Homeostatic Regulation of Spike Rate within Bursts in Two Distinct Preparations.

IF 2.7 3区 医学 Q3 NEUROSCIENCES eNeuro Pub Date : 2024-09-10 Print Date: 2024-09-01 DOI:10.1523/ENEURO.0259-24.2024
Alishah Lakhani, Carlos Gonzalez-Islas, Zahraa Sabra, Nicholas Au Yong, Peter Wenner
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Abstract

Homeostatic plasticity represents a set of mechanisms thought to stabilize some function of neural activity. Here, we identified the specific features of cellular or network activity that were maintained after the perturbation of GABAergic blockade in two different systems: mouse cortical neuronal cultures where GABA is inhibitory and motoneurons in the isolated embryonic chick spinal cord where GABA is excitatory (males and females combined in both systems). We conducted a comprehensive analysis of various spiking activity characteristics following GABAergic blockade. We observed significant variability in many features after blocking GABAA receptors (e.g., burst frequency, burst duration, overall spike frequency in culture). These results are consistent with the idea that neuronal networks achieve activity goals using different strategies (degeneracy). On the other hand, some features were consistently altered after receptor blockade in the spinal cord preparation (e.g., overall spike frequency). Regardless, these features did not express strong homeostatic recoveries when tracking individual preparations over time. One feature showed a consistent change and homeostatic recovery following GABAA receptor block. We found that spike rate within a burst (SRWB) increased after receptor block in both the spinal cord preparation and cortical cultures and then returned to baseline within hours. These changes in SRWB occurred at both single cell and population levels. Our findings indicate that the network prioritizes the burst spike rate, which appears to be a variable under tight homeostatic regulation. The result is consistent with the idea that networks can maintain an appropriate behavioral response in the face of challenges.

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两种不同制剂中脉冲串内尖峰率的稳态调节
同态可塑性代表了一套被认为能稳定神经活动某些功能的机制。在这里,我们在两个不同的系统中确定了GABA能阻断干扰后细胞或网络活动所保持的特定特征:小鼠皮层神经元培养物(GABA具有抑制作用)和离体胚胎小鸡脊髓运动神经元(GABA具有兴奋作用)(两个系统中均为雌雄结合)。我们对 GABA 能阻断后的各种尖峰活动特征进行了全面分析。我们观察到阻断 GABAA 受体后许多特征(如突发性频率、突发性持续时间、培养过程中的总体尖峰频率)都有明显的变化。这些结果与神经元网络使用不同策略(退化)实现活动目标的观点一致。另一方面,在脊髓制备中阻断受体后,一些特征发生了持续改变(如总体尖峰频率)。尽管如此,在对单个制备物进行长期跟踪时,这些特征并没有表现出强烈的同源性恢复。有一个特征在 GABAA 受体阻断后出现了一致的变化和平衡恢复。我们发现,在脊髓制备物和皮层培养物中,受体阻断后,爆发内尖峰率(SRWB)增加,然后在数小时内恢复到基线。SRWB 的这些变化发生在单细胞和群体水平。我们的研究结果表明,网络优先考虑突发性内的尖峰动态,而这种动态似乎在严格的平衡调节下是可变的。这一结果与网络能在面临挑战时保持适当行为反应的观点是一致的。意义声明 同态可塑性在维持最佳神经功能方面起着至关重要的作用,尤其是在系统反复经历功能挑战的发育过程中。在我们目前的研究中,在两个不同的系统中阻断了 GABA 受体的活动,一个系统中 GABA 具有抑制性,另一个系统中 GABA 具有兴奋性。在这两个系统中,我们都观察到猝发内尖峰率(SRWB)持续上升,并在阻断剂持续存在的情况下平衡地恢复到控制水平,这证明了 SRWB 维持的重要性。当一个网络在突触暴发过程中被调用发挥作用或参与功能时,在这一活动过程中保持同源性的一个关键特征是尖峰率,这对网络的行为表现至关重要。
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来源期刊
eNeuro
eNeuro Neuroscience-General Neuroscience
CiteScore
5.00
自引率
2.90%
发文量
486
审稿时长
16 weeks
期刊介绍: An open-access journal from the Society for Neuroscience, eNeuro publishes high-quality, broad-based, peer-reviewed research focused solely on the field of neuroscience. eNeuro embodies an emerging scientific vision that offers a new experience for authors and readers, all in support of the Society’s mission to advance understanding of the brain and nervous system.
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