UMLS:C0040822 - FACTA Search

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Query: UMLS:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Simple cold storage of livers for transplantation activates glycolysis due to lack of oxygen. Energy derived from glycolysis may be critical for cell survival and liver cell death may occur once glycolysis is inhibited in the liver due to accumulation of end products or lack of substrates (glycogen). The relationship between cell death (lactate dehydrogenase, LDH release), anaerobic glycolysis (lactate production), and glycogen content of liver tissue was studied during cold incubation of liver slices in UW solution. Rat livers slices from male Sprague Dawley rats were incubated at 4 degrees C in UW solution, with continuous gentle shaking, under conditions of chemical hypoxia (KCN, 5 mM). The rate of lactate production, LDH release-ATP and glycogen content were measured spectrophotometrically and by HPLC. Lactate increased nearly linearly for the first 48 h of incubation; total lactate which had accumulated after 48 h was 33.9 +/- 0.81 mumol/g and at 96 h nearly the same, 31.3 +/- 1.2 mumol/g. Glycolysis stopped, apparently, because of the depletion of liver slice glycogen which was initially 228.8 +/- 1.7 mumol/g wet wt. It decreased to 34.7 +/- 2.7 mumol/g at 48 h and to 18.7 +/- 1.1 mumol/g at 72 h and remained at this level for the next 24 h. An increased leakage of LDH occurred once glycogen metabolism (and accumulation) ceased. LDH release could be stimulated after only a few hours of cold incubation of liver tissue slices by adding glycolysis inhibitor (iodoacetic acid) to the medium. After 24 h. LDH release was 24.4 +/- 1.8% and increased to 52.8 +/- 5.2% (P < 0.05, Student's t-text) with iodoacetic acid. Adding a glycolytic substrate (fructose, 10 mM) to the medium maintained lactate production for 96 h. The stimulation of glycolysis by fructose also reduced cell death: LDH release was significantly lower at 72- and 96-h incubation (P < 0.001, two-way ANOVA). The ATP content was significantly higher with fructose (P < 0.001). Adding glucose (20 mM) and fructose (10 mM) in combination resulted in prolonged cell survival, significantly delayed glycogen depletion and significantly higher ATP content at 48 and 72 h (two-way ANOVA). Livers from rats who had fasted for 24 h demonstrated the same LDH release at 48 h when incubated with glucose (20 mM) and fructose (10 mM). In conclusion, LDH leakage from hypoxic cold-stored liver slices is related to anaerobic glycolysis. Anaerobic glycolysis appears to continue slowly under hypothermia and provides sufficient energy for maintenance of cell viability. A stimulation of glycolysis in the cold is possible by fructose and results in prolonged cell survival under hypothermic conditions. Glycogen depletion can be slowed down by combining glucose and fructose.
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PMID:[Liver metabolism during cold ischemic incubation in UW solution in the rat model]. 949 7

We examined the maintenance of functional and morphological integrity of precision-cut rat liver slices cultured in various incubation systems and conditions for 72 h. Slices were incubated (37 degrees C) for 6, 24, 48, and 72 h in supplemented Williams E medium in 6-well plastic culture plates on a gyratory shaking platform (WPCS) or in a rotating organ culture system (ROCS) using 5% CO2--95% air (WPCS/air or ROCS/air) or 5% CO2--70% O2--25% N2 (WPCS/O2 or ROCS/O2). Biochemical and functional parameters of slices maintained in WPCS/air or WPCS/O2 were almost totally inhibited after 24 h, in keeping with the extensive and diffuse coalescing coagulative necrosis typical of post-ischemic injury affecting almost all the slice surface after 48 h. As compared to freshly isolated slices, slices maintained in ROCS/air for 72 h showed stable ATP and GSH content, increased protein synthesis, and a slight steady decrease in GST activity, while ATP and GST activity remained stable and protein synthesis and GSH content increased in slices incubated in ROCS/O2 for 72 h. The extent of coagulative necrosis was markedly lower in longitudinal sections from slices incubated for 72 h in ROCS/O2 than in ROCS/air. Transversal sections from slices kept in ROCS/air for 72 h showed a thick central band of necrotic cells edged by two peripheral layers of viable hepatocytes, whereas most of the slice was composed of viable hepatocytes lined by two thin layers of necrotic cells after 72 h in ROCS/O2. ROCS/O2 emerged as the system best preserving the histological and functional integrity of rat liver slices in long-term culture.
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PMID:Morphological and functional integrity of precision-cut rat liver slices in rotating organ culture and multiwell plate culture: effects of oxygen tension. 968 91

Hereditary torsion dystonia represent a clinically and genetically heterogeneous group of movement disorders. The most severe and frequent form of hereditary torsion dystonia is early-onset generalized dystonia, DYT1. The DYT1 gene (Ozelius et al., 1997) encodes an ATP-binding protein torsin A. A unique 3-bp deletion (GAG) was found in the heterozygous state in almost all patients with early-onset dystonia from different populations. We observed 39 patients with early-onset generalized torsion dystonia belonging to 22 families from Russia. Seven families were of Ashkenazi Jewish (AJ) ethnic background, and other patients originated from the Slavonic population of Russia. The GAG deletion was identified in 24 affected persons from 15 families (68.2% of the families studied). In all the 7 families of AJ origin the disease was found to be caused by the deletion. In Slavs, the deletion was identified in 8 of 15 families (53%). In two deletion-positive families we observed the co-occurrence of typical early-onset generalized dystonia and atypical phenotypes-either isolated postural hand tremor or stutter.
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PMID:A common 3-bp deletion in the DYT1 gene in Russian families with early-onset torsion dystonia. 1047 37

The environmental signals that affect gene regulation in Mycobacterium tuberculosis remain largely unknown despite their importance to tuberculosis pathogenesis. Other work has shown that several promoters, including acr (also known as hspX) (alpha-crystallin homolog), are upregulated in shallow standing cultures compared with constantly shaking cultures. Each of these promoters is also induced to a similar extent within macrophages. The present study used two-dimensional gel electrophoresis and mass spectrometry to further characterize differences in mycobacterial protein expression during growth under standing and shaking culture conditions. Metabolic labeling of M. bovis BCG showed that at least 45 proteins were differentially expressed under standing and shaking culture conditions. Rv2623, CysA2-CysA3, Gap, and Acr were identified from each of four spots or gel bands that were specifically increased in bacteria from standing cultures. An additional standing-induced spot contained two comigrating proteins, GlcB and KatG. The greatest induction was observed with Rv2623, a 32-kDa protein of unknown function that was strongly expressed under standing conditions and absent in shaking cultures. Analysis using PROBE, a multiple sequence alignment and database mining tool, classified M. tuberculosis Rv2623 as a member of a novel class of ATP-binding proteins that may be involved in M. tuberculosis's response to environmental signals. These studies demonstrate the power of combined proteomic and computational approaches and demonstrate that subtle differences in bacterial culture conditions may have important implications for the study of gene expression in mycobacteria.
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PMID:Identification and characterization of mycobacterial proteins differentially expressed under standing and shaking culture conditions, including Rv2623 from a novel class of putative ATP-binding proteins. 1150 Apr 55

The fermentation conditions for production of glutathione by recombinant E. coli were investigated, the addition of certain materials, such as yeast extract, precusor amino acids and ATP were mainly focused on. The results showed that the addition of precusor amino acids and ATP could promote intracellular GSH accumulation. DCW and intracellular GSH content would be 24% and 1.4 times higher than that of fermentation without additions when 2.0 g/L ATP and 9 mmol/L precusor amino acids were added at the begining and 12 h of fermentation, respectively. By using the optimized combination of additives obtained from orthogonal experiments, the maximal DCW and total GSH in broth could be improved 10% and 26% higher than the best results in orthogonal experiments, respectively. Based on the analysis of glucose utilizing ability of this strain, an exponential fed-batch culture process was conducted. DCW and total GSH in broth culd be 8.3 and 4.6 times higher than that of shaking flask culture and finally reached 80 g/L and 880 mg/L, respectively.
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PMID:[Fermentation conditions for production of glutathione by recombinant Escherichia coli]. 1255 76

P-glycoprotein (P-gp), an ATP-dependent efflux pump, is a membrane protein encoded by MDR1 gene, which demonstrates functional polymorphism. It is present in endothelial cells of the blood-brain barrier. P-gp pays a role in transmembrane transport of various xenobiotics, thus limiting their accumulation in the central nervous system. Cyclosporine A which is used as an immunosuppressive drug in patients with allogenic kidney grafts is a substrate for P-gp. Cyclosporine A may cause neurotoxic adverse effects, among them tremor. It was assumed that polymorphism of MDR1 gene which is associated with change in P-gp activity plays a role in induction of tremor in some patients with allogenic kidney graft treated with cyclosporine A. A total of 118 unrelated postransplant kidney patients were enrolled into the study. The tremor group included 23 cases and 95 randomly selected posttransplant individuals with no signs of tremor served as controls. No statistically significant correlation between MDR1 gene polymorphism C3435T and tremor was found. The tremor group and the control group were characterized by similar distribution of MDR1 genotypes, i.e. 3435CC, 3435CT, 3435TT.
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PMID:MDR1 gene polymorphism in allogeenic kidney transplant patients with tremor. 1588 24

Organophosphates, such as the nerve gas soman, cause inhibition of acetylcholine esterase, accumulation of acetylcholine in synaptic clefts, and excessive activation of cholinergic receptors, causing central nervous symptoms such as tremor and seizures. Soman-poisoned animals have low brain levels of ATP, indicating that energy demand is greater than energy supply. We investigated whether soman poisoning is accompanied by an increased brain metabolism of glucose, as can be inferred from the accumulation of radiolabeled 2-deoxyglucose found in previous studies, or whether soman poisoning entails impairment of cerebral energy metabolism. We performed 13C nuclear magnetic resonance spectroscopy on brain extracts from soman-poisoned mice (160 microg/kg; 1 LD50) that had been dosed with 13C-labeled glucose or pyruvate intravenously. Formation of 13C-labeled glutamate, GABA and glutamine from [1-(13)C]glucose was reduced by approximately 30% in awake, soman-intoxicated animals, but formation of these amino acids from [3-(13)C]pyruvate was not different in soman-intoxicated animals and controls. These results suggest that soman intoxication entails inhibition of glycolysis, but not of tricarboxylic acid cycle activity in the brain. However, when brain metabolism was depressed by a sedative dose of diazepam (5 mg/kg) soman intoxication caused increased metabolism of 13C-labeled glucose. The latter finding shows that the soman-poisoned brain has a high energy requirement even during anticonvulsant therapy. We conclude that metabolic inhibition, as seen in awake, soman-intoxicated animals, may lower seizure threshold and contribute to soman-related neurodegeneration and lethality.
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PMID:Cerebral metabolism of glucose and pyruvate in soman poisoning. A 13C nuclear magnetic resonance spectroscopic study. 1708 95

To identify the genes responsible for characteristics, that are different as between sake brewing yeasts and laboratory yeast strains, we used a DNA microarray to compare the genome-wide gene expression profiles of a sake yeast, Saccharomyces cerevisiae K-9 (kyokai 9), and a laboratory yeast, S. cerevisiae X2180-1A, under shaking and static conditions. The genes overexpressed in K-9 more than in X2180-1A were related to C-metabolism, including the HXT, ATP, and COX genes, ergosterol biosynthesis, ERG genes, and thiamine metabolism, THI genes. These genes may contribute to higher growth rates and fermentation ability and the ethanol tolerance of sake yeast. The genes underexpressed in K-9 more than in X2180-1A were CUP1-1 and CUP1-2, PHO genes, which may explain the low copper tolerance and low acid phosphatase activity of sake yeast. These underexpressed genes agree with the features and the alteration of the genome structure of sake yeast.
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PMID:Genome-wide expression profile of sake brewing yeast under shaking and static conditions. 1728 64

Deep brain stimulation (DBS) is a widely used neurosurgical approach to treating tremor and other movement disorders. In addition, the use of DBS in a number of psychiatric diseases, including obsessive-compulsive disorders and depression, is currently being tested. Despite the rapid increase in the number of individuals with surgically implanted stimulation electrodes, the cellular pathways involved in mediating the effects of DBS remain unknown. Here we show that DBS is associated with a marked increase in the release of ATP, resulting in accumulation of its catabolic product, adenosine. Adenosine A1 receptor activation depresses excitatory transmission in the thalamus and reduces both tremor- and DBS-induced side effects. Intrathalamic infusion of A1 receptor agonists directly reduces tremor, whereas adenosine A1 receptor-null mice show involuntary movements and seizure at stimulation intensities below the therapeutic level. Furthermore, our data indicate that endogenous adenosine mechanisms are active in tremor, thus supporting the clinical notion that caffeine, a nonselective adenosine receptor antagonist, can trigger or exacerbate essential tremor. Our findings suggest that nonsynaptic mechanisms involving the activation of A1 receptors suppress tremor activity and limit stimulation-induced side effects, thereby providing a new pharmacological target to replace or improve the efficacy of DBS.
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PMID:Adenosine is crucial for deep brain stimulation-mediated attenuation of tremor. 1818 Jul 13

Wilson's disease (WD) is an autosomal recessive disorder characterized by the functional disruption of the copper-transporting protein adenosine triphosphatase 7B (ATP-ase 7B). The disease is caused by mutations in ATP7B gene. It seems that the type of mutation in ATP7B only to some degree determines phenotypic manifestation of WD. We examined two pairs of monozygotic twins discordant for WD phenotype. The first set of twins were ATP7B compound heterozygotes c.3207C>A (p.H1069Q)/c.1211_1212insA (p.N404Kfs). The index case developed severe liver failure followed by depressive symptoms, dysarthria, and tremor at the age of 36. Her sister remained presymptomatic at diagnosis at the age of 39. The second twins were ATP7B c.3207C.A (p.H1069Q) homozygotes. The index case presented with dysarthria and tremor at the age of 26. Her sister remained clinically presymptomatic at diagnosis at the age of 28. We concluded that the phenotypic characteristics of WD are possibly attributable to epigenetic/environmental factors.
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PMID:Monozygotic female twins discordant for phenotype of Wilson's disease. 1930 78

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