Quinlan Katharina A, Kiehn Ole
Mammalian Locomotor Laboratory, Department of Neuroscience, Karolinska Institute, 17177 Stockholm, Sweden.
J Neurosci. 2007 Jun 13;27(24):6521-30. doi: 10.1523/JNEUROSCI.1618-07.2007.
Left-right alternation depends on activity in commissural interneurons (CINs) that have axons crossing in the midline. In this study, we investigate the CIN connectivity to local motor neurons using a newly developed preparation of the in vitro neonatal mouse spinal cord that allows us to identify all classes of CINs. Nineteen of 29 short-range CINs with axonal projections <1.5 segments (sCINs) directly excited, directly inhibited, or indirectly inhibited contralateral motor neurons in the quiescent spinal cord. Excitation was glutamatergic and inhibition was mixed glycinergic and/or GABAergic. Long-range CINs were also found to have input to local, contralateral motor neurons. Thirteen of 29 descending CINs had similar synaptic connectivity to contralateral motor neurons as the sCINs, including direct excitation and direct and indirect inhibition. Some (9 of 23) rostrally projecting ascending CINs, and a few (2 of 10) CINs with bifurcating axons that both ascend and descend, indirectly inhibited local, contralateral motor neurons. Rhythmic firing during locomotor-like activity was observed in a number of CINs with segmental synaptic effects on contralateral motor neurons. This study outlines the basic connectivity pattern of CINs in the mouse spinal cord on a segmental level. Our study suggests that, based on observed synaptic connectivity, both short- and long-range CINs are likely involved in segmental left-right coordination and that the CIN system is organized into a dual-inhibitory and single-excitatory system. These systems are organized in a way that they could provide appropriate coordination during locomotion.
左右交替依赖于连合中间神经元(CINs)的活动,这些神经元的轴突在中线交叉。在本研究中,我们使用新开发的体外新生小鼠脊髓制备方法,研究CIN与局部运动神经元的连接,该方法使我们能够识别所有类型的CIN。29个轴突投射<1.5节段的短程CIN(sCINs)中有19个在静止脊髓中直接兴奋、直接抑制或间接抑制对侧运动神经元。兴奋是谷氨酸能的,抑制是甘氨酸能和/或GABA能混合的。还发现长程CIN对局部对侧运动神经元有输入。29个下行CIN中有13个与对侧运动神经元的突触连接与sCIN相似,包括直接兴奋、直接和间接抑制。一些(23个中的9个)向头端投射的上行CIN,以及少数(10个中的2个)轴突分叉且既有上行又有下行的CIN,间接抑制局部对侧运动神经元。在一些对侧运动神经元具有节段性突触效应的CIN中观察到类似运动活动的节律性放电。本研究概述了小鼠脊髓中CIN在节段水平上的基本连接模式。我们的研究表明,基于观察到的突触连接,短程和长程CIN可能都参与节段性左右协调,并且CIN系统被组织成一个双抑制和单兴奋系统。这些系统的组织方式使它们能够在运动过程中提供适当的协调。