Early life stress lastingly alters the function and AMPA‐receptor composition of glutamatergic synapses in the hippocampus of male mice

谷氨酸的 AMPA受体 海马体 内科学 内分泌学 受体 神经科学 沉默突触 NMDA受体 谷氨酸受体 医学 心理学 化学
作者
Niek Brosens,Carla Sasso Simon,Helmut W. Kessels,Paul J. Lucassen,Harm J. Krugers
出处
期刊:Journal of Neuroendocrinology [Wiley]
卷期号:35 (12) 被引量:2
标识
DOI:10.1111/jne.13346
摘要

Abstract Early postnatal life is a sensitive period of development that shapes brain structure and function later in life. Exposure to stress during this critical time window can alter brain development and may enhance the susceptibility to psychopathology and neurodegenerative disorders later in life. The developmental effects of early life stress (ELS) on synaptic function are not fully understood, but could provide mechanistic insights into how ELS modifies later brain function and disease risk. We here assessed the effects of ELS on synaptic function and composition in the hippocampus of male mice. Mice were subjected to ELS by housing dams and pups with limited bedding and nesting material from postnatal days (P) 2–9. Synaptic strength was measured in terms of miniature excitatory postsynaptic currents (mEPSCs) in the hippocampal dentate gyrus at three different developmental stages: the early postnatal phase (P9), preadolescence (P21, at weaning) and adulthood at 3 months of age (3MO). Hippocampal synaptosome fractions were isolated from P9 and 3MO tissue and analyzed for protein content to assess postsynaptic composition. Finally, dendritic spine density was assessed in the DG at 3MO. At P9, ELS increased mEPSC frequency and amplitude. In parallel, synaptic composition was altered as PSD‐95, GluA3 and GluN2B content were significantly decreased. The increased mEPSC frequency was sustained up to 3MO, at which age, GluA3 content was significantly increased. No differences were found in dendritic spine density. These findings highlight how ELS affects the development of hippocampal synapses, which could provide valuable insight into mechanisms how ELS alters brain function later in life.

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