红系细胞中变异EKLF的非随机亚细胞分布。
Non-random subcellular distribution of variant EKLF in erythroid cells.
作者信息
Quadrini Karen J, Gruzglin Eugenia, Bieker James J
机构信息
Department of Developmental and Regenerative Biology, Mount Sinai School of Medicine, New York, NY 10029, USA.
出版信息
Exp Cell Res. 2008 Apr 15;314(7):1595-604. doi: 10.1016/j.yexcr.2008.01.033. Epub 2008 Feb 20.
Abstract
EKLF protein plays a prominent role during erythroid development as a nuclear transcription factor. Not surprisingly, exogenous EKLF quickly localizes to the nucleus. However, using two different assays we have unexpectedly found that a substantial proportion of endogenous EKLF resides in the cytoplasm at steady state in all erythroid cells examined. While EKLF localization does not appear to change during either erythroid development or terminal differentiation, we find that the protein displays subtle yet distinct biochemical and functional differences depending on which subcellular compartment it is isolated from, with PEST sequences possibly playing a role in these differences. Localization is unaffected by inhibition of CRM1 activity and the two populations are not differentiated by stability. Heterokaryon assays demonstrate that EKLF is able to shuttle out of the nucleus although its nuclear re-entry is rapid. These studies suggest there is an unexplored role for EKLF in the cytoplasm that is separate from its well-characterized nuclear function.
摘要
EKLF蛋白作为一种核转录因子,在红细胞生成过程中发挥着重要作用。毫不奇怪,外源性EKLF能迅速定位于细胞核。然而,通过两种不同的检测方法,我们意外地发现,在所有检测的红细胞中,相当一部分内源性EKLF在稳态时位于细胞质中。虽然在红细胞生成或终末分化过程中,EKLF的定位似乎没有变化,但我们发现,根据从哪个亚细胞区室分离该蛋白,它会表现出细微但明显的生化和功能差异,PEST序列可能在这些差异中发挥作用。定位不受CRM1活性抑制的影响,且这两种蛋白群体在稳定性上没有差异。异核体检测表明,EKLF能够穿梭出细胞核,尽管其重新进入细胞核的速度很快。这些研究表明,EKLF在细胞质中存在一个尚未被探索的作用,这与其已被充分表征的核功能是分开的。
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