Misawa Hidemi, Inomata Daijiro, Kikuchi Miseri, Maruyama Sae, Moriwaki Yasuhiro, Okuda Takashi, Nukina Nobuyuki, Yamanaka Tomoyuki
Division of Pharmacology, Faculty of Pharmacy, Keio University, Tokyo, Japan.
Laboratory of Structural Neuropathology, Doshisha University Graduate School of Brain Science, Kyoto, Japan.
Genesis. 2016 Nov;54(11):568-572. doi: 10.1002/dvg.22979. Epub 2016 Sep 15.
VAChT-Cre.Fast and VAChT-Cre.Slow mice selectively express Cre recombinase in approximately one half of postnatal somatic motor neurons. The mouse lines have been used in various studies with selective genetic modifications in adult motor neurons. In the present study, we crossed VAChT-Cre lines with a reporter line, CAG-Syp/tdTomato, in which synaptophysin-tdTomato fusion proteins are efficiently sorted to axon terminals, making it possible to label both cell bodies and axon terminals of motor neurons. In the mice, Syp/tdTomato fluorescence preferentially co-localized with osteopontin, a recently discovered motor neuron marker for slow-twitch fatigue-resistant (S) and fast-twitch fatigue-resistant (FR) types. The fluorescence did not preferentially co-localize with matrix metalloproteinase-9, a marker for fast-twitch fatigable (FF) motor neurons. In the neuromuscular junctions, Syp/tdTomato fluorescence was detected mainly in motor nerve terminals that innervate type I or IIa muscle fibers. These results suggest that the VAChT-Cre lines are Cre-drivers that have selectivity in S and FR motor neurons. In order to avoid confusion, we have changed the mouse line names from VAChT-Cre.Fast and VAChT-Cre.Slow to VAChT-Cre.Early and VAChT-Cre.Late, respectively. The mouse lines will be useful tools to study slow-type motor neurons, in relation to physiology and pathology.
VAChT-Cre.Fast和VAChT-Cre.Slow小鼠在大约一半的出生后躯体运动神经元中选择性表达Cre重组酶。这些小鼠品系已用于各种对成年运动神经元进行选择性基因改造的研究。在本研究中,我们将VAChT-Cre品系与一个报告基因品系CAG-Syp/tdTomato进行杂交,在该品系中,突触素-tdTomato融合蛋白能有效地分选到轴突终末,从而有可能标记运动神经元的细胞体和轴突终末。在这些小鼠中,Syp/tdTomato荧光优先与骨桥蛋白共定位,骨桥蛋白是最近发现的慢肌纤维抗疲劳(S)型和快肌纤维抗疲劳(FR)型运动神经元的标志物。荧光并不优先与基质金属蛋白酶-9共定位,基质金属蛋白酶-9是快肌纤维易疲劳(FF)型运动神经元的标志物。在神经肌肉接头处,主要在支配I型或IIa型肌纤维的运动神经终末检测到Syp/tdTomato荧光。这些结果表明,VAChT-Cre品系是在S型和FR型运动神经元中具有选择性的Cre驱动品系。为避免混淆,我们已将小鼠品系名称分别从VAChT-Cre.Fast和VAChT-Cre.Slow改为VAChT-Cre.Early和VAChT-Cre.Late。这些小鼠品系将成为研究慢型运动神经元生理和病理相关问题的有用工具。
