Department of Biochemistry and Institute of Health Sciences, Gyeongsang National University, School of Medicine, 92 Chilam-dong, JinJu 660-751, Republic of Korea.
Biochem Biophys Res Commun. 2011 Jan 21;404(3):841-7. doi: 10.1016/j.bbrc.2010.12.072. Epub 2010 Dec 22.
We previously reported that TrkA overexpression causes accumulation of γH2AX proteins in the cytoplasm, subsequently leading to massive cell death in U2OS cells. To further investigate how cytoplasmic H2AX is associated with TrkA-induced cell death, we established TrkA-inducible cells stably expressing GFP-tagged H2AX. We found that TrkA co-localizes with ectopically expressed GFP-H2AX proteins in the cytoplasm, especially at the juxta-nuclear membranes, which supports our previous results about a functional connection between TrkA and γH2AX in TrkA-induced cell death. γH2AX production from GFP-H2AX proteins was significantly increased when TrkA was overexpressed. Moreover, ectopic expression of H2AX activated TrkA-mediated signal pathways via up-regulation of TrkA tyrosine-490 phosphorylation. In addition, suppression of TrkA tyrosine-490 phosphorylation under a certain condition was removed by ectopic expression of H2AX, indicating a functional role of H2AX in the maintenance of TrkA activity. Indeed, TrkA-induced cell death was highly elevated by ectopic H2AX expression, and it was further accelerated by DNA damage via JNK activation. These all results suggest that cytoplasmic H2AX could play an important role in TrkA-mediated cell death by modulating TrkA upon DNA damage.
我们之前曾报道过,TrkA 过表达会导致 γH2AX 蛋白在细胞质中积累,随后导致 U2OS 细胞大量死亡。为了进一步研究细胞质中的 H2AX 如何与 TrkA 诱导的细胞死亡相关联,我们建立了稳定表达 GFP 标记 H2AX 的 TrkA 诱导细胞。我们发现,TrkA 与细胞质中异位表达的 GFP-H2AX 蛋白共定位,尤其是在核周膜附近,这支持了我们之前关于 TrkA 和 γH2AX 在 TrkA 诱导的细胞死亡中具有功能联系的结果。当 TrkA 过表达时,GFP-H2AX 蛋白的 γH2AX 产生显著增加。此外,H2AX 的异位表达通过上调 TrkA 酪氨酸-490 磷酸化激活了 TrkA 介导的信号通路。此外,在一定条件下抑制 TrkA 酪氨酸-490 磷酸化被 H2AX 的异位表达所消除,表明 H2AX 在维持 TrkA 活性方面具有功能作用。事实上,H2AX 的异位表达显著增加了 TrkA 诱导的细胞死亡,并且通过 JNK 激活进一步加速了 DNA 损伤。所有这些结果表明,细胞质中的 H2AX 通过在 DNA 损伤时调节 TrkA,可能在 TrkA 介导的细胞死亡中发挥重要作用。
