激酶组学分析方法鉴定 Trk 为一种新型的辐射调节剂。

Kinomic profiling approach identifies Trk as a novel radiation modulator.

机构信息

Department of Biochemistry and Molecular Genetics, The University of Alabama at Birmingham, Birmingham, AL 35249-6832, USA.

出版信息

Radiother Oncol. 2012 Jun;103(3):380-7. doi: 10.1016/j.radonc.2012.03.014. Epub 2012 May 5.

DOI:10.1016/j.radonc.2012.03.014

PMID:22561027

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3368103/

Abstract

BACKGROUND

Ionizing radiation treatment is used in over half of all cancer patients, thus determining the mechanisms of response or resistance is critical for the development of novel treatment approaches.

MATERIALS AND METHODS

In this report, we utilize a high-content peptide array platform that performs multiplex kinase assays with real-time kinetic readout to investigate the mechanism of radiation response in vascular endothelial cells. We applied this technology to irradiated human umbilical vein endothelial cells (HUVEC).

RESULTS

We identified 49 specific tyrosine phosphopeptides that were differentially affected by irradiation over a time course of 1h. In one example, the Tropomyosin receptor kinase (Trk) family members, TrkA and TrkB, showed transient activation between 2 and 15 min following irradiation. When we targeted TrkA and TrkB using small molecule inhibitors, HUVEC were protected from radiation damage. Conversely, stimulation of TrkA using gambogic amide promoted radiation enhancement.

CONCLUSIONS

Thus, we show that our approach not only can identify rapid changes in kinase activity but also identify novel targets such as TrkA. TrkA inhibition resulted in radioprotection that correlated with enhanced repair of radiation-induced damage while TrkA stimulation by gambogic amide produced radiation sensitization.

摘要

背景

超过一半的癌症患者接受电离辐射治疗，因此确定其反应或耐药的机制对于开发新的治疗方法至关重要。

材料和方法

在本报告中，我们利用一种高内涵肽阵列平台，该平台采用实时动力学读数进行多重激酶检测，以研究血管内皮细胞的辐射反应机制。我们将该技术应用于辐照的人脐静脉内皮细胞（HUVEC）。

结果

我们确定了 49 种特定的酪氨酸磷酸肽，这些肽在 1 小时的时间过程中受到辐射的影响而有所不同。在一个例子中，原肌球蛋白受体激酶（Trk）家族成员 TrkA 和 TrkB 在辐照后 2 至 15 分钟内表现出短暂的激活。当我们使用小分子抑制剂靶向 TrkA 和 TrkB 时，HUVEC 可以免受辐射损伤。相反，使用藤黄酰胺刺激 TrkA 可促进辐射增强。

结论

因此，我们表明我们的方法不仅可以识别激酶活性的快速变化，还可以识别 TrkA 等新的靶标。TrkA 抑制导致放射保护与增强修复辐射诱导的损伤相关，而藤黄酰胺刺激 TrkA 则产生放射增敏。

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