Harris J A, Petersen R S, Diamond M E
School of Psychology, University of New South Wales, Sydney, 2052 Australia.
Proc Natl Acad Sci U S A. 1999 Jun 22;96(13):7587-91. doi: 10.1073/pnas.96.13.7587.
The brain's sensory processing systems are modified during perceptual learning. To learn more about the spatial organization of learning-related modifications, we trained rats to utilize the sensory signal from a single intact whisker to carry out a behavioral task. Once a rat had mastered the task, we clipped its "trained" whisker and attached a "prosthetic" one to a different whisker stub. We then tested the rat to determine how quickly it could relearn the task by using the new whisker. We observed that rats were immediately able to use the prosthetic whisker if it were attached to the stub of the trained whisker but not if it were attached to a different stub. Indeed, the greater the distance between the trained and prosthetic whisker, the more trials were needed to relearn the task. We hypothesized that this "transfer" of learning between whiskers might depend on how much the representations of individual whiskers overlap in primary somatosensory cortex. Testing this hypothesis by using 100-electrode cortical recordings, we found that the overlap between the cortical response patterns of two whiskers accounted well for the transfer of learning between them: The correlation between the electrophysiological and behavioral data was very high (r = 0.98). These findings suggest that a topographically distributed memory trace for sensory-perceptual learning may reside in primary sensory cortex.
大脑的感觉处理系统在知觉学习过程中会发生改变。为了更深入了解与学习相关的改变的空间组织,我们训练大鼠利用来自一根完整胡须的感觉信号来执行一项行为任务。一旦大鼠掌握了该任务,我们就剪掉其“受过训练”的胡须,并将一根“假体”胡须连接到另一根胡须残端上。然后,我们对大鼠进行测试,以确定它利用新胡须重新学习该任务的速度有多快。我们观察到,如果将假体胡须连接到受过训练的胡须的残端上,大鼠能够立即使用它,但如果连接到不同的残端上则不行。实际上,受过训练的胡须与假体胡须之间的距离越大,重新学习该任务所需的试验次数就越多。我们推测,胡须之间这种学习的“转移”可能取决于初级体感皮层中各个胡须表征的重叠程度。通过使用100电极皮层记录来检验这一假设,我们发现两根胡须的皮层反应模式之间的重叠很好地解释了它们之间学习的转移:电生理数据与行为数据之间的相关性非常高(r = 0.98)。这些发现表明,感觉-知觉学习的拓扑分布记忆痕迹可能存在于初级感觉皮层中。