Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Qingdao University, 308 Ningxia Rd, Qingdao, Shandong, 266071, China.
Department of Medicine, Qingdao Binhai University, 425 West Jialing River Rd, Qingdao, Shandong, 266555, China.
Cereb Cortex. 2023 Mar 10;33(6):2612-2625. doi: 10.1093/cercor/bhac230.
Growth hormone secretagogue receptor 1a (GHSR1a)-the receptor for orexigenic hormone ghrelin-is a G protein-coupled receptor that is widely distributed in the brain, including the hippocampus. Studies have demonstrated that genetic deletion of GHSR1a affects memory, suggesting the importance of ghrelin/GHSR1a signaling in cognitive control. However, current reports are controversial, and the mechanism underlying GHSR1a modulation of memory is uncertain. Here, we first report that global GHSR1a knockout enhances hippocampus-dependent memory, facilitates initial LTP in dorsal hippocampal Schaffer Collateral-CA1 synapses, and downregulates Akt activity in the hippocampus. Moreover, we show that the intrinsic excitability of GAD67+ interneurons-rather than neighboring pyramidal neurons in the dCA1-is suppressed by GHSR1a deletion, an effect that is antagonized by acute application of the Akt activator SC79. In addition, the inhibitory postsynaptic currents (IPSCs) on dCA1 pyramidal neurons are selectively reduced in mice with a GHSR1a deficiency. Finally, we demonstrate that selectively increasing the excitability of parvalbumin-expressing interneurons by hM3Dq-DREADDs increases IPSCs on dCA1 pyramidal neurons and normalizes memory in Ghsr1a KO mice. Our findings thus reveal a novel mechanism underlying memory enhancement of GHSR1a deficiency and herein support an adverse effect of GHSR1a signaling in hippocampus-dependent memory processes.
生长激素促分泌素受体 1a(GHSR1a)-食欲激素 ghrelin 的受体-是一种广泛分布于大脑中的 G 蛋白偶联受体,包括海马体。研究表明,GHSR1a 的基因缺失会影响记忆,表明 ghrelin/GHSR1a 信号在认知控制中的重要性。然而,目前的报告存在争议,并且 GHSR1a 调节记忆的机制尚不确定。在这里,我们首先报道,全局 GHSR1a 敲除增强了海马体依赖性记忆,促进了背侧海马体 Schaffer 侧枝-CA1 突触的初始 LTP,并下调了海马体中的 Akt 活性。此外,我们表明,GAD67+中间神经元的内在兴奋性-而不是 dCA1 中的邻近锥体神经元-被 GHSR1a 缺失抑制,这种作用被 Akt 激活剂 SC79 拮抗。此外,在 GHSR1a 缺乏的小鼠中,dCA1 锥体神经元上的抑制性突触后电流(IPSCs)选择性降低。最后,我们证明通过 hM3Dq-DREADDs 选择性增加表达 parvalbumin 的中间神经元的兴奋性会增加 dCA1 锥体神经元上的 IPSCs,并使 Ghsr1a KO 小鼠的记忆正常化。因此,我们的发现揭示了 GHSR1a 缺乏导致记忆增强的新机制,并支持 GHSR1a 信号在海马体依赖性记忆过程中的不良作用。
