Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Taurine is generally found to be cytoprotective, diminishing damage resulting from ischemia and from initiators of heart failure. Also linked to similar events in the heart is the protein kinase C (PKC) family, which consists of at least 12 different isoforms. Therefore, we proposed that PKC might contribute to the beneficial effects of taurine on cell viability and growth. One of the PKC isoforms that has been advanced as an important mediator of cytoprotection during ischemia is PKCepsilon. In this study, we found that incubation of isolated cardiomyocytes with medium containing 20 mM taurine led to the translocation of PKCepsilon into the membrane, an event commonly associated with the cardioprotective actions of the PKC isozyme. In addition, taurine promoted the upregulation of PKCalpha PKCbeta2 and PKCzeta. Because the effects of taurine and angiotensin II on PKC distribution were largely additive, PKC does not appear to contribute to the antagonism between taurine and angiotensin II. However, the upregulation of PKC by taurine is consistent with a role of taurine in normal cell growth. In the taurine deficient heart, cardiomyocyte size is reduced, an effect that is consistent with the effect of taurine on PKCepsilon. In conclusion, the cytoprotective and pro-growth actions of taurine appears to be mediated in part by the activation of PKCepsilon.
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PMID:Effect of taurine on protein kinase C isoforms: role in taurine's actions? 1923 31

Taurine is found in high concentration in smooth muscle and heart muscle (approximately 10-20 mM). We found that taurine affects NE- and KCl-induced vasoconstriction. The mechanisms regulating these vasoconstrictions mostly involve Ca2+ channels and EDRF(NO). Taurine exerted either a vasodilation or vasoconstriction depending on cellular Ca2+ concentration. When vascular tone was excessively low, taurine promoted vasoconstriction allowing the maintenance of blood pressure. On the other hand, taurine dilates vessels to increase blood flow during ischemia or hypoxia. Thus, taurine modulates vascular wall tone to maintain blood flow. These results indicate that taurine plays an important homeostatic function on vascular smooth muscles as well as cardiac muscle.
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PMID:Vascular modulation of rat aorta by taurine. 1923 34

Hepatic ischemia reperfusion (HIR) not only results in liver injury, but also leads to endotoxemia, which aggravates HIR-induced liver injury and dysfunction, or even causes liver failure. Taurine has been shown to protect organs from ischemia reperfusion or endotoxin by its anti-oxidant and anti-inflammatory activities. The aim of this study was to investigate whether taurine could attenuate endotoxin-induced acute liver injury after HIR. Wistar rats subjected to 30 min of hepatic ischemia followed by reperfusion and lipopolysaccharide (LPS) (0.5 mg/kg) administration, exhibited liver dysfunction (elevated serum levels of ALT, AST and LDH) and hepatic histopathological alteration. The serum levels of TNF-alpha and production of myeloperoxidase (MPO) and malondialdehyde (MDA) in liver tissues and apoptosis of hepatocytes were also increased after the combination of HIR and LPS. However, pre-administration of taurine protected livers from injury induced by the combination of HIR + LPS as the histological score, apoptotic index, MPO activity and production of MDA in liver tissues, and serum levels of AST, ALT, LDH and TNF-alpha, were significantly reduced. The expression of caspase-3, Fas and Fas ligand was upregulated in homogenates of livers from rats subjected to HIR and LPS, and this elevated expression could be inhibited by taurine. In summary, the results further emphasize the potential utilization of taurine in protecting livers against endotoxin-induced injury especially after HIR, by its anti-inflammatory, anti-oxidative and anti-apoptotic activities.
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PMID:Protective effects of taurine against endotoxin-induced acute liver injury after hepatic ischemia reperfusion. 1926 95

Glutamate is the main excitatory transmitter in the brain stem, regulating many vital sensory and visceral processes. Taurine is inhibitory and functions as a neuromodulator and regulator of cell volumes in the brain, being especially important in the developing brain. Taurine release is markedly enhanced under ischemic conditions in many brain areas, providing protection against excitotoxicity. The involvement of glutamate receptors in the release of preloaded [(3)H]taurine was now characterized under ischemic conditions in slices prepared from the mouse brain stem from developing (7-day-old) and young adult (3-month-old) mice. The ionotropic glutamate receptor agonists N-methyl-D-aspartate, kainate, and 2-amino-3-hydroxy-5-methyl-4-isoxazolepropionate had no effect on ischemic taurine release in the immature brain stem, whereas in adults the release was enhanced in a receptor-mediated manner. The metabotropic receptor agonists of group I, (1+/-)-1-aminocyclopentane-trans-1,3-dicarboxylate and (S)-3,5-dihydroxyphenylglycine, potentiated both basal and K(+)-stimulated release in both age groups. The group III agonist L(+)-2-amino-4-phosphonobutyrate also enhanced the release. In both cases the effects were receptor-mediated, being reduced by the respective antagonists. The results show that activation of glutamate receptors in the ischemic brain stem generally enhances the release of taurine. This is beneficial to neurons in ischemia, offering protection against excitotoxicity and preventing neuronal damage.
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PMID:Modulation of taurine release in ischemia by glutamate receptors in mouse brain stem slices. 1932 43

Taurine (2-aminoethanesulphonic acid), a sulphur-containing amino acid, is found in most mammalian tissues. Although it can be synthesized endogenously, the major source of taurine is from the diet. Taurine was found to exhibit diverse biological actions, including protection against ischemia-reperfusion injury, modulation of intracellular calcium concentration, and antioxidant, antiatherogenic and blood pressure-lowering effects. The present review will address the potential beneficial actions of taurine in congestive heart failure, hypertension, ischemic heart disease, atherosclerosis and diabetic cardiomyopathy. There is a wealth of experimental information and some clinical evidence available in the literature suggesting that taurine could be of benefit in cardiovascular disease of different etiologies. However, double-blind long-term clinical trials need to be conducted before taurine can be unequivocally recommended as a nutritional intervention for the prevention and/or treatment of cardiovascular disease.
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PMID:The potential health benefits of taurine in cardiovascular disease. 1934 17

Taurine, glutamine, glutamate, aspartate, and alanine are the most abundant intracellular free amino acids in human heart. The myocardial concentration of these amino acids changes during ischemia and reperfusion due to alterations in metabolic and ionic homeostasis. We hypothesized that dilated left ventricle secondary to mitral valve disease has different levels of amino acids compared to the right ventricle and that such differences determine the extent of amino acids' changes during ischemia and reperfusion. Myocardial concentration of amino acids was measured in biopsies collected from left and right ventricles before cardioplegic arrest (Custodiol HTK) and 10 min after reperfusion in patients undergoing mitral valve surgery. The dilated left ventricle had markedly higher (P < 0.05) concentrations (nmol/mg wet weight) of taurine (17.0 +/- 1.5 vs. 10.9 +/- 1.5), glutamine (20.5 +/- 2.4 vs. 12.1 +/- 1.2), and glutamate (18.3 +/- 2.2 vs. 11.4 +/- 1.5) when compared to right ventricle. There were no differences in the basal levels of alanine or aspartate. Upon reperfusion, a significant (P < 0.05) fall in taurine and glutamine was seen only in the left ventricle. These changes are likely to be due to transport (taurine) and/or metabolism (glutamine). There was a marked increase in the alanine to glutamate ratio in both ventricles indicative of ischemic stress which was confirmed by global release of lactate during reperfusion. This study shows that in contrast to the right ventricle, the dilated left ventricle had remodeled to accumulate amino acids which are used during ischemia and reperfusion. Whether these changes reflect differences in degree of cardioplegic protection between the two ventricles remain to be investigated.
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PMID:The importance of myocardial amino acids during ischemia and reperfusion in dilated left ventricle of patients with degenerative mitral valve disease. 1936 96

Taurine effectively prevents ischemia-induced apoptosis in the cardiomyocytes and hypothalamic nuclei. The present study explores the influence of taurine on mitochondrial damage, oxidative stress and apoptosis in experimental liver fibrosis. Male albino Wistar rats were divided into six groups and maintained for a period of 60 days as follows: Group I, control; Group II, ethanol treatment [6 g/(kg/day)]; Group III, fibrosis induced by ethanol and iron (0.5% w/w); Group IV, ethanol + iron + taurine (2% w/v); Group V, ethanol + taurine treatment and Group VI, control + taurine treatment. Hepatocytes isolated from ethanol plus iron-treated rats showed decreased cell viability and redox ratio, increased reactive oxygen species formation, lipid peroxidation, DNA fragmentation, and formation of apoptotic bodies. Liver mitochondria showed increased susceptibility to swell, diminished activities of mitochondrial respiratory chain complexes and antioxidants. Taurine administration to fibrotic rats restored mitochondrial function, reduced reactive oxygen species formation, prevented DNA damage, and apoptosis. Thus taurine might contribute to the amelioration of the disease process.
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PMID:Mitochondrial damage, cytotoxicity and apoptosis in iron-potentiated alcoholic liver fibrosis: amelioration by taurine. 1938 77

Adenosine is a neuromodulator which inhibits the synaptic release of neurotransmitters. However, only little is known of the effects of inhibitory neurotransmitters and modulators on adenosine release. We studied these effects with hippocampal slices from developing (7-day-old) and young adult (3-month-old) mice under normoxic and ishemic conditions. In normoxia, adenosine release was about 3-fold greater in adults than in developing mice. beta-Alanine and L-serine (both 0.1 mM) significantly reduced the release of [3H]adenosine in normoxia in developing mice. Glycine, beta-Alanine and L-serine (all 0.1 mM) had similar effects in ischemia. Taurine depressed concentration- dependently the release in developing mice but had no effect in adults. The simultaneous release of taurine and adenosine may constitute an important protective mechanism under ischemic conditions.
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PMID:Effects of inhibitory amino acids on adenosine release in the mouse hippocampus. 1954 66

Taurine neuroinhibitory features have suggested its potential for neuroprotection. The aim of the present study was to assess whether it prevents or counteracts brain ischemia and reperfusion-induced cell injury. Rat brain cortical slices were subjected to oxygen/glucose deprivation and reperfusion. Tissue damage was assessed by measuring the release of glutamate and lactate dehydrogenase (LDH) during reperfusion and by determining final tissue water gain, taken as an index of cell swelling. When added during the reperfusion period taurine did not significantly affect oxygen/glucose deprivation-induced LDH and glutamate release, while it antagonised tissue water gain in a concentration-dependent manner (IC(50)=46.5 microM). The latter effect was antagonised by 50% when a taurine transport inhibitor, 2-(guanidino)ethanesulphonic acid (GES), or a GABA(A) receptor antagonist, bicuculline, was added together with taurine, while it was completely abolished when both GES and bicuculline or the volume-sensitive outwardly rectifying (VSOR) Cl(-) channel blocker, 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB), was used. On the contrary, when present throughout the entire experiment, taurine significantly reduced oxygen/glucose deprivation-induced LDH and glutamate release with a maximal effect (45% reduction) between 5 and 20 mM. Taurine antagonised also tissue water gain according to a "U-shaped" concentration-response curve, which was significant within the range of 0.01-1.0 mM concentration. This effect was partially counteracted by GES as well as by bicuculline and fully reverted by NPPB. In conclusion, since brain edema is a major contributing factor to morbidity and mortality in stroke, the present findings give the rational basis for assessing taurine efficacy in reducing brain edema in vivo.
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PMID:Protection by taurine of rat brain cortical slices against oxygen glucose deprivation- and reoxygenation-induced damage. 1969 42

The release of the inhibitory amino acid taurine is markedly enhanced under ischemic conditions in both adult and developing brain stem, together with a pronounced increase in the release of the neuromodulator adenosine. We now studied the effects of adenosine receptor agonists and antagonists on [(3)H]taurine release in the brain stem in normoxia and ischemia, using a superfusion system. Under standard conditions, the adenosine A(1) receptor agonist N(6)-cyclohexyladenosine (CHA) potentiated basal taurine release in adult mice, which response was blocked by the antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX). CHA and the A(2a) receptor agonist 2-p-(2-carboxyethyl)phenylamino-5'-N-ethylcarboxaminoadenosinehydrochloride (CGS 21680) had no effect on the release in developing mice. In ischemia, CHA depressed both basal and K(+)-stimulated taurine release in developing mice in a receptor-mediated manner, blocked by DPCPX. The A(2a) receptor agonist CGS 21680 was also inhibitory. Taurine and adenosine may thus not cooperate in developing mice to prevent ischemic neuronal damage. On the other hand, CGS 21680 enhanced taurine release in the adult brain stem in ischemia, both basal and K(+)-stimulated release being affected. These effects were abolished by the antagonist 3,7-dimethyl-1-propargylxanthine (DMPX), indicating a receptor-mediated process. In this case elevated levels of taurine could be beneficial, protecting against hyperexcitation and excitotoxicity.
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PMID:Adenosine receptor agonists affect taurine release from mouse brain stem slices in ischemia. 1976 20


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