Aruga Jun, Inoue Takashi, Hoshino Jun, Mikoshiba Katsuhiko
Laboratory for Developmental Neurobiology, RIKEN Brain Science Institute, Wako-shi, Saitama 351-0198, Japan.
J Neurosci. 2002 Jan 1;22(1):218-25. doi: 10.1523/JNEUROSCI.22-01-00218.2002.
Mouse Zic genes encode zinc finger proteins and are expressed in the developing and mature CNS. Reduced expression of Zic2 in mice results in spina bifida and holoprosencephaly. However, the disruption of Zic1, a strong homolog of Zic2 that has an overlapping expression pattern, results in cerebellar malformation with no apparent abnormalities in the forebrain or in posterior neuropore closure. Here we revealed that Zic2 and Zic1 cooperatively control cerebellar development by regulating neuronal differentiation. Both Zic1 and Zic2 are expressed in the precursor cells of the granule neuron and the neurons in cerebellar nuclei. Mice carrying one mutated Zic1 allele together with one mutated Zic2 allele (Zic1(+/-)Zic2(+/kd)) showed a marked cerebellar folial abnormality similar to, but distinct from that found in mice homozygous for the Zic1 mutation (Zic1(-/-)). The Zic1(+/-)Zic2(+/kd) cerebellum is missing a lobule in the anterior vermis and has a truncation of the most posterior lobule. Expression of transverse zonal markers is shifted anteriorly in the developing cerebellum, indicating that the anterior part of the cerebellum is poorly developed. Abnormalities in the developing Zic1(+/-)Zic2(+/kd) cerebellum share the following features with those of the Zic1(-/-) cerebellum: a preceding reduction of cell proliferation in the anterior external germinal layer, a reduction in cyclin D1 expression, and enhanced expression of the mitosis inhibitors p27 and p16, and enhancement of Wnt7a expression. These results indicate that Zic1 and Zic2 may have very similar functions in the regulation of cerebellar development.
小鼠Zic基因编码锌指蛋白,在中枢神经系统的发育和成熟过程中表达。小鼠中Zic2表达降低会导致脊柱裂和前脑无裂畸形。然而,Zic2的强同源物Zic1的破坏,其具有重叠的表达模式,会导致小脑畸形,在前脑或后神经孔闭合方面无明显异常。在这里,我们发现Zic2和Zic1通过调节神经元分化协同控制小脑发育。Zic1和Zic2均在颗粒神经元的前体细胞和小脑核中的神经元中表达。携带一个突变的Zic1等位基因和一个突变的Zic2等位基因(Zic1(+/-)Zic2(+/kd))的小鼠表现出明显的小脑叶异常,类似于但不同于Zic1突变纯合小鼠(Zic1(-/-))中发现的异常。Zic1(+/-)Zic2(+/kd)小鼠的小脑在蚓部前部缺少一个小叶,并且最后部的小叶有截断。横向带状标记物的表达在发育中的小脑中向前移位,表明小脑前部发育不良。发育中的Zic1(+/-)Zic2(+/kd)小脑的异常与Zic1(-/-)小脑的异常具有以下共同特征:前外侧生发层中细胞增殖预先减少、细胞周期蛋白D1表达减少、有丝分裂抑制剂p27和p16表达增强以及Wnt7a表达增强。这些结果表明,Zic1和Zic2在小脑发育调控中可能具有非常相似的功能。