Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0751295 (memory loss)
 3,619 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chicks were trained to avoid pecking either a red or a blue bead in a one-trial avoidance task by coating one bead with methy anthranilate. They avoided the aversant bead on retention tests 10 to 180 min or 24 hr after learning, but not the neutral bead. Intracranial administration of ouabain or cycloheximide (CXM) 5 min before learning resulted in decay in retention after 10 and 30 min respectively following learning, discrimination being effective prior to those times. In a second experiment, chicks were trained on three physically distinct beads, two of which were made aversive during the learning period, the training trials separated by an hour. Saline-treated chickens retained memory of both aversive beads on retention trials 180 min later. CXM- and ouabain-treated chickens showed loss of memory for the bead associated with the drug but showed retention of the task which was not associated with the drug.
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PMID:Drug effects on sucessive discrimination learning in young chickens. 97 9

Trimethyltin (TMT) produces behavioral and cognitive deficits resulting, in part, from limbic system toxicity. To determine whether these effects result from learning deficits or accelerated memory loss, the present experiment examined two delay conditioning paradigms in rats previously treated with either saline or TMT. Saline-treated Long-Evans rats receiving injections of lithium after consuming saccharin-flavored water later avoided saccharin ingestion: the degree of avoidance varied inversely with the time (0.5, 3 or 6 h) separating initial saccharin availability and lithium injection. Rats treated with TMT (8 mg/kg IV, 30 days prior) showed impaired conditioning at the long but not the short or intermediate delay conditions, suggesting that the deficits were mnemonic and not associative. Similar delay-dependent deficits in rats treated with TMT were observed in a passive avoidance task that arranged one of two delays between response emission and shock delivery during training. The effects of TMT on delay conditioning were accompanied by reduced bodyweight and hippocampal pathology. In summary, TMT appears to alter the temporally dependent association of events (entering darkened compartment versus saccharin consumption) and consequences (foot shock versus lithium administration) during acquisition. Furthermore, the observed deficits in delay conditioning produced by TMT did not appear to be task specific, with similar effects determined with tests of both somatosensory and gustatory avoidance learning designed to distinguish between functional alterations due to deficits in memorial processes from those due to altered sensory, motor, or associative processes.
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PMID:Time-dependent deficits in delay conditioning produced by trimethyltin. 249 48

Ginsenosides, the secondary plant metabolites produced by Panax ginseng are responsible for the enhancing effects on learning observed following treatment with Panax ginseng. A number of studies have provided correlational evidence that cell proliferation and survival are closely associated with hippocampal-dependent learning tasks. In this study, to investigate the beneficial effects of ginsenoside Rh1 on hippocampal cells and learning, mice (6 months old) were administered ginsenoside Rh1 at a dose of 5 and 10 mg/kg/day for a period of 3 months. Saline-treated mice were used as controls. The enhancement of memory and learning in the mice was evaluated by hippocampal-dependent tasks (passive avoidance tests and Morris water maze tests) and the immunohistochemical marker of cell proliferation, bromodeoxyuridine (BrdU). In addition, the levels of brain-derived neurotrophic factor (BDNF) were measured following treatment. Based on our data, the Rh1-treated group (5 and 10 mg/kg) showed a significantly improved learning and memory ability in the passive avoidance tests compared with the control group; however, only treatment with 10 mg/kg ginsenoside Rh1 significantly promoted spatial learning ability in the Morris water maze test. Ginsenoside Rh1 significantly enhanced cell survival in the dentate gyrus of mice, although it did not enhance hippocampal cell proliferation. In addition, ginsenoside Rh1 upregulated the expression of BDNF. These findings address the potential therapeutic significance of ginsenoside Rh1 as a nutritional supplement in memory loss and neurodegenerative diseases.
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PMID:Long-term administration of ginsenoside Rh1 enhances learning and memory by promoting cell survival in the mouse hippocampus. 2421 64