Forger N G, Howell M L, Bengston L, MacKenzie L, DeChiara T M, Yancopoulos G D
Department of Psychology and Center for Neuroendocrine Studies, University of Massachusetts, Amherst, Massachusetts 01003, USA.
J Neurosci. 1997 Dec 15;17(24):9605-12. doi: 10.1523/JNEUROSCI.17-24-09605.1997.
Ciliary neurotrophic factor (CNTF) has potent survival-promoting effects on motoneurons in vitro and in vivo. We examined knockout mice with null mutations of the gene for either CNTF itself or the alpha-subunit of the CNTF receptor (CNTFRalpha) to assess whether CNTF and/or its receptors are involved in the development of a sexually dimorphic neuromuscular system. Male rodents have many more motoneurons in the spinal nucleus of the bulbocavernosus (SNB) than do females. This sex difference is caused by hormone-regulated death of SNB motoneurons and their target muscles. Sexual dimorphism of SNB motoneuron number developed completely normally in CNTF knockout (CNTF -/-) mice. In contrast, a sex difference in the SNB was absent in CNTFRalpha -/- animals: male mice lacking a functional CNTF alpha-receptor had fewer than half as many SNB motoneurons than did wild-type males and no more than did their female counterparts. Size of the bulbocavernosus and levator ani muscles, the main targets of SNB motoneurons, was not affected in either CNTF or CNTFRalpha knockout males. These observations suggest that signaling through the CNTF receptor is involved in sexually dimorphic development of SNB motoneuron number and that target muscle survival per se is not sufficient to ensure motoneuron survival in this system. In addition, our observations are consistent with the suggestion that CNTF itself is not the only endogenous ligand for the CNTF receptor. A second, as yet unknown, ligand may be important for neural development, including sexually dimorphic motoneuron development.
睫状神经营养因子(CNTF)在体外和体内对运动神经元具有强大的促存活作用。我们检查了基因发生无效突变的敲除小鼠,这些基因要么是CNTF自身的基因,要么是CNTF受体的α亚基(CNTFRα)的基因,以评估CNTF和/或其受体是否参与性二态性神经肌肉系统的发育。雄性啮齿动物球海绵体肌脊髓核(SNB)中的运动神经元比雌性多得多。这种性别差异是由激素调节的SNB运动神经元及其靶肌肉的死亡引起的。在CNTF基因敲除(CNTF -/-)小鼠中,SNB运动神经元数量的性二态性完全正常发育。相比之下,在CNTFRα -/-动物中,SNB不存在性别差异:缺乏功能性CNTFα受体的雄性小鼠的SNB运动神经元数量不到野生型雄性小鼠的一半,且不超过其雌性对应物。SNB运动神经元的主要靶肌肉球海绵体肌和提肛肌的大小,在CNTF或CNTFRα基因敲除的雄性小鼠中均未受到影响。这些观察结果表明,通过CNTF受体的信号传导参与了SNB运动神经元数量的性二态性发育,并且在该系统中,靶肌肉的存活本身不足以确保运动神经元的存活。此外,我们的观察结果与以下观点一致,即CNTF本身不是CNTF受体的唯一内源性配体。第二种尚未知的配体可能对神经发育很重要,包括性二态性运动神经元的发育。