Neither Moderate Hypoxia nor Mild Hypoglycaemia Alone Causes Any Significant Increase in Cerebral [Ca2±i: Only a Combination of the Two Insults Has This Effect.: A 31P and 19F NMR Study |
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Authors: | Ronnitte S Badar-Goffer Nicola M Thatcher Peter G Morris Herman S Bachelard |
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Institution: | Magnetic Resonance Centre, Department of Physics, University of Nottingham, University Park, Nottingham, England |
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Abstract: | (1) The energy state and free intracellular calcium concentration (Ca2±i) of super-fused cortical slices were measured in moderate hypoxia (~65 μM O2), in mild hypoglycaemia (0.5 mM glucose), and in combinations of the two insults using 19F and 31P NMR spectroscopy. (2) Neither hypoxia nor hypoglycaemia alone caused any significant change in Ca2±i. Hypoxia caused a 40% fall in phosphocreatine (PCr) content but not in ATP level, and hypoglycaemia produced a slight fall in both (as expected from previous studies). These changes in the energy state recovered on return to control conditions. (3) A combined sequential insult (hypoxia, followed by hypoxia plus hypoglycaemia) produced a 100% increase in Ca2±, and a decrease in PCr level to ~25% of control. The reverse combined sequential insult (hypoglycaemia, followed by hypoglycaemia plus hypoxia) had the same effect. On return to control conditions there was some decrease in Ca2±i and a small increase in PCr content, but neither recovered to control levels. (4) Exposure of the tissue to the combined simultaneous insult (hypoxia plus hypoglycaemia) immediately after the control spectra had been recorded resulted in a fivefold increase in Ca2±i and a similar decrease in PCr level to 20–25% of control. There was little if any change of Ca2±i or PCr level on return to control conditions. (5) These results are discussed in terms of metabolic adaptation of some but not all of the cortical cells to the single type of insult, which renders the tissues less vulnerable to the combined insult. |
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Keywords: | Hypoxia Hypoglycaemia Free intracellular Ca2± concentration 31P NMR spectroscopy 19F NMR spectroscopy |
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