Laboratory for Neuron-Glia Circuitry.
Laboratory for Developmental Neurobiology, RIKEN Brain Science Institute, Saitama, Japan.
J Physiol. 2017 Oct 15;595(20):6557-6568. doi: 10.1113/JP274573. Epub 2017 Aug 27.
Mice reared in an enriched environment are demonstrated to have larger hippocampal gamma oscillations than those reared in isolation, thereby confirming previous observations in rats. To test whether astrocytic Ca surges are involved in this experience-dependent LFP pattern modulation, we used inositol trisphosphate receptor type 2 (IP R2)-knockout (KO) mice, in which IP /Ca signalling in astrocytes is largely diminished. We found that this experience-dependent gamma power alteration persists in the KO mice. Interestingly, hippocampal ripple events, the synchronized events critical for memory consolidation, are reduced in magnitude and frequency by both isolated rearing and IP R2 deficiency.
Rearing in an enriched environment (ENR) is known to enhance cognitive and memory abilities in rodents, whereas social isolation (ISO) induces depression-like behaviour. The hippocampus has been documented to undergo morphological and functional changes depending on these rearing environments. For example, rearing condition during juvenility alters CA1 stratum radiatum gamma oscillation power in rats. In the present study, hippocampal CA1 local field potentials (LFP) were recorded from bilateral CA1 in urethane-anaesthetized mice that were reared in either an ENR or ISO condition. Similar to previous findings in rats, gamma oscillation power during theta states was higher in the ENR group. Ripple events that occur during non-theta periods in the CA1 stratum pyramidale also had longer intervals in ISO mice. Because astrocytic Ca elevations play a key role in synaptic plasticity, we next tested whether these changes in LFP are also expressed in inositol trisphosphate receptor type 2 (IP R2)-knockout (KO) mice, in which astrocytic Ca elevations are largely diminished. We found that the gamma power was also higher in IP R2-KO-ENR mice compared to IP R2-KO-ISO mice, suggesting that the rearing-environment-dependent gamma power alteration does not necessarily require the astrocytic IP /Ca pathway. By contrast, ripple events showed genotype-dependent changes, as well as rearing condition-dependent changes: ISO housing and IP R2 deficiency both lead to longer inter-ripple intervals. Moreover, we found that ripple magnitude in the right CA1 tended to be smaller in IP R2-KO. Because IP R2-KO mice have been reported to have depression phenotypes, our results suggest that ripple events and the mood of animals may be broadly correlated.
与单独饲养的小鼠相比,在丰富环境中饲养的小鼠表现出更大的海马γ 振荡,从而证实了先前在大鼠中的观察结果。为了测试星形胶质细胞 Ca 爆发是否参与这种经验依赖性 LFP 模式调制,我们使用了肌醇三磷酸受体 2(IP R2)敲除(KO)小鼠,其中星形胶质细胞中的 IP / Ca 信号大大减少。我们发现,这种经验依赖性γ 功率改变在 KO 小鼠中仍然存在。有趣的是,海马回波事件,对记忆巩固至关重要的同步事件,无论是单独饲养还是 IP R2 缺乏都会降低幅度和频率。
在丰富环境(ENR)中饲养已知可增强啮齿动物的认知和记忆能力,而社会隔离(ISO)则会引起类似抑郁的行为。已经记录到海马体根据这些饲养环境发生形态和功能变化。例如,青少年时期的饲养条件会改变大鼠 CA1 辐射层的γ 振荡功率。在本研究中,从在 ENR 或 ISO 条件下饲养的乌拉坦麻醉小鼠的双侧 CA1 记录海马 CA1 局部场电位(LFP)。与大鼠的先前发现类似,在 theta 状态下的γ 振荡功率在 ENR 组中更高。在 CA1 柱状锥体的非 theta 期间发生的回波事件在 ISO 小鼠中也具有更长的间隔。由于星形胶质细胞 Ca 升高在突触可塑性中起关键作用,我们接下来测试 LFP 中的这些变化是否也表达在肌醇三磷酸受体 2(IP R2)敲除(KO)小鼠中,其中星形胶质细胞 Ca 升高大大减少。我们发现,与 IP R2-KO-ISO 小鼠相比,IP R2-KO-ENR 小鼠的γ 功率也更高,这表明与饲养环境相关的γ 功率改变不一定需要星形胶质细胞的 IP / Ca 途径。相比之下,回波事件显示出基因型依赖性变化以及饲养条件依赖性变化:ISO 住房和 IP R2 缺乏都会导致更长的回波间隔。此外,我们发现右 CA1 的回波幅度在 IP R2-KO 中趋于较小。由于已经报道 IP R2-KO 小鼠具有抑郁表型,我们的结果表明回波事件和动物的情绪可能广泛相关。
