The role of osteocrin in memory formation during early learning, as revealed by visual imprinting in chicks.

Osteocrin (OSTN) is structurally associated with natriuretic peptides. Its expression in the brain, which has only been recognized in anthropoid primates, is induced by sensory stimuli and regulates the activity-dependent dendritic growth of neurons. However, details on the signaling mechanisms of OSTN and its function in plastic changes during learning and memory have yet to be elucidated.

Characteristic expressions of the natriuretic peptide family in the telencephalon of juvenile chick.

Elucidation of the genes regulating the critical (sensitive) period of imprinting behavior may shed light on the mechanism underlying neural plasticity in early childhood learning. We focused on the family of natriuretic peptides (NPs) as candidates involved in the regulation of the critical period. In avians, several structurally related molecules comprised the NP family, including renal NP (RNP), B-type NP (BNP) and C-type NP (CNP1, CNP3 and CNPP).