Abstract
Peripheral nerves in diabetic patients show an enhanced liability to ischaemic lesions. Using an in vitro model, we have now analysed the possible role of intracellular proton (pH 1 ) and calcium concentrations ([Ca 2+ ] i ) for the pathophysiology of this phenomenon. Isolated rat spinal roots were preincubated for 3 to 6 h in either 5 or 25 mM of d -glucose before transient exposure to gaseous hypoxia or cyanide. Intracellular pH and Ca 2+ concentrations were measured photometrically by means of the fluorescent dyes carboxy-SNARF-1 and a combination of Calcium Green-1 and Fura Red, respectively. The following observations were made. (a) The presence of 25 mM d -glucose resulted in stronger intracellular acidification and much slower post-hypoxic recovery of pH i as compared to 5 MM d -glucose. (b) Intracellular calcium increased during hypoxia and recovered quickly on reoxygenation. There were no statistically significant differences between the Ca 2+ signals in either high or normal concentrations of d -glucose, although on average less rise was seen in high glucose. (c) Inhibition of glycolysis with iodoacetate reduced the acidification but amplified the rise in [Ca 2+ ] i seen during transient hypoxia. These data suggest that hypoxia-induced nerve acidification rather than a rise in [Ca 2+ ] i might contribute to ischaemic lesions found in diabetic neuropathy.
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