Hegde_1997_Cell_89_115

Reference

Title : Ubiquitin C-terminal hydrolase is an immediate-early gene essential for long-term facilitation in Aplysia - Hegde_1997_Cell_89_115
Author(s) : Hegde AN , Inokuchi K , Pei W , Casadio A , Ghirardi M , Chain DG , Martin KC , Kandel ER , Schwartz JH
Ref : Cell , 89 :115 , 1997
Abstract :

The switch from short-term to long-term facilitation of the synapses between sensory and motor neurons mediating gill and tail withdrawal reflexes in Aplysia requires CREB-mediated transcription and new protein synthesis. We isolated several downstream genes, one of which encodes a neuron-specific ubiquitin C-terminal hydrolase. This rapidly induced gene encodes an enzyme that associates with the proteasome and increases its proteolytic activity. This regulated proteolysis is essential for long-term facilitation. Inhibiting the expression or function of the hydrolase blocks induction of long-term but not short-term facilitation. We suggest that the enhanced proteasome activity increases degradation of substrates that normally inhibit long-term facilitation. Thus, through induction of the hydrolase and the resulting up-regulation of the ubiquitin pathway, learning recruits a regulated form of proteolysis that removes inhibitory constraints on long-term memory storage.

PubMedSearch : Hegde_1997_Cell_89_115
PubMedID: 9094720

Related information

Citations formats

Hegde AN, Inokuchi K, Pei W, Casadio A, Ghirardi M, Chain DG, Martin KC, Kandel ER, Schwartz JH (1997)
Ubiquitin C-terminal hydrolase is an immediate-early gene essential for long-term facilitation in Aplysia
Cell 89 :115

Hegde AN, Inokuchi K, Pei W, Casadio A, Ghirardi M, Chain DG, Martin KC, Kandel ER, Schwartz JH (1997)
Cell 89 :115