ascorbic-acid and Amnesia

A series of cis and trans 3,7-diazabicyclo[4.3.0]nonan-8-ones has been synthesized and tested for their ability to revert scopolamine-induced amnesia in the mouse passive-avoidance test. The racemates of the most potent compounds 4 and 7 were separated and tested, but no enantioselectivity was found for the nootropic activity. Compounds 4 and 7 and their enantiomers displayed interesting antihyperalgesic activity in two models of neuropathic pain (streptozotocin-induced and oxalilplatin-induced neuropathy) in comparison with pregabalin.

Topics: Amnesia; Analgesics; Animals; Behavior, Animal; Drug Design; Ketones; Mice; Nootropic Agents; Scopolamine; Stereoisomerism

Alzheimer's disease is a progressive neurodegenerative disorder characterized by a gradual decline in memory. The occurrence of Alzheimer's disease is commonplace among the Asian population, particularly among senior citizens. The present study was undertaken to assess the potential of ascorbic acid as a memory-enhancer. Swiss mice of either sex were employed in the present investigation. Elevated plus-maze and passive-avoidance apparatus served as the exteroceptive behavioral models, and diazepam-, scopolamine-, and aging-induced amnesia served as the interoceptive behavioral models. Ascorbic acid (60, 120 mg/kg) injected for 3 and 8 consecutive days improved learning and memory of aged mice as indicated by decreased transfer-latency and increased step-down latency. Furthermore, ascorbic acid provided protection to the young animals from scopolamine- and diazepam-induced impairment of memory. Ascorbic acid was found to be more potent than piracetam as reflected by the smaller dose, more pronounced effect, and quicker onset of action. Ascorbic acid has shown promise as a powerful memory-improving agent particularly effective in aged animals. Hence, ascorbic acid might prove to be a useful memory-restorative agent in the treatment of dementia seen in elderly individuals. The underlying mechanism of action of ascorbic acid may be attributed to its antioxidant property.

Topics: Aging; Amnesia; Animals; Antioxidants; Anxiety; Ascorbic Acid; Avoidance Learning; Behavior, Animal; Diazepam; Emotions; Female; GABA Modulators; Male; Maze Learning; Memory; Mice; Motor Activity; Muscarinic Antagonists; Nootropic Agents; Piracetam; Scopolamine

The anticholinergic, scopolamine, consistently disrupts one-trial passive avoidance conditioning but the effects of such drugs on one-trial conditioned taste aversion (CTA) are variable and contradictory. In the present study, treatment of rats with scopolamine impaired the suppression of sucrose intake by post-ingestion administration of lithium chloride (LiCl) in a two-bottle choice test. A similar effect was obtained by using N-methyl scopolamine which penetrates the brain only to a limited degree on acute administration. The blockade of CTA could be prevented in three ways: (i) by exposing the rats to sucrose only on the training day, (ii) by pre-exposing the rats to both sucrose and scopolamine, and (iii) by using a less palatable sucrose/ascorbate mixture. The results demonstrate that the effect of scopolamine on taste aversion is not mediated by the central nervous system, and can be modified by altering the novelty and relative salience of the taste conditioned stimulus. These experiments suggest that conditioned associations between taste and LiCl, and scopolamine and LiCl may underlie the blockade of CTA by scopolamine.

Topics: Amnesia; Animals; Ascorbic Acid; Avoidance Learning; Chlorides; Conditioning, Operant; Lithium; Lithium Chloride; Male; N-Methylscopolamine; Neostigmine; Parasympatholytics; Physostigmine; Rats; Rats, Inbred Strains; Scopolamine; Scopolamine Derivatives; Sucrose; Taste