Acute experiments on rats showed that the ED100 of NMDA for induction of clonic convulsions was 0.53 microgram, while the ED100 of NMDA for inducing tonic extension of the forelimbs was 5.02 micrograms/animal. Determination of these parameters after administration of delta-sleep-inducing peptide (100 micrograms/kg, i.p.) revealed 2.3- and 4.46-fold increases. These results provide evidence for a neuroprotective role of delta-sleep-inducing peptide in relation to excitatory amino acid receptor agonists.
Experimental studies were carried out to investigate the neuroprotective effects of delta sleep-inducing peptide in animals with cerebral ischemia induced by bilateral compression of both carotid arteries, and to compare the efficacy of this peptide with that of MK-801. These studies led to the conclusion that the peptide had pronounced anti-ischemic effects, which were evident within 24 h and consisted of reductions in the severity of postural abnormalities in rats with bilateral cerebral ischemia, along with a reduction in lethality. Comparison of the efficacies of peptide and MK-801 showed the peptide to have the greater neuroprotective effect. These results are regarded as providing an experimental basis for using the peptide as a therapeutic agent in patients with stroke.
Experiments on rats were carried out to study the effects of administration of delta-sleep-inducing peptide (DSIP) and its analogs (9-14) into the reticular part of the substantia nigra and ventral hippocampus on picrotoxin- and kainate-induced epileptic activity. Additionally, the uptake of [3H]tryptophan by brain structures was studied. Intranigral and intrahippocampal microinjections of peptide and its analogs were found to have anticonvulsant effects against both picrotoxin- and kainate-induced epileptic activity. Studies of the effects of DSIP and its structural analogs on the uptake of tryptophan by brain structures showed that peptides predominantly increased uptake of this amino acid. It is suggested that brain structures which modulate tryptophan uptake are largely responsible for the anticonvulsant actions of DSIP and its analogs. The results obtained here provide evidence that the serotoninergic system is not of key importance in mediating the anticonvulsant effects of DSIP and its analogs.
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