Cell Specificity of Molecular Changes During Memory Storage

Abstract

The aeolid nudibranch, Hermissenda crassicornis, exhibits Pavlovian conditioning to paired light and rotational stimuli and it has been suggested that protein kinase C (PKC) may play a critical role in the cellular mechanism for this conditioned behavioral response in the B-cell photoreceptor. The present study was designed to further examine learning-specific PKC involvement in identified cellular areas, particularly those in the visual-vestibular network, of the Hermissenda nervous system after Pavlovian conditioning. As used in previous vertebrate studies, the highly specific PKC radioligand, [³H]phorbol-12,13-dibutyrate ([³H]-PDBU), was used to determine the binding characteristics of the molluscan protein receptor considered to be PKC. The binding was specific, saturable, and could be displaced by a soluble diacylglycerol analogue. The binding activity was distributed evenly between the cytosol and the membrane. All of these analyses suggest that [³H]PDBU binds primarily to PKC in Hermissenda as it does in many other systems. Computerized grain image analysis was then used to determine the cellular localization of PKC as a function of Pavlovian conditioning. The medial and intermediate B photoreceptor and the optic ganglion showed significantly increased [³H]PDBU binding in conditioned animals. The present results provide the first report of an associative learning change of a key signal transduction component in identified neurons.