不同类型大鼠海马神经元对振荡输入电流的不同频率偏好
Distinct frequency preferences of different types of rat hippocampal neurones in response to oscillatory input currents.
作者信息
Pike F G, Goddard R S, Suckling J M, Ganter P, Kasthuri N, Paulsen O
机构信息
Departments of Physiology and Pharmacology, and MRC Anatomical Neuropharmacology Unit, Oxford, UK.
出版信息
J Physiol. 2000 Nov 15;529 Pt 1(Pt 1):205-13. doi: 10.1111/j.1469-7793.2000.00205.x.
Abstract
- Coherent network oscillations in several distinct frequency bands are seen in the hippocampus of behaving animals. To investigate how different neuronal types within this network respond to oscillatory inputs we made whole-cell current clamp recordings from three different types of neurones in the CA1 region of rat hippocampal slices: pyramidal cells, fast-spiking interneurones and horizontal interneurones, and recorded their response to sinusoidal inputs at physiologically relevant frequencies (1-100 Hz). 2. Pyramidal neurones showed firing preference to inputs at theta frequencies (range 2-7 Hz; n = 30). They showed subthreshold resonance in the same frequency range (2-7 Hz; mean 4.1 +/- 0.4 Hz; n = 19). 3. Interneurones differed in their firing properties. Horizontal interneurones in the stratum oriens showed firing preference to inputs at theta frequencies (range 1.5-10 Hz; n = 10). These interneurones also showed resonance at low frequencies (range 1-5 Hz; mean 2.4 +/- 0.5 Hz; n = 7). In contrast, fast-spiking interneurones with cell bodies in the pyramidal cell layer fired preferentially at input frequencies in the gamma band (range 30-50 Hz; n = 10/12). These interneurones showed resonance at beta-gamma frequencies (10-50 Hz; mean 26 +/- 5 Hz; n = 7/8). 4. Thus, in the hippocampus, different types of neurones have distinct frequency preferences. Therefore, in the CA1 layer of the hippocampal network, a compound oscillatory input may be segregated into distinct frequency components which are processed locally by distinct types of neurones.
摘要
- 在行为动物的海马体中可观察到几个不同频段的相干网络振荡。为了研究该网络中不同类型的神经元如何对振荡输入做出反应,我们对大鼠海马体切片CA1区的三种不同类型的神经元进行了全细胞电流钳记录:锥体细胞、快速放电中间神经元和水平中间神经元,并记录了它们在生理相关频率(1 - 100 Hz)下对正弦输入的反应。2. 锥体细胞对θ频率(范围2 - 7 Hz;n = 30)的输入表现出放电偏好。它们在相同频率范围(2 - 7 Hz;平均4.1 +/- 0.4 Hz;n = 19)表现出阈下共振。3. 中间神经元的放电特性有所不同。海马下托层的水平中间神经元对θ频率(范围1.5 - 10 Hz;n = 10)的输入表现出放电偏好。这些中间神经元在低频(范围1 - 5 Hz;平均2.4 +/- 0.5 Hz;n = 7)也表现出共振。相比之下,胞体位于锥体细胞层的快速放电中间神经元优先在γ频段(范围30 - 50 Hz;n = 10/12)的输入频率下放电。这些中间神经元在β - γ频率(10 - 50 Hz;平均26 +/- 5 Hz;n = 7/8)表现出共振。4. 因此,在海马体中,不同类型的神经元具有不同的频率偏好。所以,在海马网络的CA1层,复合振荡输入可能被分离成不同的频率成分,由不同类型的神经元在局部进行处理。
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