纳米颗粒介导的核纤层蛋白 B1 池减少促进了培养细胞中基于端粒重复结合因子蛋白的适应性反应。

Nanoparticle-mediated decrease of lamin B1 pools promotes a TRF protein-based adaptive response in cultured cells.

机构信息

Department of Genetics, University of Rzeszow, Rejtana 16C, 35-959 Rzeszow, Poland.

Department of Plant Physiology, University of Rzeszow, Werynia 502, 36-100 Kolbuszowa, Poland.

出版信息

Biomaterials. 2015 Jun;53:107-16. doi: 10.1016/j.biomaterials.2015.02.072. Epub 2015 Mar 12.

DOI:10.1016/j.biomaterials.2015.02.072

PMID:25890711

Abstract

In general, nanoparticle-based materials are promising candidates for use in biological systems for diagnostic and therapeutic approaches. However, these materials' actions at the molecular level remain poorly understood. Nanoparticle (silica, silver and diamond)-induced oxidative stress and activation of the NF-κB pathway lead to the depletion of lamin B1 pools, which, in turn, results in upregulation of telomeric repeat binding factor (TRF) protein expression and maintenance of telomere length. In cancer cells, the TRF-based response is independent of the p53 pathway. In fibroblasts with active p53/p21 signaling, the levels of p53 and p21 are elevated and stress-induced premature senescence is observed. These results suggest that nanoparticles promote a telomere-focused cell adaptive response.

摘要

一般来说，基于纳米粒子的材料是用于生物系统诊断和治疗方法的有前途的候选物。然而，这些材料在分子水平上的作用仍未得到很好的理解。纳米颗粒（二氧化硅、银和金刚石）诱导的氧化应激和 NF-κB 途径的激活导致 lamin B1 池的耗尽，这反过来又导致端粒重复结合因子（TRF）蛋白表达的上调和端粒长度的维持。在癌细胞中，基于 TRF 的反应独立于 p53 途径。在具有活跃 p53/p21 信号的成纤维细胞中，p53 和 p21 的水平升高，并观察到应激诱导的过早衰老。这些结果表明，纳米颗粒促进了以端粒为中心的细胞适应性反应。

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纳米颗粒介导的核纤层蛋白 B1 池减少促进了培养细胞中基于端粒重复结合因子蛋白的适应性反应。

Nanoparticle-mediated decrease of lamin B1 pools promotes a TRF protein-based adaptive response in cultured cells.

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