Li L Y, Wang Z, Sedý J, Quazi R, Walro J M, Frank E, Kucera J
Department of Physiology, Tufts University School of Medicine, Boston, Massachusetts, USA.
Dev Dyn. 2006 Nov;235(11):3039-50. doi: 10.1002/dvdy.20964.
Two factors, the ETS transcription factor ER81 and skeletal muscle-derived neurotrophin-3 (NT3), are essential for the formation of muscle spindles and the function of spindle afferent-motoneuron synapses in the spinal cord. Spindles either degenerate completely or are abnormal, and spindle afferents fail to project to spinal motoneurons in Er81 null mice; however, the interactions between ER81 and NT3 during the processes of afferent neuron and muscle spindle development are poorly understood. To examine if overexpression of NT3 in muscle rescues spindles and afferent-motoneuron connectivity in the absence of ER81, we generated myoNT3;Er81(-/-) double-mutant mice that selectively overexpress NT3 in muscle in the absence of ER81. Spindle reflex arcs in myoNT3;Er81(-/-) mutants differed greatly from Er81 null mice. Muscle spindle densities were greater and more afferents projected into the ventral spinal cord in myoNT3;Er81(-/-) mice. Spindles of myoNT3;Er81(-/-) muscles responded normally to repetitive muscle taps, and the monosynaptic inputs from Ia afferents to motoneurons, grossly reduced in Er81(-/-) mutants, were restored to wild-type levels in myoNT3;Er81(-/-) mice. Thus, an excess of muscle-derived NT3 reverses deficits in spindle numbers and afferent function induced by the absence of ER81. We conclude that muscle-derived NT3 can modulate spindle density and afferent-motoneuron connectivity independently of ER81.
两个因素,即ETS转录因子ER81和骨骼肌源性神经营养因子-3(NT3),对于脊髓中肌梭的形成以及梭内传入神经元与运动神经元突触的功能至关重要。在Er81基因敲除小鼠中,肌梭要么完全退化,要么异常,并且梭内传入神经元无法投射到脊髓运动神经元;然而,在传入神经元和肌梭发育过程中,ER81与NT3之间的相互作用却知之甚少。为了研究在缺乏ER81的情况下,肌肉中NT3的过表达是否能挽救肌梭和传入神经元与运动神经元之间的连接,我们构建了myoNT3;Er81(-/-)双突变小鼠,该小鼠在缺乏ER81的情况下在肌肉中选择性地过表达NT3。myoNT3;Er81(-/-)突变体中的梭反射弧与Er81基因敲除小鼠有很大不同。在myoNT3;Er81(-/-)小鼠中,肌梭密度更高,更多的传入神经元投射到脊髓腹侧。myoNT3;Er81(-/-)肌肉的肌梭对重复的肌肉轻敲反应正常,并且在Er81(-/-)突变体中严重减少的从Ia传入神经元到运动神经元的单突触输入,在myoNT3;Er81(-/-)小鼠中恢复到了野生型水平。因此,过量的肌肉源性NT3可逆转因缺乏ER81而导致的肌梭数量和传入功能缺陷。我们得出结论,肌肉源性NT3可以独立于ER81调节肌梭密度和传入神经元与运动神经元之间的连接。