A unique erythropoietin dosage induces the recovery of long-term synaptic potentiation in fimbria-fornix lesioned rats.

Synapses can experience long-term enhancements in its efficacy transmission in an activity-dependent manner (LTP, Long-Term Potentiation). This could contribute to store the living experiences in memory. Consequently, loss of synaptic plasticity can lead to failures in memory encoding and storage. Hence, finding ways to restore synaptic function can help restore learning and memory ability. Erythropoietin (EPO) has shown beneficial effects in the brain as a neuroprotector, improving affected learning, memory, and synaptic plasticity among other. In the present study, using the fimbria-fornix lesion model, we address the question whether the administration of erythropoietin restores the synaptic capacity to produce long-lasting increases in their transmission efficiency. A series of experiments was designed in which a control group of healthy young animals and one of injured young animals were formed. A subgroup of injured animals was injected with EPO or the vehicle in which the EPO is diluted (Veh). EPO or Veh was administered 15 min before LTP induction. Our data show that EPO produces a recovery in LTP in the group of fimbria-fornix lesioned animals, which show a severe impairment in the maintenance of LTP. Furthermore, LTP in the injured animals that received EPO was similar to that of the healthy control animals. LTP is widely accepted as a cellular mechanism of memory. Restoring LTP by EPO might be a potential tool for the treatment of memory disturbing diseases like Alzheimeŕs disease. Ongoing clinical trials are evaluating a potential therapeutic effect of low sialic acid-EPO (NeuroEPO) on degenerative diseases.