División de Neurociencias, Instituto de Fisiología Celular, Universidad Nacional Autónoma de México, México City 04510, Mexico.
División del Sistema de Universidad Abierta, Departamento de Psicobiología y Neurociencias, Facultad de Psicología, Universidad Nacional Autónoma de México, México City, Mexico.
Neuroscience. 2021 Mar 15;458:153-165. doi: 10.1016/j.neuroscience.2020.12.032. Epub 2021 Jan 9.
Differences in the intrinsic properties of intralaminar thalamo-striatal neurons such as expressing low-threshold-spikes (LTS) or after hyperpolarizing potentials (AHPs) of different duration have been attributed to different maturation stages. However, two morphological types: "diffuse" and "bushy" have been described. Therefore, we explored whether electrophysiological differences persist in adult mice using whole cell recordings. Some recorded neurons were identified by intracellular labeling with biocytin and double labeling with retrograde or anterograde tracings using Cre-mice. We classified these neurons by their AHPs during spontaneous firing. Neurons with long duration AHPs, with fast and slow components, were mostly found in the parafascicular (Pf) nucleus. Neurons with brief AHPs were mainly found in the central lateral (CL) nucleus. However, neurons with both AHPs were found in both nuclei in different proportions. Firing frequency adaptation differed between these neuron classes: those with prolonged AHPs exhibited firing frequency adaptation with fast and slow time constants whereas those with brief AHPs were slow adapters. Neurons with more prolonged AHPs had significant higher input resistances than neurons with brief AHPs. Both cell classes could fire in two modes: trains of single action potentials at depolarized potentials or high frequency bursts on top of LTS at more hyperpolarized potentials. LTS were probably generated by Cav3 calcium channels since they were blocked by the selective antagonist TTA-P2. About 11% of neurons with brief AHPs and 55% of neurons with prolonged AHPs do not show LTS and bursts, even when potassium currents are blocked.
层状丘脑纹状体神经元的内在特性存在差异,例如表达不同持续时间的低阈值尖峰 (LTS) 或超极化后电位 (AHP),这些差异归因于不同的成熟阶段。然而,已经描述了两种形态类型:“弥散”和“丛状”。因此,我们使用全细胞膜片钳记录来探索成年小鼠中是否存在电生理差异。通过用生物胞素进行细胞内标记,并使用 Cre 小鼠进行逆行或顺行示踪的双重标记,鉴定了一些记录的神经元。我们根据它们在自发放电期间的 AHP 对这些神经元进行分类。具有长持续时间 AHP、具有快速和缓慢成分的神经元主要存在于旁束核 (Pf) 中。具有短暂 AHP 的神经元主要存在于中央外侧核 (CL) 中。然而,具有两种 AHP 的神经元以不同的比例存在于这两个核中。这些神经元类别的放电频率适应性不同:具有延长 AHP 的神经元表现出具有快速和缓慢时间常数的放电频率适应性,而具有短暂 AHP 的神经元是缓慢适应者。具有更长 AHP 的神经元的输入电阻显著高于具有短暂 AHP 的神经元。这两类细胞都可以在两种模式下放电:在去极化电位下的单个动作电位串或在更超极化电位下的 LTS 上的高频爆发。LTS 可能是由 Cav3 钙通道产生的,因为它们被选择性拮抗剂 TTA-P2 阻断。大约 11%具有短暂 AHP 的神经元和 55%具有延长 AHP 的神经元即使在阻断钾电流时也不会显示 LTS 和爆发。
