为什么纤层蛋白B受体在衰老过程中下调

E. Lukášová, A. Kovařík, S. Kozubek
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引用次数: 0

摘要

真核生物细胞核中染色质结构的空间组织和基因组功能的重要机制是通过核膜内蛋白(INM)将特定的异染色质区域锚定在核膜上,这些蛋白能够识别这些区域并同时结合Lamin A/C或Lamin B1。其中一种蛋白质是层粘连蛋白B受体(LBR),它在胚胎和未分化细胞中结合层粘连蛋白B1并将异染色质系在INM上。在细胞分化初期,它被特定的lamin A/C结合蛋白(尤其是lem结构域蛋白)取代。我们在癌细胞系中进行的功能实验表明,癌细胞中的异染色质通过LBR连接到INM,在细胞向衰老转变的开始,LBR与层合蛋白B1一起下调。在LBR被shRNA沉默的细胞中,LB1的下调也证明了这些蛋白的协调调节。衰老细胞中这些蛋白的下调导致着丝粒异染色质脱离INM,导致其在核质中膨胀。这些组成异染色质结构的变化可能是衰老过程中细胞增殖永久性丧失的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Why is Lamin B Receptor Downregulated in Senescence
An important mechanism ensuring spatial organization of chromatin structure and genome function in eukaryotic nuclei consists in anchoring of specific heterochromatin regions to nuclear envelope by proteins of inner nuclear membrane (INM) that are able to recognize these regions and simultaneously bind either Lamin A/C or lamin B1. One of these proteins is lamin B receptor (LBR) that binds lamin B1 and tethers heterochromatin to INM in embryonic and undifferentiated cells. It is replaced by lamin A/C with specific lamin A/C binding proteins (especially LEM-domain proteins) at the beginning of cell differentiation. Our functional experiments in cancer cell lines show that heterochromatin in cancer cells is tethered to INM by LBR that is downregulated together with lamin B1 at the onset of cell transition to senescence. A coordinated regulation of these proteins is evidenced also by downregulation of LB1 in cells with LBR silenced by shRNA. The downregulation of these proteins in senescent cells leads to the detachment of centromeric heterochromatin from INM resulting in it distension in nucleoplasm. These changes in structure of constitutive heterochromatin may be the reason of a permanent loss of cell proliferation in senescence.
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