UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The objective of this study was to characterize the effect of prostacyclin (PGI2) on ventricular function following total global ischemia in isolated working rat hearts and to investigate the mechanism of its action. Ischemia was initiated for 10, 15, 20 or 25 min with or without treatment with PGI2. Increasing durations of ischemia resulted in a progressive decline in high energy phosphate (HEP) stores, an elevation in tissue lactate, and incomplete recovery of function with reperfusion. Prostacyclin at either 1 or 10 ng/ml had no effect on HEP levels or total adenine nucleotides, and tissue lactate was not significantly affected by PGI2 in hearts made ischemic for 10 to 20 min, but both PGI2 concentrations significantly elevated lactate levels after 25 min ischemia. Reperfusion recovery of left ventricular function was complete following 10 and 15 min ischemia, but incomplete recovery was evident following 20 min ischemia (77% of pre-ischemic function); and although PGI2 had no direct effect on the function of aerobically perfused hearts, recovery of aortic flow with 1 ng/ml PGI2 after 20 min of ischemia was reduced to approximately 20% (P less than 0.01). This depression in recovery was associated with significantly increased lactate levels during reperfusion. At a concentration of 10 ng/ml PGI2 did not depress ventricular recovery or elevate lactate content after 20 min ischemia. When hearts made ischemic for 20 min were analyzed, a significant negative correlation was found between ventricular recovery (aortic flow rate) and lactate concentration; however, no correlation existed between recovery and ATP levels. After 25 min of ischemia, five of eight (62.5%) untreated hearts demonstrated some degree of ventricular recovery, however, only two of ten hearts studied demonstrated any measurable functional recovery with either PGI2 concentration. This effect of PGI2 to reduce or prevent recovery of ventricular function following either 20 or 25 min of ischemia as well as the corresponding elevation in lactate levels was prevented by treatment with the calcium channel blocker verapamil. This study therefore shows that PGI2 at critical low concentrations can depress left ventricular recovery following total ischemia. This effect of PGI2 becomes more pronounced as ischemia duration is prolonged and is associated with elevated tissue lactate levels. The studies with verapamil suggest that PGI2 may be acting via the slow calcium channel to increase lactate levels and depress ventricular recovery following prolonged periods of ischemia.
J Mol Cell Cardiol 1989 Mar
PMID:Inhibition of post-ischemic ventricular recovery by low concentrations of prostacyclin in isolated working rat hearts: dependency on concentration, ischemia duration, calcium and relationship to myocardial energy metabolism. 266 90

Using pre-labelling rather than pulse-labelling studies to determine rates of replication, we have shown that coliphage 186 infection is accompanied by a depression in host DNA replication. We have isolated mutants of the phage gene involved and mapped them in the early region of the phage genome. Sequencing the mutants ultimately led us to the identification of the gene that we have named the dhr gene.
J Mol Biol 1989 Mar 05
PMID:DNA replication studies with coliphage 186. II. Depression of host replication by a 186 gene. 270 43

Strains of Rhizobium leguminosarum biovar viciae specifically make an abundant protein (Rhi) in free-living culture but not in bacteroids. Genes needed for Rhi synthesis are on a Sym plasmid and here we show that one of these genes, rhiA, is the structural gene that specifies this polypeptide. Transcription of rhiA requires a regulatory gene, rhiR, located close to rhiA and to nod genes involved in nodulation. Mutations in rhiA or rhiR do not appear to affect symbiotic nitrogen fixation. Transcription of rhiA is repressed in cells grown in the presence of the flavanone hesperetin or the flavone apigenin, both of which are potent inducers of transcription of nod genes. This was deduced from the use of rhiA-lacZ fusions; however, when the Rhi polypeptide was detected in SDS gels, there was no apparent difference in the intensity of its staining in extracts obtained from cells grown with or without these flavanoid nod gene inducer molecules. However, a mutation in a nodulation gene, nolR, also closely linked to the nod and rhi genes, caused a severe depression in the amount of Rhi (as seen on gels) that was made in cells grown in the presence of inducer flavanoids.
Mol Microbiol 1989 Jan
PMID:Transcription of rhiA, a gene on a Rhizobium leguminosarum bv. viciae Sym plasmid, requires rhiR and is repressed by flavanoids that induce nod genes. 271 20

Quantitative Evaluation of Relationship between Cardiac Energy Metabolism and Post-ischemic Recovery of Contractile Function. Mechanisms of ischemic damage were studied by defining the relationships between post-ischemic work recovery and tissue ATP levels in isolated rat hearts as well as mitochondrial respiration rates in skinned myofibrils. Pre-ischemic levels of ATP were reduced by 2-deoxyglucose treatment and assessed using 31P-NMR. A 70% fall of ATP was not associated with decreased functional recovery. Mitochondrial respiration was assessed without mitochondrial isolation in skinned cardiac fibers in physiological salt solution using a novel method developed by Veksler et al. Maximal rates of mitochondrial respiration were not changed after 35 min of normothermic ischemia using St. Thomas's Hospital cardioplegic solution followed by 30 min of aerobic reperfusion. Only a reversible increase in the rate of basal respiration and a decrease in creatine-stimulated oxygen uptake were observed. Thus, mitochondrial oxidative phosphorylation, as assessed in skinned myofibrils, was tolerant to an ischemic period which induced permanent depression of contractile function along with alterations in metabolite distribution. As a result, tissue level of ATP and rates of mitochondrial respiration provided an estimate of ischemic damage only in cases where damage reached a very severe extent.
J Mol Cell Cardiol 1989 Feb
PMID:Quantitative evaluation of relationship between cardiac energy metabolism and post-ischemic recovery of contractile function. 273 31

Left ventricular (LV) contractile function and pump function were depressed in isolated working hearts from rats treated with either guanidinopropionic acid (GPA), an inhibitor of creatine influx, or the anthracycline antibiotic, adriamycin, for 6 and 10 weeks, respectively. In both groups of treated animals myocardial phosphocreatine content was lower than in control hearts, while ATP content was unchanged. Hearts of treated animals exhibited only a minor depression of cardiac output with a submaximal pressure load or during volume overload. However, at maximal pressure load GPA- and adriamycin-treated hearts performed 43% and 37% less pressure-volume work than control hearts. These changes were due both to decreased LV pressure development and diminished cardiac output. LV diastolic stiffness was significantly higher at the submaximal pressure load and the LV filling pressure area, which reflected LV filling, was lower in hearts of both treated groups. The differences in both indices were exaggerated when the maximal pressure load was applied. Limited LV filling due to incomplete myocardial relaxation appeared to represent the underlying cause of cardiac failure when afterload was increased. These results may be explained if adaptation of cardiac contractile function in some chronic cardiac diseases arises from a limited energy supply to the myofibrils.
J Mol Cell Cardiol 1989 Feb
PMID:Adaptation of cardiac contractile function to conditions of chronic energy deficiency. 273 32

Adaptation to repeated stress prevents or limits ischemic and reperfusion arrhythmias in the whole organism. In studying mechanism of this phenomenon, we have investigated the effect of local ischemia and subsequent reperfusion on the function of isolated hearts of rats adapted to the stress of repeated immobilization. We established that such adaptation limited the depression of the amplitude and velocity of contraction and velocity of relaxation of the heart in ischemia and subsequent reperfusion. Simultaneously this adaptation limited reperfusion-induced arrhythmias to a considerable extent; in particular, the duration of reperfusion-induced fibrillation was reduced two-fold. Thus the cardioprotective antiarrhythmic effect of adaptation of the organism to stress exposure depends not only on adaptive alterations of central regulation, but to a considerable extent, is determined by processes occurring at the level of the heart itself.
J Mol Cell Cardiol 1989 Mar
PMID:Adaptation to stress increases the heart resistance to ischemic and reperfusion arrhythmias. 274 55

Keratinocytes from mouse skin were cultured for a short period in vitro following single or multiple treatments at low dose levels in vivo with the known chromosome-damaging agent triethylenemelamine (TEM). The chemical was applied to the skin of HRA/Skh hairless mice at concentrations corresponding to those reported to initiate cancer in initiation-promotion assays. A significant dose-related depression in keratinocyte cell recovery occurred over the dose range 0.3-1 mg TEM/mouse (single or multiple treatments). Under the same conditions, a dose-related induction of micronuclei was observed using the cytokinesis-block method with cytochalasin B. A similar frequency of micronuclei was detected in binucleate cells from mice treated with single or multiple applications of TEM. Mice held for 12-48 h post-treatment, before removal of skin for in vitro culture, yielded highest micronuclei frequencies. These results indicate that the same target cell population, skin keratinocytes, can be used to investigate both genotoxicity and carcinogenesis, and that micronucleus induction in these cells may be a sensitive signal of skin cancer initiation.
Environ Mol Mutagen 1989
PMID:Initiating carcinogen, triethylenemelamine, induces micronuclei in skin target cells. 275 23

Several hepatotoxic agents with varied chemical mechanisms of toxicity (acetaminophen, diquat, and CCl4) depress membrane calcium pumps and/or enhance the permeability of membranes to calcium. To probe the relevance of these findings to maintenance of calcium homeostasis after toxins in vivo, we measured the activity of glycogen phosphorylase a, as an index of cytosolic free [Ca2+], in freeze-clamped liver samples obtained at several times after the toxin dose. Both acetaminophen and diquat caused significant increases of phosphorylase a activity, and activity remained elevated for several hours after the dose. Significantly, the administration prior to diquat of desferrioxamine, which offers protection against the liver necrosis and depression of microsomal Ca2+ accumulation observed after diquat alone (Tsokos-Kuhn et al., Mol Pharmacol 34: 209-214, 1988), decreased phosphorylase activation. Activation of phosphorylase was observed also after CCl4 administration, as previously reported by Long and Moore (Biochem Pharmacol 35: 4131-4137, 1986). We conclude that perturbations in liver membrane Ca2+ regulation observed after administration of these hepatotoxins in vivo correlate directly with phosphorylase a activity, thereby providing additional in vivo evidence for an alteration of Ca2+ homeostasis early in the development of the liver damage produced by these chemicals.
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PMID:Evidence in vivo for elevation of intracellular free Ca2+ in the liver after diquat, acetaminophen, and CCl4. 278 60

The antileukemic agent 6-thioguanine (TG) is thought to inhibit DNA synthesis as a result of its incorporation into DNA. In the present study we have examined the nature of this inhibition, using replication of SV40 viral DNA as a model system. Addition of TG to SV40-infected CV1P cells from 22 to 24 hr post infection causes a dose-dependent inhibition of viral DNA synthesis. This inhibition plateaus between 250 and 2500 microM TG, resulting in a maximum decrease of viral DNA synthesis of about 50%. Pulse-chase experiments showed no detectable slowing of elongation of nascent DNA chains, whereas measurement of the conversion of incorporated 3H-dThd into supercoiled viral DNA suggested that elongation might be slightly inhibited, but by no more than 20%. Since inhibition of elongation could not account for the total depression of DNA synthesis, we hypothesized that inhibition of initiation of DNA replication takes place. This hypothesis was tested by radioactively labeling newly synthesized viral DNA and then assessing the ability of these molecules to reenter the replicating pool by density labeling with bromodeoxyuridine. The fraction of TG-containing molecules able to re-initiate replication was decreased 15%, compared to control. This effect, which was dependent on the concentration of TG added to the medium, was closely correlated to the extent of TG incorporation into the viral genome. We concluded that a portion of SV40 viral DNA synthesis inhibited by TG is due to an effect on initiation, and hypothesized that this effect may be caused by the substitution of TG for guanine in critical recognition sequences at the origin of replication. We proceeded to test this hypothesis by constructing SV40 origin sequences containing TG and then measuring their ability to bind T-antigen in vitro. The necessary deoxynucleoside triphosphate, TdGTP, was obtained by chemical phosphorylation of thiodeoxyguanosine. In order to selectively place TG within the desired region, a plasmid containing the T-antigen binding sequences was linearized so as to place these sequences at one end of the molecule, and then digested briefly with exonuclease III. The excised strand was resynthesized by use of the Klenow fragment of DNA polymerase I along with various nucleotide mixtures. Although resynthesis with mixtures containing TdGTP in place of dGTP was impeded somewhat, it was possible to achieve complete resynthesis with this analog.(ABSTRACT TRUNCATED AT 400 WORDS)
Mol Pharmacol 1987 Nov
PMID:Effects of incorporation of 6-thioguanine into SV40 DNA. 282 79

The results of our experiments demonstrated that one hour of ischemia followed by one hour of reflow in the kidney caused a reduction in (Na+K+)ATPase activity and microsomal sulfhydryl content as well as an increase in microsomal lipid peroxidation. Renal venous malondialdehyde concentration was increased soon after reperfusion of the ischemic kidney. All these changes were rectified by an infusion of 0.123 mmol N-(2-mercaptopropionyl)glycine/kg over a 70 min period. On the other hand, an in vitro addition of 0.01-0.5 mM N-(2-mercaptopropionyl)glycine to a membrane preparation in the presence of H2O2 and Fe3+ did not prevent but rather potentiated the free radical effect on the enzyme activity. However, addition of superoxide dismutase alone or with catalase together with 2-MPG were effective in preventing the enzyme depression induced by H2O2. The results therefore indicate that free radical generation participates in the evolution of ischemia/reperfusion cell injury and thiol-reducing agents may be beneficial in alleviating the cell damage in vivo.
Mol Cell Biochem 1987 Dec
PMID:Effects of N-(2-mercaptopropionyl)glycine on ischemic-reperfused dog kidney in vivo and membrane preparation in vitro. 283 50

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