Comparative analysis of the activation of MAP/ERK kinases in the CNS of animals with different learning abilities

Abstract

Western blot analysis was used to study the activation of MAP/ERK protein kinases responsible for controlling gene expression via phosphorylation of transcription factors CREB and ELK-1 in native common snails and animals with impaired abilities to form long-term types of conditioned aversive reflexes. Different periods of the formation of this reflex were found to be characterized by different levels of activation of MAP-ERK kinases. The extents of activation of MAP-ERK kinase cascade were different in ganglia (parietal-visceral, cerebral, and pedal) with different roles in the formation of this reflex. The dynamics of activation showed a wavelike nature, with peaks at 10 min and 4 h. Administration of the neurotoxin 5,7-DHT, which induces dysfunction of serotonin terminals and decreases the ability to acquire this type of learning, led to significant decreases in activation of the MAP-ERK kinase cascade at the early stages of learning, which is evidence for an important role for the serotoninergic system in inducing this cascade. Activation of the MAP/ERK kinase cascade 4 h after training was seen both in native and DHT-treated animals, which is probably evidence for activation of non-specific adaptive processes in response to the sensitizing unconditioned stimulus. Thus, the MAP/ERK kinase intracellular regulatory cascade, which plays an important role in the survival of neurons, the regeneration of neuron processes, and synaptic sprouting, also plays an important role in forming the serotonin-dependent food-aversive reflex in the common snail.