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The influence of insulin-induced hypoglycemia on the calcium transients accompanying reversible forebrain ischemia in the rat (1990)

Li, Ping-An ; Kristián, Tibor ; Katsura, Ken-Ichiro ; [et al.]

Springer

Experimental brain research 105 (1990), S. 363-369

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ISSN: 1432-1106

Keywords: Ischemia ; Hypoglycemia ; Calcium transient ; Insulin ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The primary objective of this study was to explore why preischemic hypoglycemia, which restricts tissue acidosis during the ischemic insult, does not ameliorate cell damage incurred as a result of transient ischemia. The question arose whether hypoglycemia (plasma glucose concentration 2–3 mM) delays resumption of extrusion of Ca2+ from cells during recirculation. Measurements of extracellular Ca2+ concentration during forebrain ischemia of 15 min duration proved that this was the case. Thus, normoglycemic animals resumed Ca2+ extrusion upon recirculation after a delay of 1.5–2.0 min, and hypoglycemic ones after an additional delay which could amount to 3–4 min. We attempted to explore the cause of this delay. At first sight, the results suggested that resumption of oxidative phosphorylation upon recirculation was substrate limited. However, glucose infusion during ischemia or just after recirculation failed to accelerate Ca2+ extrusion from the cells. A comparison between non-injected and insulin-injected animals at equal plasma glucose concentrations suggested that insulin was responsible for the delay. On analysis, the delay proved to be related to a sluggish recovery of cerebral blood flow. The results suggest that when cell damage is evaluated after transient ischemia in hypo- and normoglycemic subjects, attention should be directed to the period of cell calcium ‘overload’. Unobserved differences in the duration of the calcium transient may also confound interpretation of data on the effects of insulin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233036

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Coupling Among Energy Failure, Loss of Ion Homeostasis, and Phospholipase A2 and C Activation During Ischemia (1993)

Katsura, Ken-ichiro ; Rodriguez de Turco, Elena B. ; Folbergrová, Jaroslava ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 61 (1993), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract— The objective of the present experiments was to correlate changes in cellular energy metabolism, dissipative ion fluxes, and lipolysis during the first 90 s of ischemia and, hence, to establish whether phospholipase A2or phospholipase C is responsible for the early accumulation of phospholipid hydrolysis products. Ischemia was induced for 15–90 s in rats, extracellular K+ (K+e) was recorded, and neocortex was frozen in situ for measurements of labile tissue metabolites, free fatty acids, and diacylglycerides. Ischemia of 15-and 30-s duration gave rise to a decrease in phosphocreatine concentration and a decline in the ATP/free ADP ratio. Although these changes were accompanied by an activation of K+ conductances, there were no changes in free fatty acids until after 60s, when free arachidonic acid accumulated. An increase in other free fatty acids and in total diacylglyceride content did not occur until after anoxic depolarization. The results demonstrate that the early functional changes, such as activation of K+ conductances, are unrelated to changes in lipids or lipid mediators. They furthermore suggest that the initial lipolysis occurs via both phospholipase A2 and phospholipase C, which are activated when membrane depolarization leads to influx of calcium into cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1993.tb09803.x

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Functional, Metabolic, and Circulatory Changes Associated with Seizure Activity in the Postischemic Brain (1994)

Katsura, Ken-ichiro ; Folbergrová, Jaroslava ; Gidö, Gunilla ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 62 (1994), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract: The present study was undertaken to explore how transient ischemia in rats alters cerebral metabolic capacity and how postischemic metabolism and blood flow are coupled during intense activation. After 6 h of recovery following transient forebrain ischemia 15 min in duration, bicuculline seizures were induced, and brains were frozen in situ after 0.5 or 5 min of seizure discharge. At these times, levels of labile tissue metabolites were measured, whereas the cerebral metabolic rate for oxygen (CMRO2) and cerebral blood flow (CBF) were measured after 5 min of seizure activity. After 6 h of recovery, and before seizures, animals had a 40–50% reduction in CMRO2, and CBF. However, because CMRO2 rose threefold and CBF fivefold during seizures, CMRO2 and CBF during seizures were similar in control and postischemic rats. Changes in labile metabolites due to the preceding ischemia encompassed an increased phosphocreatine/ creatine ratio, as well as raised glucose and glycogen concentrations. Seizures gave rise to minimal metabolic perturbation, essentially comprising reduced glucose and glycogen contents and raised lactate concentrations. It is concluded that although transient ischemia leads to metabolic depression and a fall in CBF, the metabolic capacity of the tissue is retained, and drug-induced seizures lead to a coupled rise in metabolic rate and blood flow.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1471-4159.1994.62041511.x

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Alterations in Lipid and Calcium Metabolism Associated with Seizure Activity in the Postischemic Brain (2000)

Katsura, Ken-ichiro ; Turco, Elena B. Rodriguez de ; Kristián, Tibor ; [et al.]

Oxford UK : Blackwell Science Ltd.

Journal of neurochemistry 75 (2000), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract: Transient ischemia is known to lead to a long-lastingdepression of cerebral metabolic rate and blood flow and to an attenuatedmetabolic and circulatory response to physiological stimuli. However, thecorresponding responses to induced seizures are retained, demonstratingpreserved metabolic and circulatory capacity. The objective of the presentstudy was to explore how a preceding period of ischemia (15 min) alters therelease of free fatty acids (FFAs) and diacylglycerides (DAGs), the formationof cyclic nucleotides, and the influx/efflux of Ca2+, followingintense neuronal stimulation. For that purpose, seizure activity was inducedwith bicuculline for 30 s or 5 min at 6 h after the ischemia. ExtracellularCa2+ concentration (Ca2+e) was recorded, andthe tissue was frozen in situ for measurements of levels of FFAs, DAGs, andcyclic nucleotides. Six hours after ischemia, the FFA concentrations werenormalized, but there was a lowering of the content of 20:4 in the DAGfraction. Cyclic AMP levels returned to normal values, but cyclic GMP contentwas reduced. Seizures induced in postischemic animals showed similar changesin Ca2+e, as well as in levels of FFAs, DAGs, and cyclicnucleotides, as did seizures induced in nonischemic control animals, with theexception of an attenuated rise in 20:4 content in the DAG fraction. Weconclude that, at least in the neocortex, seizure-induced phospholipidhydrolysis and cyclic cAMP/cyclic GMP formation are not altered by a precedingperiod of ischemia, nor is there a change in the influx/efflux ofCa2+ during seizure discharge or in associated spreadingdepression.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1471-4159.2000.0752521.x

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Hydrogen acts as a therapeutic antioxidant by selectively reducing cytotoxic oxygen radicals (2007)

Ohsawa, Ikuroh ; Ishikawa, Masahiro ; Takahashi, Kumiko ; [et al.]

[s.l.] : Nature Publishing Group

Nature medicine 13 (2007), S. 688-694

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ISSN: 1546-170X

Source: Nature Archives 1869 - 2009

Topics: Biology , Medicine

Notes: [Auszug] Acute oxidative stress induced by ischemia-reperfusion or inflammation causes serious damage to tissues, and persistent oxidative stress is accepted as one of the causes of many common diseases including cancer. We show here that hydrogen (H2) has potential as an antioxidant in preventive and ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/nm1577

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The influence of repeated spreading depression-induced calcium transients on neuronal viability in moderately hypoglycemic rats (1994)

Gidö, Gunilla ; Kristián, Tibor ; Katsura, Ken-ichiro ; [et al.]

Springer

Experimental brain research 97 (1994), S. 397-403

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ISSN: 1432-1106

Keywords: Spreading depression ; Hypoglycemia ; Neuronal damage ; [Ca2+]e ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The calcium transients which are associated with spreading depression (SD) do not lead to neuronal necrosis, even if the SDs are repeated over hours. We have previously shown that a restriction of energy production by moderate hypoglycemia prolongs the calcium transients during SD. In the present experiments, we explored whether such prolonged transients lead to neuronal necrosis. To that end, SDs were elicited for 2 h by topical application of KC1 in anesthetized rats at plasma glucose concentrations of 6, 3, and 2 mM. The animals were then allowed to recover, and they were studied histopathologically after 7 days. In two other groups, hypoglycemic coma of 5 min duration (defined in terms of the d.c. potential shift) was induced either without or with a preceding train of SDs. These animals were also evaluated with respect to histopathological alterations. SDs elicited for 2 h did not give rise to neuronal damage when elicited at plasma glucose concentration of 6 mM, and, of the animals maintained at 3 and 2 mM, only a few animals showed (mild) damage. In general, therefore, repeated SDs with calcium transients of normal or increased duration fail to induce neuronal damage. The results suggest that, if calcium transients are responsible for a gradual extension of the infarct into the penumbra zone of a focal ischemie lesion some additional pathophysiological factors must be present, such as overt energy failure, acidosis, or microvascular damage. A hypoglycemia-induced calcium transient of 5 min duration gave no or only moderate neuronal damage. However, if a series of SDs were elicited in the precoma period, the damage was exaggerated. The results demonstrate that, normally, brain tissues can tolerate a hypoglycemic calcium transient of up to 5 min duration without incurring neuronal necrosis. They also demonstrate that calcium transients preceding a subsequent insult involving calcium influx into cells exaggerate the damage incurred. It is tentatively concluded that the “priming” transients alter membrane properties in such a way that cellular calcium homeostasis is perturbed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00241533

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