Solntseva S V, Efimova O I, Nikitin V P
Federal Research Center for Innovator and Emerging Biomedical and Pharmaceutical Technologies, Moscow, Russia.
Vladimir Zelman Center for Neurobiology and Brain Rehabilitation, Skolkovo Institute of Science and Technology, Moscow, Russia.
Bull Exp Biol Med. 2024 Nov;178(1):11-16. doi: 10.1007/s10517-024-06274-x. Epub 2024 Nov 20.
The involvement of DNA synthesis in the mechanisms of long-term memory reconsolidation in edible snails trained for conditioned food aversion was investigated. Administration of nucleoside analogs, such as 5-bromo-2'-deoxyuridine or 3'-azido-3'-deoxythymidine, which inhibit DNA synthesis, 1 h before or 1-3 h, but not 5 h after reminder with the conditioned stimulus led to memory impairment. One day after the inhibitor application and memory reactivation, a weakly expressed memory impairment (amnesia) was observed, which progressed over the next few days to the complete disappearance of behavioral memory expression. In snails with formed aversive memory for two food conditioned stimulus, a specific memory impairment was observed only for the stimulus that was paired with the presentation of an inhibitor during the reminder, while the memory for the other non-reactivated conditioned stimulus remained intact. It is suggested that DNA synthesis in the brain plays a specific role in the genetic mechanisms of reconsolidation and maintenance of long-term conditioned food aversion memory in snails.
研究了DNA合成在经过条件性食物厌恶训练的食用蜗牛长期记忆再巩固机制中的作用。在条件刺激提示前1小时或1 - 3小时(而非5小时)给予抑制DNA合成的核苷类似物,如5-溴-2'-脱氧尿苷或3'-叠氮-3'-脱氧胸苷,会导致记忆受损。在应用抑制剂并进行记忆再激活一天后,观察到记忆有轻度受损(失忆),这种情况在接下来几天逐渐发展,直至行为记忆表达完全消失。对于已形成对两种食物条件刺激厌恶记忆的蜗牛,仅在提示期间与抑制剂呈现配对的刺激会出现特定的记忆损伤,而对另一种未再激活的条件刺激的记忆则保持完整。这表明大脑中的DNA合成在蜗牛长期条件性食物厌恶记忆的再巩固和维持的遗传机制中起特定作用。
