Memory loss typically accompanies strokes of the anterior communicating artery, viral infections of the brain, normal aging, and is a central feature of certain diseases such as Alzheimers and AIDs dementia complex as well. To understand the mechanisms underlying storage of information in the brain we have examined the effects of selective cerebral ablations and disconnections on different types of memory in macaque monkeys. The storage of stimulus memories in monkeys is achieved in large part by a strip of cortex lying at the base of the medial temporal lobe. This region is comprised of the entorhinal cortex and perirhinal cortex, abbreviated here as rhinal cortex. The rhinal cortex appears to be critical for accurate stimulus identification, stimulus recognition, and stimulus-stimulus association. Further, the rhinal cortex receives information from all the modality-specific neocortical regions, after processing through a series of cortical fields, and mediates stimulus recognition in at least the visual and somatic sensory modalities (and perhaps other sensory modalities as well). The rhinal cortex appears to be responsible for stimulus- stimulus associative memory both within sensory modalities (i.e. intramodal associations) and across sensory modalities (i.e. crossmodal associations). Moreover, the rhinal cortex can mediate these types of information storage in the absence of the medial temporal lobe limbic structures, the amygdala and hippocampus. It is proposed that the rhinal cortex is the kernel of a memory system specialized for storing knowledge about objects, and that this system is analogous to a semantic memory system in humans. Stimulus memories can be linked to affective states and reward through connections of the rhinal cortex with the amygdala. Stimulus memories can be linked with locations and motor acts through connections of the rhinal cortex with the hippocampal formation. - Perirhinal Cortex, Hippocampal, Sensory Modalities

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Intramural Research (Z01)
Project #
1Z01MH002736-05
Application #
6432846
Study Section
(LN)
Project Start
Project End
Budget Start
Budget End
Support Year
5
Fiscal Year
2000
Total Cost
Indirect Cost
Name
U.S. National Institute of Mental Health
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Murray, Elisabeth A; Bussey, Timothy J; Saksida, Lisa M (2007) Visual perception and memory: a new view of medial temporal lobe function in primates and rodents. Annu Rev Neurosci 30:99-122
Saksida, Lisa M; Bussey, Timothy J; Buckmaster, Cindy A et al. (2007) Impairment and facilitation of transverse patterning after lesions of the perirhinal cortex and hippocampus, respectively. Cereb Cortex 17:108-15
Bussey, Timothy J; Saksida, Lisa M; Murray, Elisabeth A (2006) Perirhinal cortex and feature-ambiguous discriminations. Learn Mem 13:103-5; author reply 106-7
Murray, Elisabeth A; Gaffan, David (2006) Prospective memory in the formation of learning sets by rhesus monkeys (Macaca mulatta). J Exp Psychol Anim Behav Process 32:87-90
Saksida, Lisa M; Bussey, Timothy J; Buckmaster, Cindy A et al. (2006) No effect of hippocampal lesions on perirhinal cortex-dependent feature-ambiguous visual discriminations. Hippocampus 16:421-30
Izquierdo, Alicia; Murray, Elisabeth A (2005) Opposing effects of amygdala and orbital prefrontal cortex lesions on the extinction of instrumental responding in macaque monkeys. Eur J Neurosci 22:2341-6
Murray, Elisabeth A; Graham, Kim S; Gaffan, David (2005) Perirhinal cortex and its neighbours in the medial temporal lobe: contributions to memory and perception. Q J Exp Psychol B 58:378-96
Barense, Morgan D; Bussey, Timothy J; Lee, Andy C H et al. (2005) Functional specialization in the human medial temporal lobe. J Neurosci 25:10239-46
Bussey, Timothy J; Saksida, Lisa M; Murray, Elisabeth A (2005) The perceptual-mnemonic/feature conjunction model of perirhinal cortex function. Q J Exp Psychol B 58:269-82
Izquierdo, Alicia; Suda, Robin K; Murray, Elisabeth A (2005) Comparison of the effects of bilateral orbital prefrontal cortex lesions and amygdala lesions on emotional responses in rhesus monkeys. J Neurosci 25:8534-42

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