anisomycin and lanthanum-chloride

The memorial effects of glutamate, LaCl3, ouabain, or anisomycin injection around the time of active avoidance training in mice were assessed in this study. Based on the Gibbs and Ng hypothesis of memory formation in chicks (Biobehav. Rev., 1 [1977] 113-136), it was predicted that these pharmacological agents would not only induce significant amnesia but, more specifically, short duration memory should be selectively impaired by glutamate and LaCl3, intermediate duration memory should be impaired by ouabain, and anisomycin should affect only long-lasting memories. Results of the experiments described below indicate these drugs are potent inhibitors of memory formation in rodents. In addition, LaCl3-induced amnesia was fully prevented by CaCl2. However, the mechanism by which glutamate and ouabain affected memory may not be exactly as described by Gibbs and Ng: gamma-D-glutamylglycine and diphenylhydantoin did not completely prevent glutamate- and ouabain-induced amnesias, respectively. Finally, all amnestic agents induced amnesia that developed within minutes of training, and the time course of development of amnesia for each drug could not be distinguished from one another. These data are discussed in terms of their implications for the Gibbs and Ng model of memory formation.

Topics: Animals; Anisomycin; Avoidance Learning; Calcium Chloride; Dipeptides; Glutamates; Glutamic Acid; Hippocampus; Lanthanum; Male; Memory; Mice; Mice, Inbred Strains; Ouabain; Phenytoin

Previous experiments suggested that working memory of rats trained on a radial maze can be discussed in terms of its short- and long-term temporal components. For example, in Mizumori, Channon, Rosenzweig, and Bennett's (1985) study, long-term working memory was found to be susceptible to disruption by the protein synthesis inhibitor anisomycin (ANI). In Experiment 1 of this report, we examined the neuropharmacological nature of short-term working memory of rats trained to retrieve food from all arms of a 12-arm radial maze. Delay intervals of varying length were placed between Choices 6 and 7. Lanthanum (LaCl3) and glutamate (GLU) injected bilaterally into the hippocampus effectively impaired retention over short delay intervals, which suggests a possible role for calcium and/or potassium and for glutamate in working memory. However, another equally likely explanation for the amnesic effects of LaCl3 and GLU is that these drugs impaired reference memory. To test more directly the hypothesis that LaCl3, GLU, or ANI might differentially affect working and reference memory, we tested the effects of these drugs on performance of rats trained to retrieve food from only 8 arms of the 12-arm maze in Experiment 2. The remaining 4 arms were never baited, in order to test reference memory function. We predicted that rats would make errors only in baited arms (i.e., errors of working memory). Instead, results of Experiment 2 showed that LaCl3, GLU, or ANI injection produced errors in unbaited arms even before a 120-min delay. If rats were injected with LaCl3 or GLU, baited-arm errors were observed only after the delay period.(ABSTRACT TRUNCATED AT 250 WORDS)

Topics: Animals; Anisomycin; Glutamates; Glutamic Acid; Lanthanum; Memory; Memory, Short-Term; Rats; Rats, Inbred Strains; Retention, Psychology