Effects of cortical ectopias on spatial delayed-matching-to-sample performance in BXSB mice.

BXSB mice have small neocortical anomalies (ectopic collections of neurons in layer I), with an incidence of about 40-60%. Previous studies have found that ectopic mice from this strain are faster than non-ectopics in learning the Morris water maze (reference memory), but have poorer working memory for spatial learning. The current study continues the investigation of working memory by testing ectopic and non-ectopic BXSB mice on a spatial delayed-matching-to-sample test (S-DMTS; also called spatial learning sets or 'working memory' water maze). In this test, the mice must find a submerged platform in a pool of water. The platform changes location with every problem, or block of four trials. The subject has 'matched to sample' if it locates the platform in less time on the second trial of each problem than it did on the first. Of 33 subjects, 8 had cortical ectopias, one had a small neuron-free gliotic area, and 24 were normal. The normal subjects showed a decrease in time to escape over the first 2 trials of the first 5 problems, while the ectopic subjects did not show a decrease until the third trial, indicating that ectopic mice required more trials to put the platform location into working memory. The site of the ectopias is prefrontal/motor cortex, and we hypothesize that is the cause of the poorer working memory.