transport chain. 913 27

We investigated the effect of a single bout of intensive exercise on the excretion of 8-hydroxy-deoxyguanosine in the 24 h urine from healthy non-smokers. We studied three exercise tests in Experiment 1; which consisted of incremental exercise to exhaustion on a treadmill in eleven male long distance runners. Experiment 2; which comprised incremental exercise until reaching exhaustion on a bicycle ergometer in six male untrained subjects. Experiment 3; which consisted of a 20 km run by eleven male long distance runners. No differences in the urinary 8-hydroxy-deoxyguanosine excretion were observed from days 1 to 3 after each respective exercise regimen. However, significant increases in the plasma creatine kinase activity were observed at 24 h or 48 h after exercise, except for Experiment 2. Our results thus suggest that the oxidative stress during a single bout of intensive exercise does not result in an accumulation of oxidative DNA damage.
Biochem Mol Biol Int 1997 Jul
PMID:No influence of a single bout of exercise on urinary excretion of 8-hydroxy-deoxyguanosine in humans. 924 18

Mitochondria are cellular organelles where the generation of reactive oxygen species may be high. They are, however, effectively protected by their high capacities of antioxidative systems, as enzymes and either water or lipid soluble low molecular weight antioxidants. These antioxidative defence systems can be effectively regenerated after or during an oxidative stress as long as the mitochondria are in an energized state. Energization of mitochondria mainly depends on the availability of suitable respiratory substrates which can provide hydrogen for the reduction of either the glutathione- or alpha-tocopherol-system, since GSH is regenerated by glutathione reductase with the substrate NADPH and the alpha-tocopheroxyl-radical likely by reduced coenzyme Q. It was shown that mitochondria do not undergo damages as long as they can keep a high energy state. The delicate balance between prooxidative/antioxidative activities can be shifted towards oxidation, if experimentally prooxidants were added. After exhaustion of the antioxidative defence systems damages of mitochondrial functions become expressed followed by membrane injuries along with the oxidation and degradation of mitochondrial lipids and proteins leading finally to the total degradation of the mitochondria. Extramitochondrial antioxidants may assist the mitochondrial antioxidative defence systems in a complex way, whereby particularly ascorbic acid can act both as prooxidant and as antioxidant.
Mol Cell Biochem 1997 Sep
PMID:Role of endogenous and exogenous antioxidants in the defence against functional damage and lipid peroxidation in rat liver mitochondria. 930 88

We have assessed in a phase I/II clinical study the tolerability and efficacy of long-term application of recombinant human interleukin-3 (rh-IL-3) in combination with antithymocyte globulin (ATG) and cyclosporin A (CSA) in 13 patients with aplastic anemia who were refractory to or relapsed after previous immunosuppressive treatment. Four cohorts of three patients were consecutively enrolled so that they received rh-IL-3 on days 9, 6, 3 and 1 after start of ATG/CSA treatment. Yeast-derived recombinant human IL-3 was administered by daily subcutaneous injection until day 90 at a dosage of 250 micrograms/m2. Long-term application of rh-IL-3 was well tolerated. The combination of rh-IL-3 with immunosuppression did not modify the known toxicities of ATG and CSA. Incidence and severity of rh-IL-3-related adverse events was less than in other phase I/II trials of rh-IL-3 as single-agent therapy. One might speculate that co-medication with CSA alleviates rh-IL-3-induced side effects. Three of eight patients with refractory AA and all four patients with relapsed AA responded to the combined treatment within four months. The median time to response was 91.5 days. There was evidence for an rh-IL-3-dependent response in two patients. Long-term rh-IL-3 did not cause stem cell exhaustion. One patient died early during the course of the study from EBV-driven lymphoproliferative disease. Two patients developed acute myeloid leukemia 4 and 22 months after cessation of rh-IL-3. In conclusion, long-term rh-IL-3 in combination with immunosuppression is well tolerated. The response rate to the combined treatment in refractory and relapsed AA was high. Recombinant human IL-3-dependent responses suggest efficacy. A prospective randomized trial comparing immunosuppression alone versus a combination with rh-IL-3 is warranted.
Cytokines Mol Ther 1996 Dec
PMID:Long-term interleukin-3 and intensive immunosuppression in the treatment of aplastic anemia. 938 7


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