Authors: Inbar Brosh; Edi Barkai

Source: Current Neurovascular Research, Volume 1, Number 4, October 2004 , pp. 389-395(7)

Publisher: Bentham Science Publishers

Abstract:

The idea that memory is manifested at the cellular level by enhancement of synaptic connections between simultaneously activated neurons has been suggested half a century ago by Hebb, and is widely accepted since. Much effort is done to describe such enhancement and reveal the underlying mechanisms. Learning-induced synaptic modifications were studied in the last decade with in-vitro brain slices preparations. Several forms of long-term enhancement of synaptic connections between layer II pyramidal neurons in the piriform cortex accompany olfactory learning. Such modifications were described also in other brain areas, following other training paradigms. Post-synaptic enhancement of synaptic transmission is indicated by reduced rise time of (post synaptic potentials) PSPs and formation of new synaptic connections is indicated by increased spine density along dendrites of these neurons. Enhanced synaptic release is indicated by reduced paired-pulse facilitation. In slices from trained rats predisposition for long-term potentiation is decreased and predisposition for long-term depression is increased. These modifications are attributed to olfactory-discrimination rule learning, rather than to memories for specific odors, and may be subsequent to intrinsic modifications in pyramidal neurons that create favorable conditions for activity-dependent synaptic enhancement.

Keywords: learning; pyramidal neurons; synaptic enhancement; olfactory-discrimination; piriform cortex; neuronal excitability

Document Type: Review article

DOI: http://dx.doi.org/10.2174/1567202043362090

Affiliations: 1: Center for Brain and Behavior, Faculty of Sciences, University of Haifa, Haifa 31905, Israel.

Publication date: 2004-10-01

More about this publication?

• Current Neurovascular Research (CNR) provides a cross platform for the publication of scientifically rigorous research that addresses disease mechanisms of both neuronal and vascular origins in neuroscience. The journal serves as an international forum for the publication of novel and pioneering original work as well as timely neuroscience research reviews in the disciplines of cell developmental disorders, plasticity, and degeneration that bridge the gap between basic science research and clinical discovery. CNR emphasizes the elucidation of disease mechanisms, both cellular and molecular, which can impact the development of unique therapeutic strategies for neuronal and vascular disorders.

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