Administration of amyloid beta-peptides in the rat medial septum causes memory deficits: reversal by SR 57746A, a non-peptide neurotrophic compound.

Different putative toxic amyloid beta (A beta) peptides, beta (1-42), beta (1-40) and beta (25-35), were infused (0.75, 1.5 or 3 nmol) in the rat medial septum. Memory deficits were then investigated using the social recognition test. A significant amnesia was observed 4, 7 and 14 days after intraseptal injection of 3 nmol of beta (1-42), beta-(1-40)- and beta (25-35). Lower amounts of beta (1-42) were inactive except 1.5 nmol that disrupted memory 7 days post-treatment. Used as control, the inverted peptide beta (40-1) and the scrambled beta (25-35) were inactive. Using the prolongation procedure, rats infused with 3 nmol of beta (1-40) were still able to recognize the same juvenile. Finally, a daily treatment with the non-peptide neurotrophic compound SR 57746A (10 mg/kg p.o.) over 21 days, prevented the deficits in short-term memory induced by the intraseptal infusion of 3 nmol of either beta (1-40) or beta (25-35). These findings suggest that A beta fragments could impair short-term memory when infused in the rat medial septum, an effect that is prevented by SR 57746A.

A new series of imidazolones: highly specific and potent nonpeptide AT1 angiotensin II receptor antagonists.

Starting from the structure of the novel nonpeptide AT1 receptor antagonist DuP 753 (losartan), a new series of potent antagonists was designed. In these compounds the central imidazole nucleus was replaced by the dihydroimidazol-4-one structure. The most active compounds had a spirocyclopentane or a spirocyclohexane ring in position 5. Like the imidazole series, the best substituents were the linear butyl chain in position 1 and the [2'-(tetrazol-5-yl)biphenylyl]methyl group in position 3. Antagonistic activity was assessed by the ability of the compounds to competitively inhibit [125I]AII binding to the AT1 subtype receptor and to antagonize AII-induced contractions in rabbit aorta rings. The most active compounds had IC50 values in the nanomolar range. In conscious rats, compounds 4 and 21 antagonized the AII pressor response when administered orally. Compound 21 (SR 47436) was the most active; it was recently shown to also be active in cynomolgus monkeys both intravenously and orally. This molecule is now undergoing clinical trials for the treatment of hypertension.