转录因子 Zif 与 aPKC 的相互作用调节神经母细胞的极性和自我更新。

Interplay between the transcription factor Zif and aPKC regulates neuroblast polarity and self-renewal.

机构信息

Temasek Life Sciences Laboratory, 1 Research Link, Singapore 117604.

出版信息

Dev Cell. 2010 Nov 16;19(5):778-85. doi: 10.1016/j.devcel.2010.10.007.

DOI:10.1016/j.devcel.2010.10.007

Abstract

How a cell decides to self-renew or differentiate is a critical issue in stem cell and cancer biology. Atypical protein kinase C (aPKC) promotes self-renewal of Drosophila larval brain neural stem cells, neuroblasts. However, it is unclear how aPKC cortical polarity and protein levels are regulated. Here, we have identified a zinc-finger protein, Zif, which is required for the expression and asymmetric localization of aPKC. aPKC displays ectopic cortical localization with upregulated protein levels in dividing zif mutant neuroblasts, leading to neuroblast overproliferation. We show that Zif is a transcription factor that directly represses aPKC transcription. We further show that Zif is phosphorylated by aPKC both in vitro and in vivo. Phosphorylation of Zif by aPKC excludes it from the nucleus, leading to Zif inactivation in neuroblasts. Thus, reciprocal repression between Zif and aPKC act as a critical regulatory mechanism for establishing cell polarity and controlling neuroblast self-renewal.

摘要

细胞如何决定自我更新或分化是干细胞和癌症生物学中的一个关键问题。非典型蛋白激酶 C（aPKC）促进果蝇幼虫大脑神经干细胞、神经母细胞的自我更新。然而，aPKC 皮质极性和蛋白水平如何调节尚不清楚。在这里，我们鉴定了一个锌指蛋白 Zif，它是 aPKC 表达和不对称定位所必需的。aPKC 在分裂的 zif 突变神经母细胞中表现出异位皮质定位和上调的蛋白水平，导致神经母细胞过度增殖。我们表明 Zif 是一个转录因子，它直接抑制 aPKC 的转录。我们进一步表明 Zif 在体外和体内均可被 aPKC 磷酸化。aPKC 对 Zif 的磷酸化将其排除在核外，导致神经母细胞中 Zif 失活。因此，Zif 和 aPKC 之间的相互抑制作用是建立细胞极性和控制神经母细胞自我更新的关键调节机制。

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转录因子 Zif 与 aPKC 的相互作用调节神经母细胞的极性和自我更新。

Interplay between the transcription factor Zif and aPKC regulates neuroblast polarity and self-renewal.

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