Camarero G, Avendano C, Fernandez-Moreno C, Villar A, Contreras J, de Pablo F, Pichel J G, Varela-Nieto I
Instituto de Investigaciones Biomédicas Alberto Sols, Consejo Superior de Investigaciones Cientificas (CSIC), Universidad Autónoma de Madrid (UAM), 28029 Madrid, Spain.
J Neurosci. 2001 Oct 1;21(19):7630-41. doi: 10.1523/JNEUROSCI.21-19-07630.2001.
Insulin-like growth factor-1 (IGF-1) has been shown to play a key role during embryonic and postnatal development of the CNS, but its effect on a sensory organ has not been studied in vivo. Therefore, we examined cochlear growth, differentiation, and maturation in Igf-1 gene knock-out mice at postnatal days 5 (P5), P8, and P20 by using stereological methods and immunohistochemistry. Mutant mice showed reduction in size of the cochlea and cochlear ganglion. An immature tectorial membrane and a significant decrease in the number and size of auditory neurons were also evident at P20. IGF-1-deficient cochlear neurons showed increased caspase-3-mediated apoptosis, along with aberrant expression of the early neural markers nestin and Islet 1/2. Cochlear ganglion and fibers innervating the sensory cells of the organ of Corti presented decreased levels of neurofilament and myelin P(0) in P20 mouse mutants. In addition, an abnormal synaptophysin expression in the somata of cochlear ganglion neurons and sensory hair cells suggested the persistence of an immature pattern of synapses distribution in the organ of Corti of these animals. These results demonstrate that lack of IGF-1 in mice severely affects postnatal survival, differentiation, and maturation of the cochlear ganglion cells and causes abnormal innervation of the sensory cells in the organ of Corti.
胰岛素样生长因子-1(IGF-1)已被证明在中枢神经系统的胚胎期和出生后发育过程中起关键作用,但其对感觉器官的影响尚未在体内进行研究。因此,我们通过体视学方法和免疫组织化学,研究了出生后第5天(P5)、P8和P20的Igf-1基因敲除小鼠的耳蜗生长、分化和成熟情况。突变小鼠的耳蜗和耳蜗神经节尺寸减小。在P20时,还明显可见未成熟的盖膜以及听觉神经元数量和大小显著减少。IGF-1缺陷的耳蜗神经元显示半胱天冬酶-3介导的凋亡增加,同时早期神经标志物巢蛋白和胰岛1/2表达异常。在P20的小鼠突变体中,耳蜗神经节和支配柯蒂氏器感觉细胞的纤维中神经丝和髓磷脂P(0)水平降低。此外,耳蜗神经节神经元和感觉毛细胞胞体中突触素表达异常,表明这些动物的柯蒂氏器中突触分布存在未成熟模式。这些结果表明,小鼠缺乏IGF-1会严重影响出生后耳蜗神经节细胞的存活、分化和成熟,并导致柯蒂氏器感觉细胞的神经支配异常。