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Changes in the bioenergetic state of rat hippocampus during 2.5 min of ischemia, and prevention of cell damage by cyclosporin A in hyperglycemic subjects (1997)

Folbergrová, J. ; Li, Ping-An ; Uchino, H. ; [et al.]

Springer

Experimental brain research 114 (1997), S. 44-50

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ISSN: 1432-1106

Keywords: Key words Forebrain ischemia ; Hyperglycemia ; Hippocampus ; Bioenergetic state ; Cyclosporin A ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract A recent study from this laboratory has shown that brief transient ischemia (2 min 30 s) in normo- and hyperglycemic rats leads to moderate neuronal necrosis in CA1 cells of the hippocampus, of equal density in the two groups. However, hyperglycemic animals failed to depolarize during the ischemia, nor did they show a decrease in extracellular calcium concentration. The present study was undertaken to study the metabolic correlates to these unexpected findings. Normoglycemic (plasma glucose ∼6 mM) and hyperglycemic (∼20 mM) rats were subjected to ischemic periods of 1 min and 2 min 15 s (2 min 30 s with freezing delay considered), and their brains were frozen in situ. Samples of dorsal hippocampus were dissected at –22°C and extracted for the measurement of phosphocreatine (PCr), creatine, ATP, ADP, AMP, glucose, glycogen, and lactate. Normoglycemic animals showed rapid depletion of PCr, ATP, glucose, and glycogen, and a rise in lactate content to 10–12 mM·kg–1 during the ischemia. Hyperglycemic animals displayed a more moderate rate of fall of PCr and ATP, with ATP values exceeding 50% of control after 2 min 30 s. Glycogen stores were largely maintained, but degradation of glucose somewhat enhanced the lactic acidosis. The results demonstrate that hyperglycemic rats maintained ATP at levels sufficient to prevent cell depolarization and calcium influx during the ischemic period. However, the metabolic perturbation observed must have been responsible for the delayed neuronal damage. We speculate that lowered ATP, increased inorganic P, and oxidative stress triggered a delayed mitochondrial permeability transition (MPT), which led to delayed neuronal necrosis. This assumption was supported by a second series of experiments in which CA1 damage in hyperglycemic rats was prevented by cyclosporin A, a virtually specific inhibitor of the MPT.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00005622

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Is Neuronal Injury Caused by Hypoglycemic Coma of the Necrotic or Apoptotic Type? (2000)

Ouyang, Yi-Bing ; He, Qing-Ping ; Li, Ping-An ; [et al.]

Springer

Neurochemical research 25 (2000), S. 661-667

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ISSN: 1573-6903

Keywords: Brain ; caspase ; cytochrome c ; hypoglycemia ; Bcl-2 family

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In this study, we explored if a 30 minute period of hypoglycemic coma yields damage which shows some features associated with apoptosis. To that end, we induced insulin-hypoglycemic coma of 30 min duration, and studied brain tissues after the coma period, and after recovery period of 30 min, 3 h, and 6 h. Histopathological data confirmed neuronal damage in all of the vulnerable neuronal populations. Release of cytochrome c (cyt c), assessed by Western Blot, was observed in the neocortex and caudoputamen after 3 and 6 h of recovery. In these regions, the caspase-like activity increased above control after 6 h of recovery. By laser-scanning confocal microscopy, a clear expression of Bax was observed after 30 min of coma in the superficial layers of the neocortex, reaching a peak after 30 min of recovery. Punctuate immunolabeling surrounding nuclei in soma and dendrites in cortical pyramidal neurons likely represents mitochondria, which suggests that Bax protein assembled at the surface of mitochondria in vulnerable neocortical neurons. It is concluded that although previous morphological data have suggested that cells die by necrosis, neuronal damage after hypoglycemic coma shows some features of apoptosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007563104170

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CCK-receptor antagonists proglumide and loxiglumide stimulate bile flow and biliary glutathione excretion (1994)

Sztefko, Krystyna ; Li, Ping ; Ballatori, Nazzareno ; [et al.]

Springer

Digestive diseases and sciences 39 (1994), S. 1974-1980

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ISSN: 1573-2568

Keywords: CCK ; proglumide ; loxiglumide ; CR 1409 ; CCK-receptor antagonists

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The mechanism for the choleresis induced by CCK-receptor antagonists, proglumide, loxiglumide, and CR 1409, was examined in anesthetized rats and compared to the effects of CCK itself. These agents were infused intravenously over a 2-hr period, and bile flow, and biliary excretion of bicarbonate, total bile acids, and glutathione were measured in 30-min intervals. All three antagonists produced a dose-dependent choleresis, but a significant decrease in bile acid excretion, indicating that they stimulate bile flow via a bile acid-independent mechanism. The increase in bile flow was associated with a parallel increase in biliary glutathione and biocarbonate output in rats treated with proglumide and loxiglumide. In animals pretreated with acivicin to inhibit gamma-glutamyltransferase activity, proglumide was shown to stimulate biliary excretion of reduced glutathione (GSH), but not glutathione disulfide (GSSG), indicating the absence of oxidative stress in the liver. GSH output was increased by only 0.5–0.9 µmol/30 min after infusion of proglumide at a dose of 75 mg/kg/hr, whereas bile volume was increased 0.2–0.4 ml/30 min, indicating that this increased biliary GSH excretion can account for only a small fraction of the increased bile volume, given an osmotic efficiency for GSH of 34 µl/µmol. In contrast to CCK receptor antagonists, CCK itself had no effect on bile flow and outputs of bicarbonate, GSH, and bile acids, suggesting that the effects of the antagonists are not related to their interaction with CCK receptors. These findings demonstrate that proglumide and loxiglumide stimulate a bile acid-independent bile flow that is only partially explained by an increase in GSH excretion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02088134

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