Artificial fluorescent sensor reveals pre‐synaptic NMDA receptors switch cholecystokinin release and LTP in the hippocampus.

Cholecystokinin (CCK) has been confirmed to be essential in NMDA‐dependent long‐term potentiation (LTP) at mouse cortical synapses. This paper has proven that CCK is necessary for LTP induced by high‐frequency stimulation of mouse hippocampal synapses projected from the entorhinal cortex. We show that the subunit of the axonal NMDA receptor dominant modulates the activity‐induced LTP by triggering pre‐synaptic CCK release. A functional pre‐synaptic NMDA receptor is required to induce LTP mediated by the axonal Ca2+ elevation and CCK exocytosis at CCK‐specific neurons. Genetic depletion of the GluN1 subunit of NMDA receptors on CCK neurons, which projected from the entorhinal cortex largely abolished the axonal Ca2+ elevation and disturbed the secretion of CCK in hippocampus. These results demonstrate that activity‐induced LTP at the hippocampal synapse is CCK‐dependent, and CCK secretion from the axonal terminal is modulated by pre‐synaptic NMDA receptors. [ABSTRACT FROM AUTHOR]