ARE SILDENAFIL DUAL EFFECTS ON MEMORY RELATED TO THE ACTIVATION OF DOPAMINE SYSTEM? IMPORTANCE OF SEARCHING FOR NEW DERIVATIVES WITH RESTRICTED ACCESS TO THE BRAIN?

MARÍA FERNANDA PONCE BETI; SERGIO RIBONE; MARIA FLORENCIA CONSTANTIN; SOFÍA DE LA FUENTE; AÍDA MARCOTTI; MARIO ALFREDO QUEVEDO; MARIELA FERNANDA PEREZ

Mar del Plata

Congreso; Reunión Anual de Sociedades de Biociencias SAIC, SAI, SAFIS 2022; 2022

Sildenafil (SILD) is the most clinically phosphodiesterase type 5 (PDE5) inhibitor used for peripheral pathologies, but it is misused without prescription. SILD reaches the brain and is proposed as a cognitive enhancer for pathologies such as Alzheimer?s disease. In fact, it improves transmission in the hippocampus (HP), a brain region involved in learning and memory, and also raises dopamine (DA) levels. Coincidently, DA increases may induce memory impairments in some animal models. Nevertheless, SILD central effects are not fully described in healthy conditions. Objectives: 1- to evaluate the effects of SILD on HP-dependent memories, 2- to evaluate the DA dependence of SILD-induced memory deficits, 3- search for SILD derivatives with higher hydrophilicity and preservedactivity. Material and Methods: male Wistar rats (50 days old) received a SILD dose (5 mg/kg, i.p.) 2 h before training in novel object recognition-NOR, Barnes-BM, Y-maze-YM or modified YM. Other group was treated with the DA-D3 receptor antagonist, FAUC365 (3mg/Kg, s.c.), 10 min before NOR training. Memory expression was evaluated accordingly each test. Also, hydrophilic SILD derivatives were identified by in silico methods. Results: SILD reduced NOR (p