The invention relates to a novel class of non-peptide heterocyclic low-molecular peptide mimetics of secretory amyloid precursor protein sAPP (sAPP mimetics) capable of acting effectively upon the processes of the formation, storage and regeneration of normal and pathological memory. The compounds can also be used for studying (in vitro and in vivo) biochemical signaling, neurotrophic and neuroprotective processes related to the secretory protein sAPP and for studying the mechanisms of the formation, storage and regeneration of memory. Specifically, the invention relates to (azaheterocyclyl)alkyl derivative amides of 2-(het)arylglycines of general formula (I)in which n and m can have the values 0, 1, 2 and 3 the symbol (#) here and hereinafter signifies the possible presence of a chiral centre R represents optionally substituted C5-C10aryl or a 5-7-membered hetaryl containing 1-2 heteroatoms selected from nitrogen, oxygen and sulphur and optionally condensed with a benzene ring wherein the substituents are selected from C1-C8alkyl, C1-C8alkoxy, halogen, OH, CF3, OCF3, unsubstituted amono group, C1-C8alkoxycarbonyl A1 and A2 represent a 6-membered aromatic azaheterocycle containing from 1 to 2 atoms of nitrogen in the cycle and is optionally condensed with a benzene ring or pharmaceutically acceptable salts or alkyl esters thereof in the form of individual optical isomers, or combinations thereof.Изобретение относится к новому классу непептидных гетероциклических низкомолекулярных пептидомиметиков секреторного предшественника амилоидного пептида sAPP (sAPP-миметиков), обладающих способностью эффективно воздействовать на процессы формирования, хранения и воспроизведения памяти, утраченной в норме и патологии. Соединения также могут найти применение для исследований (in vitro и in vivo) биохимических сигнальных, нейротрофических и нейропротекторных процессов, связанных с секреторным белком sAPP, и механизмов формирования, хранения и воспроизведения памяти. Конкретно из
