Summary
In rat striatum severe hypoglycemia causes an irreversible nerve cell injury, which does not become manifest until during the post-insult recovery period. This injury can be ameliorated by lesions of the glutamatergic cortico-striatal pathway, which suggests that an “excitotoxic” effect mediated by the glutamatergic input is the likely cause of the posthypoglycemic nerve cell destruction. In this paper we further characterize the protective effect of abolishing the glutamatergic innervation to striatum at the ultrastructural level. Two weeks after a unilateral cortical ablation rats were subjected to 30 min of severe hypoglycemia with isoelectric EEG and killed either immediately after the insult or following 60 min of recovery induced by restoring the blood glucose levels. Immediately after the hypoglycemic insult the structure of striatum was similar on both sides (except for the changes attributable to the ablation); i.e., the neurons and their dendrites had pale cytoplasm with condensed mitochondria, sparse RER and pinpoint ribosomes. After 60 min restitution numerous striatal neurons on the non-protected, non-ablated side had turned variably dark and condensed, whereas under-neath the ablation they remained similar as immediately after hypoglycemia. This sequence indicates that the most likely cause of nerve cell destruction on the non-protected side is the “excitotoxic” effect mediated by the glutamatergic innervation, which is superimposed on the action of the hypoglycemic insultper se. Furthermore, the primary condensation of neurons and their dendrites indicate existence of another type of acute “excitotoxic” nerve cell injury which differs from the previously described injury characterized by neuronal swelling.
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Agardh C-D, Kalimo H, Olsson Y, Siesjö BK (1980) Hypoglycemic brain injury. I. Metabolic and light microscopic findings in rat cerebral cortex during profound insulin-induced hypoglycemia and in the recovery period following glucose administration. Acta Neuropathol (Berl) 50:31–41
Auer RN (1986) Progress review. Hypoglycemic brain damage. Stroke 17:699–708
Auer RN, Olsson Y, Siesjö BK (1984) Hypoglycemic brain injury in the rat: correlation of density of brain damage with the EEG isoelectric time. A quantitative study. Diabetes 33:1090–1098
Auer RN, Kalimo H, Olsson Y, Siesjö BK (1985a) The temporal evolution of hypoglycemic brain damage. I. Light- and electron-microscopic findings in the rat cerebral cortex. Acta Neuropathol (Berl) 67:13–24
Auer R, Kalimo H, Olsson Y, Wieloch T (1985b) The dentate gyrus in hypoglycemia: pathology implicating excitotoxinmediated neuronal necrosis Acta Neuropathol (Berl) 67: 279–288
DeGirolami U, Cromwell RM, Marcoux FW (1984) Selective necrosis and total necrosis in focal cerebral ischemia. Neuropathologic observations on experimental middle cerebral artery occlusion in the Macaque monkey. J Neuropathol Exp Neurol 43:57–71
Engelsen B, Westerberg E, Fonnum F, Wieloch T (1986) Effect of insulin-induced hypoglycemia on the concentrations of glutamate and related amino acids and energy metabolites in the intact and decorticated rat neostriatum. J Neurochem 47:1634–1641
Fonnum F (1984) Glutamate: a neurotransmitter in mammalian brain. J Neurochem 42:1–11
Hassler R, Haug P, Nitsch C, Kim JS, Paik K (1982) Effect of motor and premotor cortex ablation on concentrations of amino acids, monoamines, and acetylcholine and on the ultrastructure in rat striatum. A confirmation of glutamate as the specific cortico-striatal transmitter. J Neurochem 38:1087–1098
Kalimo H, Auer RN, Siesjö BK (1985) The temporal evolution of hypoglycemic brain damage. III. Light and electron microscopic findings in the rat caudoputamen. Acta Neuropathol (Berl) 67:37–50
Kiessling M, Auer RN, Kleihues P, Siesjö BK (1986) Cerebral protein synthesis during long-term recovery from severe hypoglycemia. J Cereb Blood Flow Metab 6:42–51
Pulsinelli WA, Brierley JB, Plum F (1982) Temporal profile of neuronal damage in a model of transient forebrain ischemia. Ann Neurol 11:491–498
Rothman SM, Olney JW (1986) Glutamate and the pathophysiology of hypoxic-ischemic brain damage. Ann Neurol 19:105–111
Sloviter RS, Dempster DW (1985) “Epileptic” brain damage in replicated qualitatively in the rat hippocampus by central injection of glutamate or aspartate but not by GABA or acetylcholine. Brain Res Bull 15:39–60
Smith M-L, Auer RN, Siesjö BK (1984) The density and distribution of ischemic brain injury in the rat following 2–10 min of forebrain ischemia. Acta Neuropathol (Berl) 64:319–332
Weil A, Liebert E, Heilbrunn G (1938) Histopathologic changes in the brain in experimental hyperinsulinism Arch Neurol Psychiatry 39:467–481
Westerberg E, Wieloch T (1986) Lesions to the corticostriatal pathways ameliorate hypoglycemia-induced arachidonic acid release. J Neurochem 47:1507–1511
Wieloch T (1985) Hypoglycemia-induced neuronal damage prevented by anN-methyl-d-aspartate antagonist. Science 230:681–683
Wieloch T, Engelsen B, Westerberg E, Auer R (1985) Lesions of the glutamatergic cortico-striatal projections in the rat ameliorate hypoglycemic brain damage in the striatum. Neurosci Lett 58:25–30
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Supported by the Swedish Medical Research Council (projects 12X-07123 and 14X-263), by U.S. Public Health Service (NIH grant no. 2 RO1 NS-07838) and by the Finnish Medical Research Council
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Linden, T., Kalimo, H. & Wieloch, T. Protective effect of lesion to the glutamatergic cortico-striatal projections on the hypoglycemic nerve cell injury in rat striatum. Acta Neuropathol 74, 335–344 (1987). https://doi.org/10.1007/BF00687210
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DOI: https://doi.org/10.1007/BF00687210